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JENY SUSAN JOSEPH MALAYALAM ACTRESS1/7/2018
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View the profiles of people named Jenny Susan Joseph. Join Facebook to connect with Jenny Susan Joseph and others you may know. Facebook gives people the. Jun 29, 2017 - 122 min. Amongst stars and thespians in Malayalam cinema'.Meera Jasmine was born on 15. Discover your ancestry - search Birth, Marriage and Death certificates, census records, immigration lists and other records - all in one family search! Feb 27, 2017. Meera jasmine, born jasmine mary joseph, is an indian actress from thiruvalla, kerala, who appears inside the south indian cinema. She has sisters, jiby sara joseph and jeny susan joseph, who has aside from acted in films, and two brothers, such in a throw of them, george certain as a photography. Meera Jasmine in, during a stage show in May 2011 Born Jasmine Mary Joseph ( 1982-02-15) February 15, 1982 (age 35), Kerala, India Nationality Occupation Actress Years active 2001 – present Height 1.60 m (5 ft 3 in) Spouse(s) Anil John Titus Meera Jasmine (born Jasmine Mary Joseph) is an actress who stars in, primarily appears in films She was a popular lead actress during the 2000s. Meera Jasmine won the in 2004 for her role in, and is a two-time recipient of the and a. She also won the from the. Called her 'one of the few actors who could hold her own amongst stars and thespians in Malayalam cinema'. Contents • • • • • • • • • • • Early life Meera Jasmine was born on 15 February 1982 in a family in Kuttapuzha village,, to Joseph and Aleyamma. She was the fourth of five children. She has two sisters, Jiby Sara Joseph and Jeny Susan Joseph, who has also acted in films, and two brothers, one of them, George worked as an assistant cinematographer. She completed her schooling in Bala Vihar, Thiruvalla and, Thiruvalla. She appeared for her Higher Secondary Exams in March 2000. She had enrolled for a BSc degree in Zoology at, and completed nearly three months when she was spotted by director (who was then an assistant director to director ) and offered a role in. Meera had initially wanted to study and become a doctor and never had dreamed of becoming a film star. She stated, 'I was just an ordinary girl. Never in my wildest dreams did I imagine being in films. I had not acted even inschool plays.
I never was the artistic type, I never thought I could dance, and I had not even thought of myself as being beautiful'. She also said that Lohithadas 'is like a father figure and my guru. He initiated me into films with Soothradharan and I owe it all to him'. Career Malayalam Meera Jasmine made her debut in the Malayalam film. Her second film was, directed by, in which she appeared alongside and. Her role as a Jewish girl was appreciated by Malayalam critics. Her third film was, a romantic comedy alongside,,, and under director Kamal. Her performance was appreciated and the film was a highcommercial success.
Among the five main characters, the one who scored the most was again Meera. She rose to fame in Malayalam cinema with the film directed by her mentor, in which she enacted comedy and sentimental scenes. She received her first Filmfare award for her performance in Kasthooriman. The film was also a success at the box office, running for 100 days. The same year, she acted in 's acclaimed. She played a 15-year-old Muslim girl who was forced to marry an older man, for which she was awarded a State Award and the National Award in addition with several other awards. It was followed by her performance as Raziya in alongside. In the film (2005), she enacted the young, adorable character Achu. She then paired with in (2006). She played as a girl pretending to be a boy in the first half of the film. The film went on to become a commercial success. Her next film with Dileep –, which again was directed. She was next featured opposite in the critically acclaimed film. The film was showcased in film festivals and won awards. Her performance as an innocent middle class woman won praise from audiences. Media quoted her as, 'Matching step with the megastar in this histrionic race is Meera Jasmine, who amazes you with a stunning delineation of her difficult role'. Her next film was with Dileep., who introduced her to film field, was the director of Calcutta News. In (2008), she collaborated with Sathyan Anthikkad for his fourth consecutive film, again opposite Mohanlal, but failed to succeed. Her next films with Kamal and with, which released after a long post-production delay, were box office failures. More than a year later, she played the role of a playback singer in 's. Though the film was commercially not successful, her character was noted and her performance gave her a comeback. Her next film,, was a multi-starrer directed. She played the role of a cancer patient in this film. In the 2011 film, she played the lead role opposite Anand Michael and. After a brief hiatus, she began committing films by late-2012. She was keen in choosing more women-centric roles and in 's, a sequel to the 2006 film, her role was that of a serial rape victim. She acted opposite in 's comedy film. Her latest project is Shajiyem's, a fantasy film in which she plays a dynamic media person, who unexpectedly starts envisaging happenings that cannot be accepted according to the general perception. She has signed up for Ithinumappuram, a period film based in the 70s, in which she plays a highly orthodox and rich Nair woman who falls in love with someone from a lower caste and gets married against her parents' will. Tamil Meera Jasmine's debut was, directed by Lingusamy, which became a high success in Tamil Nadu and made her a sought-after actress. The successes of Run and her next (2002) gave her the chance to work with the established actors of the Tamil film industry. Though her successive film did not fare as well, she was noticed by director who gave her a role in. Meera, who did not know Tamil, worked on her diction, and spoke dubbing for her herself in the film. She later appeared in SS Stanley in. Her latest Tamil film, got releasedin December 2011.
Meera has acted in 15 Tamil films. Telugu and Kannada Meera Jasmine became noted in the with Run, the dubbed version of the same-titled Tamil film. She was in the Telugu films in 2004 with and but also entered cinema by co-starring with in Maurya. Her film again with and is a hit. Her other Kannada films include Devaru Kotta Thangi and. Ijjodu, in which she played Chenni, a Basavi woman, who ends up becoming a sex worker, was screened at four prestigious domestic film festivals and garnered critical acclaim. Meera Jasmine's biggest commercial success in Telugu remains with in the male lead. Her other Telugu films are,,, and, in which she is paired for a second time with Sivaji. Personal life In 2008 she said in an interview that she will be marrying Mandolin Rajesh, 'but not for the next two or three years'. Meera is married to Anil John Titus on 9 February 2014 who works as an engineer in Dubai. Controversy She offered prayers at Raja Rajeshwara temple at in Kerala where the entry of non-Hindus is prohibited. This led to a controversy and sparked off a protest by devotees. Later, she paid ₹10,000 (US$160) as penalty to the temple authorities to conduct the purification rituals. In 2008 she faced an unofficial ban in the Malayalam film industry issued by the Association of Malayalam Movie Artistes (AMMA), after she refused to shoot for, a film distributed by actor Dileep for AMMA. Meera however said that she was not aware of a ban and that she was continuing shooting for Malayalamfilms.
Awards • 2004 –, • 2003 –,, • 2007 – Best Actress,. • 2003 –, Government • 2008 – Award • 2003 –, • 2006 – Filmfare Award for Best Actress (Malayalam), • 2007 – Filmfare Award for Best Actress (Malayalam), • 2003 –, • 2004 – Best Actress Award, • 2005 – Best Actress Award, • 2007 – Best Actress Award, V. Shantaram Awards • 2003 – V Shantaram Award for Best Actress,. • 2007 – V Shantaram Award for Best Actress, Vanitha Film Awards • 2004 – Vanitha-Chandrika Film Award For Best Actress, • 2007 – Vanitha-Nipon Paint Film Award for Best Actress, Mathrubhumi Film Awards • 2003 – Mathrubhumi – Medimix Award for Best Actress, • 2004 – Mathrubhumi – Medimix Award for Best Actress, Other Awards • 2001 – Bharathan Award For Best Female Debut Actress, • 2002 – Dinakaran Award For Best Female Debut Actress, • 2003 – National Film Academy Award for Best Actress,. • 2003 – Kaveri-Film Critics Award, Paadam Onnu: Oru Vilapam • 2003 – Kerala Film Audience Council Award, Paadam Onnu: Oru Vilapam • 2003 – Kerala Film Critics Association Award, Paadam Onnu: Oru Vilapam • 2004 – Tikkurishi Award for Best Actress,. Meera Jasmine Height, Weight, Age, Affairs, Wiki & Facts. Retrieved 21 November2016.
Chennai, India. 5 March 2010. Chennai, India. 29 November 2004. • 18 June 2011 at the. Chennai, India. 26 September 2004. Chennai, India. 19 October 2004. • • • • • • ^. Chennai, India:. 11 November 2002. Retrieved 7 March 2011. Chennai, India:. 15 September 2003. Retrieved 7 March 2011. Chennai,India:.
15 August 2004. Retrieved 7 March 2011. • 10 December 2011 at the. • Parvathy Nambidi (14 May 2013)... The Times of India. Retrieved 26April 2014.
The Times of India. The Times of India. The Times of India. Retrieved 1 July 2006. Retrieved 2 July 2006. The Times of India. The Times of India. 13 July 2008. • • 17 July 2011 at the. • • 17 July 2011 at the. • 2 December 2008 at the. • 26 May 2008 at the. • • 29 September 2005 at the. Chennai, India. 21 March 2008. Chennai, India. 16 October 2008. Archived from on 17 October 2008. • 29 June 2013 at the. External links • on Awards Preceded by for for 2004 Succeeded by for.0 Comments
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Whereas conventional fabrication is governed by processing constraints related to industrial mass production, AM is inherently agile enabling faster turnaround on design and manufacturing of customized objects tailored to meet the demands of individuals and specific applications. In literature, the terms additive manufacturing, rapid prototyping, layered manufacturing, solid freeform fabrication, 3D fabbing, and 3D printing are used more or less synonymously. While “additive manufacturing” is preferred by most engineers, the term “3D printing” is far more common particularly in the popular media. In this work, the terms “additive manufacturing” (AM) and 3D printing are both used to describe the same general manufacturing principle. AM allows the production of 3D structures with high shape complexity. Although a coffee mug is not very complex, it provides a convenient object to demonstrate the concepts of AM (). In the first step, CAD is used to create a virtual object, which is then digitally sliced. Objects with overhanging portions (i.e., the coffee mug handle) are designed with temporary support structures to prevent collapse during the build process. The coordinates of the virtual object and digital slices are then used to steer the motors, which control the position of the building device or the 3D-dispenser orifice, respectively. For practical purposes, this type of computer-aided manufacturing (CAM) is normally performed layer by layer with typical layer thicknesses ranging from 15 to 500 μm. When the layer thickness is below 50 μm, the naked eye will in most cases not be able to recognize the stair-steps associated with a layered manufacturing approach. For thicker layers or in demanding applications, postprocessing may be used to remove support structures or to improve surface properties. As compared to conventional polymer processing (see ) by formative techniques like injection molding and subtractive techniques like CNC machining, AM is slower but enables CAD-guided fabrication of multifunctional material systems with complex shapes and functionalities, including bio systems. Basic principles of additive manufacturing. (a) Development of product idea that is transformed into digital data by means of CAD, or analysis of geometric data by means of 3D scanning; (b) preprocessing of model data: slicing of virtual model into layered data, adjustment of support structures to stabilize craning structures, path planning, and successive transfer of layered data to 3D printer; (c) and additive manufacturing of model or product, for example, by melt extrusion, postprocessing to remove typical artifacts including support structures and surface roughness due to staircase effects. With the development of easy-to-use systems exhibiting sufficiently fast build-speeds and decreased system prices, AM has moved from the arena of niche-manufacturing processes into the spotlight of a much larger audience. Despite the significant progress that has been achieved in recent years, there are still a number of challenges that need to be tackled to establish AM as a manufacturing tool on a large scale. Many of these challenges are related to the insufficient material properties (thermomechanical properties, anisotropy, porosity, long-term stability, cost, corrosion properties, creep, etc.) of the currently used build materials. With a focus on polymeric materials, this Review describes the different AM processes that use polymers along with the technical requirements of the utilized materials. Critical points, which currently limit the further use of AM in manufacturing, will be pointed out, and possible strategies for overcoming these issues will be discussed. The increasingly large number of AM processes can be categorized employing different criteria, ranging from the application (visual prototyping, functional prototyping, rapid tooling, and rapid manufacturing) to the initial condition of processed materials or the physical principle underlying the mostly layerwise solidification process. In 2009 the ASTM International Committee F42 on Additive Manufacturing Technology defined a number of terms to distinguish additive manufacturing technologies from their formative and subtractive competitors () and to classify different additive manufacturing processes. We aim to follow this nomenclature in the course of this Review. The scientific and technological impact of AM has steadily increased since the first commercial instruments were introduced in the late 1980s. Represents this trend graphically by tracing the yearly number of scientific publications and patents from 1985 to 2016 using the terms “additive manufacturing” and “rapid prototyping” (). As testimony to these developments, references for books and review articles from this time period on AM and RP are provided here. Whereas interest in “additive manufacturing” has grown steadily for the last 25 years, the comparatively younger field of bioprinting (which is based on AM) has witnessed a comparatively impressive increase in patents and publications within the past decade. This growth (expressed in units on the right-hand side of for better comparison) is expected to continue and may in the near future reach the levels of AM and RP. The initial economic motivation for the development of AM in the 1980s (better known as RP at that time) was to accelerate and lower the costs related to product development. In comparison to subtractive manufacturing technologies such as computerized numerical control (CNC) machining, AM is less wasteful (in terms of both construction material and replacement machine tools) and enables the incorporation of more complex internal substructures and undercuts. By providing designers with novel processes enabling them to efficiently create and amend physical models for validation purposes, design mistakes could be identified earlier. Resulting amendments were shifted to earlier stages of product development, enabling design security and eliminating the need for expensive corrections at later stages. In recent years, the overall market situation for AM was characterized by significant growth rates, as indicated. Revenues from services as well as products (systems and materials) have grown since the 2008 crisis, and worldwide numbers surpassed the value of 5 billion USD in 2015. This significant growth spurred a lot of interest in AM-related activities, and major players in the manufacturing industry (aerospace, energy, automotive, consumer products, and medical/dental) have started activities in the field. AM is currently able to fabricate parts made of metals, polymers, and ceramics. As indicated in, the revenues from material sales passed the value of 900 million USD in 2016. Interestingly, the largest fraction of these material sales still goes into photopolymers (350 million USD), despite the fact that, with a few exceptions, photopolymers are currently mostly used for molding and prototyping applications. AM metals worth 127 million USD were sold in 2016, and an estimated amount of 225 million USD was spent on polymer powders for laser sintering. The remaining revenues mostly come from sales of polymer filaments for fused deposition modeling (FDM). Polymers are therefore clearly the most widely used material class for AM. As AM became more established, and the quality of processes and materials reached a higher level, applications have widened to include prototypes for functional testing (functional prototyping). In parallel, the increasingly competitive accuracy of CAD reproduction and surface quality has enabled the use of AM in the tooling sector (rapid tooling), either by directly producing molds or by combining additive manufacturing with postprocessing techniques like CNC-machining or electro-discharge machining. The economic feasibility of additive manufacturing for end-user parts is mainly dependent on the number and bulk speed of identical parts that are to be produced. While impractical for mass production of simple objects, AM can outrun conventional, especially formative, manufacturing techniques in applications with a high level of individuality. There are some clinical applications that serve as examples where direct fabrication for the consumer is well-established. In osteoplastics, prosthetic dentistry, and orthodontics, precisely fitting implants or supports are often manufactured by AM. In these cases, end-user parts can be produced directly according to tomographic patient data. Further fields with commercial relevance include architecture, urban development, and jewelry. The term rapid prototyping, which is commonly used synonymously with AM, can be somewhat misleading with regards to the build speed. Although AM processes facilitate a much faster product development by reducing the time necessary for design validations and enabling the production of functional prototypes already at early stages in development, AM is still slow in comparison to mass production technologies such as injection molding. Up to now, this has been acceptable in a multitude of applications such as customized manufacturing that take advantage of the flexibility of AM processes. Nevertheless, the struggle to broaden the scope of application in the future has been a key motivator for research activities, for example, ranging from advanced path planning procedures for SLA in the 1990s to the development of continuous liquid interface production (CLIP) in 2015 by DeSimone et al. Videos of the CLIP process are available online displaying both its speed and its continuous nature, which is likened to the shapeshifting robot from the movie Terminator 2. As application of AM progresses from (visual) prototyping to manufacturing of end-user parts, the functionality of these parts is expected to match or surpass the performance of products fabricated using subtractive and formative technologies. Despite numerous research activities, products produced by AM are inferior with respect to mechanical properties in many cases. Depending on the specific process employed, this weakness may be due to a limited choice of materials suited for a process (e.g., photocurable vinyl- or epoxy-functional oligomers for photopolymerization in the case of SLA) or to an unavoidable porosity of parts derived from powder bed fusion or material extrusion. Moreover, due to the layered production process, mechanical properties of parts tend to be anisotropic, with the boundary between adjacent layers representing weak regions with maximum residual stresses in applications where mechanical integrityis a major concern.
Kotlinski conducted an in-depth analysis of the mechanical properties of commercial AM materials and techniques and found anisotropy to be the worst for LOM and least critical with SLS. Mechanical properties and anisotropy for FDM were found to be highly dependent on material and process parameters. Anisotropy is also a problem with lithographic AM, where postcuring has been found to provide improvements. Improving the mechanical properties of AM formed objects is an active area of research, where the development and application of composite materials can provide unique solutions. Another major concern influenced both by the specific AM technique and by the processed material is spatial resolution. Insufficient resolution can have a dramatic influence on the quality and functionality of an object. While the formed object is expected to have high fidelity with the CAD virtual object, limitations of the technique and of the build material mean that some degree of dimensional inaccuracies is to be expected. Most prominently, stair step surfaces () are an inherent feature of layer by layer manufacturing, which may require postprocessing (coating, solvent treatment, sanding, or milling). Resolution requirements set by advanced applications of AM have triggered a lot of research in the fields of engineering and materials science. Using vat photopolymerization as an example, material parameters governing resolution include the absorption and curing characteristics of the respective material. Both are strongly dependent on the monomers used along with the presence of initiator and inhibitor. Where the initiator induces photo-cross-linking and thus solidification within irradiated regions, the inhibitor causes termination on the borderline to dark regions. Process parameters influencing the x– y resolution of vat-photopolymerization techniques include the minimum resolution of the light source employed and path planning operations for processes based on laser-scanning. Resolution in the z-direction as described by the minimum layer thickness is dependent on the accuracy of the step motor operating the build platform and on the efficiency of the recoating process (which is dependent on viscosity of the photoresin). It was only very recently that 3D carbon’s novel continuous liquid interface production (CLIP) overcame this drawback by eliminating the need for stepwise processing. AM is prevalently used for prototypes and models, where the option to print in multiple colors is interesting for aesthetic and for demonstration purposes. Commercial multicolor 3D printers have become increasingly common, with entry-level FDM printers starting below $1000. These printers use different color filaments from the same material (typically PLA orABS).
By comparison, processing two or more different materials within a single print job is more complicated due to differences in reactivity, in thermal and rheological behavior, and due to incompatibilities either from the materials themselves or from the different techniques used to process them. Almost all AM techniques have been modified in some form to allow multimaterial AM (MMAM), but only a few of these modified techniques have actually been commercialized. MMAM is possible by vat photopolymerization by using multiple vats and transferring the object between vats during building. Powder bed MMAM has also been demonstrated, where one powder material is exchanged for another during building. These MMAM techniques are limited though due to contamination issues, slow transfer from one material to another, and more fundamentally by the fact that material exchange is possible only between layers (1D multimaterial) and not within layers (3D multimaterial). Material jetting MMAM based on drop on demand (DOD) technology, by comparison, allows rapid exchange between build materials at each 1D point within a 3D print job. This technique is also limited due to the narrow process window of the ink jet actuator. Hope is offered by multi actuator jetting systems, which allow printing of materials with different viscosities and electrical properties. To build free-standing objects from two fundamentally different materials (i.e., metals and polymers), multiprocess 3D printing uses a robot to transfer the object between two or more different AM machines during fabrication. MMAM plays an important role in AM for bioprinting and applications in medicine andlife sciences.
One of the most promising applications for AM is in the field of personalized medicine, where tomographic images (from X-ray, MRI, etc.) can be used to print objects contoured specifically for the patient. AM is used in surgical planning, in building prosthetics, in dentistry, and in tissue engineering. Using AM to build tissue grafts and other surgical implants is an intense area of research, where special consideration for both the build material and the AM technique must be considered. For example, acrylates, which are used in all lithographic AM methods (SLA, Polyjet), are cytotoxic but can be replaced by less reactive methacrylates, thiol–ene systems, and other photoreactive monomers. PLA, which is one of the most commonly used materials for FDM, is also FDA approved for human implantation but has poor mechanical properties. Moreover, FDM is a melt extrusion process and does not allow incorporation of living cells or growth factors. Bioplotting is a versatile room-temperature AM method, which can process hydrogels with cells and growth factors. Control of temperature and of other process parameters, particularly for multimaterial bioplotting, is not straightforward, and research groups are investigating different approaches to alleviate these issues. Illustrates the principal components of an SLA device and how they fit together to allow layer by layer fabrication. In the late 1980s, SLA instruments became commercially available first in the U.S. By Hull’s 3D Systems and not long after in Japan by CMET. In SLA systems, coherent light sources (usually lasers emitting in the UV-range) are used to induce polymerization and cross-linking of the initially liquid resin. One of the main advantages of SLA is the high spatial resolution provided by the spot size of the focused laser beam. With SLA, light exposure is performed sequentially by scanning the laser beam within the plane on the surface of the photosensitive material. The time necessary to produce one slice of the structure therefore depends on the speed with which the laser beam is scanned and on the illuminated area. The lateral position of the laser beam is usually controlled by a pair of mirrors within a galvanoscanner. As with most other AM technologies, the process is executed in a layer by layer manner. The slice information is presented in the form of a set of coordinates, defining the tilt angle of the two mirrors, which guide the position of the laser beam along the plane. The fact that every pixel of the layer is irradiated sequentially would theoretically allow adjustment of exposure dose for every pixel separately, by controlling the laser intensity. This enables SLA to process grayscale patterns. Vertical resolution is dependent on the light penetration depth, which can be controlled by addition of suitable absorbers to the photopolymer resin. The curing depth also depends on the exposure dose (light intensity and illumination time), which might be the main reason why the grayscale capability of SLA is not utilized in practice. It is worth noting that the main time-consuming step in SLA is not the laser-scanning itself, but the deposition of the new layer of photosensitive material. Here, the viscosity of the material plays an important role. Very often nonreactive additives or solvent must be used to decrease the viscosity of the photopolymer resin. DLP closely resembles classical lithography, and is often referred to as dynamic mask photolithography. The information for each layer of the structure is provided in the form of black and white images. Such binary patterns are presented via a digital micromirror device (DMD), a technology also used in overhead projectors. Because the whole layer (slice) of the structure is produced in one exposure step, the build time is considerably shorter than SLA. By the same virtue, the build time is the same whether the whole available illumination field or only a part of it has been exposed. Therefore, DLP processing speed is most often expressed in cm h –1, that is, the height of the structure (number of layers) per unit time. Furthermore, DLP is less affected by oxygen inhibition as compared to SLA, because the layer of resin being polymerized is always on the bottom of the vat and not in direct contact with air. The utilized light sources have rapidly evolved from classical lamps to modern light-emitting diodes (LED) covering a wavelength range from deep UVto visible.
The lateral resolution of DLP systems is usually in the range of 10–50 μm depending on the number of pixels/mirrors provided by the DMD and the optics used to project the patterns onto the build platform. The vertical resolution, that is, the smallest possible layer thickness, mainly depends on the light penetration depth into the material and the resulting curing depth. Vertical resolution can be adjusted with light absorbing additives, such as naphthol-based dyes, which in addition help to reduce the unwanted effects associated with scattered light. In addition to nonfilled photopolymers, slurries containing, for example, ceramic or metal particles can be processed with DLP. In this case, the photosensitive polymer matrix acts as a binder material, while the fillers are usually photochemically passive. Further discussion of ceramics is provided in the materials section. Continuous liquid interface production (CLIP) is a variety of vat photopolymerization AM pioneered by DeSimone et al., which uses an oxygen permeable film to inhibit polymerization at the surface close to the UV source and as a result remove the need for an intermediate recoating step for each layer. CLIP is schematically described in and can also be witnessed in videos online, which better capture the dynamics of the process. CLIP has several advantages to other forms of SLA and has been commercialized by the company Carbon 3D, Inc., which sells instruments, materials,and services.
Because the resin recoating step is the most time-consuming operation of the DLP lithography process, CLIP is considerably faster than traditional DLP, allowing production of objects with features below 100 μm at z-axis growth rates of 30 cm h –1. Lower resolution objects can be grown at rates beyond 100 cm h –1. A CLIP device is similar to a DLP device without a tiltable stage and instead with a UV and oxygen permeable window at the bottom of the vat. Oxygen concentration at the bottom of the vat is thus sufficiently high to create a “dead zone” where radical polymerization does not occur. The thickness of this “dead zone” is defined by the following equation, where ϕ 0 is photon flux, α PI is the absorption coefficient of the photoinitiator, and D c0 is the resin curing dosage: (1) C is a proportionality constant for the oxygen permeable window (30 for a 100 μm thick Teflon AF film with air on the underside). A dead zone thickness of 20–30 μm was generally optimal for fast and precise CLIP. Just above the dead zone, cross-linking occurs in areas illuminated by the imaging unit. Feature resolution in the z direction is improved by increasing the concentration of a passive light absorber. Lowering the concentration of absorber allows deeper light penetration and thus faster production. Although CLIP is fairly new, Carbon 3D has been quick to develop commercial instruments and improved resins allowing the production of objects from hard to elastic polymers as well as ceramics. TPA was used to induce polymerization already in the 1960s, although with limited success. Thirty years later, with more powerful lasers and more sensitive photoresins, two-photon polymerization (2PP) began to be explored as a lithographic technique. Maruo and co-workers developed 2PP stereolithography further by using a pulsed Ti:sapphire laser with computer-driven galvano-mirrors to direct the beam within a vessel of photoresin and in the process build free-standing microscopic structures with feature sizes orders of magnitude beyond that of other lithographic techniques. 2PP is defacto an AM technique and may also be referred to as two-photon-absorbed photopolymerization, two-photon induced polymerization, two-photon lithography, two-photon laser scanning lithography, multiphoton-excited microfabrication, 3-D multiphoton lithography, 3D laser lithography, or simply direct laser writing. The term “multi-photon” acknowledges that the simultaneous absorption of three or more photons can also occur (although with very low probabilities) and contribute to photo-cross-linking. Different from traditional stereolithography, multiphoton polymerization (MPP) is not a layer by layer technique because the focal point of the laser can be moved in any direction within the resin. Because the photoresin is transparent to NIR, cross-linking will occur only within the focal volume of the laser. MPP is thus considered a true 3D writing method allowing complex and in-cut structures not possible with layer by layer SLA. To trigger the nonlinear two-photon absorption process, light sources with very high photon density are required. Most currently used MPP setups are based on pulsed femtosecond-lasers with pulse durations between 50 and 150 fs. Amplified laser systems allow benefits such as tunable wavelength, pulse duration and intensity, but are limited with regard to maximum repetition rate, which is typically on the order of several kHz. The low repetition rate limits the maximum writing speed of MPP, because at least one laser pulse is required per voxel to trigger polymerization. For this reason, nonamplified lasers are more common for MPP, based either on Ti:sapphire or on fiber lasers. Laser powers vary between 10 and 700 mW, with pulse durations typically around 100 fs and repetition rates of 10–100 MHz. A typical setup for MPP is depicted in. The laser beam passes first through a collimator and then through an acousto-optical modulator (AOM), which disperses the beam into zero- and first-order diffractions. The first-order output can be turned on and off by switching the AOM. The first-order output is fed through a λ/2 wave-plate, which can be rotated to adjust the laserpower.
The beam is finally directed through a microscope objective to focus it into the sample holder containing the photopolymerizable formulation. A camera can be positioned behind a semitransparent mirror to allow online-observation of the polymerization process. By illuminating the sample with the appropriate lighting (e.g., red light emitting diodes), imaging of the sample is further improved. Positioning of the laser focus for MPP can be achieved by two different methods: (1) The positioning of the laser beam in the xy-plane is controlled with piezo-actuated or linear air-bearingstages.
Alternatively, (2) the laser beam passes through a galvanoscanner, which is positioned before the microscope objective. Galvanoscanners have the advantage that the laser beam can be positioned precisely allowing a more dynamic movement of the beam. The drawbacks are mostly related to the limited build size: For high-resolution structures, immersion-oil objectives with high magnification (typically 100×)have to be used.
In combination with a galvanoscanner, this setup is limited to build sizes of approximately 30 × 30 μm. Piezo-actuated stages allow slightly larger scan areas (around 200 × 200 μm), while high-precision air-bearing stages cover significantly larger build areas (up to 100 × 100 mm). Scan speeds up to 1000 mm s –1 are possible when using highly reactive resins with suitable photoinitiators and appropriate optics. For parts that require very high resolution and precision, 100 μm s –1 up to 1 mm s –1 are commonly used writing speeds. The spatial resolution of microstructures built by MPP is unrivaled, with feature sizes well below 100 nm being common. Illustrates the relation of laser intensity and voxel size on feature resolution defined by the volume in which polymerization occurs. Two important power boundaries are defined: the polymerization/fabrication threshold ( P th) and the damage threshold ( P dam), which dictate the useful range of power for the laser. For clarification, the resin will polymerize as soon as the density of initiating radicals exceeds a certain minimum concentration but will be destroyed when the laser power is too high. P th is lower in resins with efficient photoinitiators, and P dam will depend on heat transport and stability of the resin. Feature resolution may be further reduced (to roughly 65 nm) with the addition of radical quenchers, which limit propagation and thus spatially confine polymerization. More recently, repolymerization techniques have been used to lower feature sizes to 22 nm. Yet another method for improving the resolution of MPP is based on stimulated emission depletion (STED). STED makes use of two light beams: the first is the excitation beam, and the second, which is preferably at a longer wavelength, is used to counteract the effects of exposure and depopulate excited chromophores via stimulated emission. Presents the photophysics of the STED process. First, TPA is used to excite a molecule from the ground state, S 0, to a vibrationally excited state of the first excited electronic state, S 1. Fast (∼ps) intramolecular vibrational redistribution (IVR) brings the molecule to the ground vibrational state of S 1, from which it can undergo intersystem crossing (ISC) to the reactive triplet state T 1 or undergo stimulated emission to a vibrationally excited state of S 0. Excited-state/excited-state absorption (EEA) is a competing process, which is particularly problematic when traditional one-photon initiators are applied to STED. Instead, chromophores with high fluorescence quantum yield such as rhodamine 6G are preferred. As another example, the laser dye 7-diethylamino-3-thenoylcoumarin (DETC) was used with a photoresist and appropriate two-photon excitation (fs pulsed 780 nm) and deactivation (continuous wave 532 nm) light sources to build structures with feature sizes of 55 nm at a 120 nm pitch. MPP has been used to structure various solid material samples, such as Zr-based hybrids and photosensitive modified gelatin. The resin and its principal components have important roles in dictating process parameters as well as resolution. This is further discussed in the MPP initiator section. Where MPP is often based on lasers emitting in the NIR, this radiation tends generally to scatter less and can permeate through living tissue without denaturing proteins. This advantage is further elaborated in. The first photocurable materials to be utilized for AM were not intended for use in AM. In Hull’s 1984 patent where he first describes SLA, he uses a resin from Loctite and cites an earlier patent for details on its composition. This resin, which had been originally intended for use as a UV curable adhesive, consisted of a urethane dimethacrylate with a small fraction of acrylic acid, benzophenone as photoinitiator, and methyl ethyl hydroquinone (MEHQ)/triallyl phosphate to inhibit premature polymerization. Hull used a 350 W mercury short arc lamp light source focused through a 1 mm fiber optic bundle giving an irradiance of 1 W cm –2 at the cure surface. In subsequent patents, the He–Cd laser became the principle light source for SLA, which is considerably more efficient but only for resins that absorb at 325 nm. As photobased AM methods matured, formulators sought to provide resins that required a smaller dose of energy to reach gelation, which relate to faster writing speeds and thus “rapid” prototyping. For SLA, the critical exposure E c to cause gelation as measured in mJ cm –2 can be defined as (2)where E 0 is the dose at the surface, C d is the curing depth, and D p is the penetration depth as defined by (3). While E c is an important value, the strength and modulus of a polymer at the gel point are normally too low to survive the build and development processes. It is worth noting that Flory’s equation predicts that gelation occurs at ever lower conversion as the functionality of the monomer is increased: 33% conversion in the case of a diacrylate, 20% for a triacrylate, and 14% for a tetraacrylate. To compensate, Jacobs defines the excess energy ( E x) required to cross-link the polymer to an extent to provide sufficient green strength. “Green” refers here to the initially formed photopolymerized object as opposed to the final object, which very commonly is subjected to additional thermal curing after AM. Another important criteria for any photopolymer used in AM is the recoating depth or layer thickness before cure. The limits to recoating are dependent both on the build method and on the resin. Viscosity and wetting behavior of the resin onto the solidified part are both of critical importance here. The higher molecular weight multifunctional acrylates that are commonly used for AM thus must often be thinned with a smaller but still multifunctional acrylate. More on viscosity is discussed in the application section. Radical generation, initiation, and propagation are all relatively rapid processes and are thus commonly used for rapid prototyping. The first step in cross-linking of a photoresin is absorbance of light, and it is the photoinitiator or photoinitiator system that converts photolytic energy into reactive species to induce polymerization. Generally speaking, radical photoinitiators may be classified as either Norrish Type I or Type II. Type I initiators are single molecules that cleave into radical fragments when exposed to light of an appropriate wavelength. Benzil ketals are common Type I initiators with fairly low energy n → π* transitions (equivalent to roughly 350–360 nm). The mechanism for photocleavage of Darocur 1173 (a common Type I initiator) is given in. The initially formed excited singlet state may cleave directly or undergo intersystem crossing to give an excited triplet. Because the triplet is similar in energy to the singlet and longer lived, radical generation via the triplet predominates. Other commonly used benzil ketal initiators, which undergo similar photocleavage reactions, include Irgacure 184, Irgacure 651, and Irgacure 369 (). Acyl phosphine oxides (such as TPO and BAPO in ) are another class of Type I radical initiators and may be preferred with AM devices based on higher wavelength lamps (such as DLP). The phosphorus atom adjacent to the carbonyl group lowers the energy level of the π* state, thus shifting the maximum of the n → π* transition toward 400 nm. Most essentially, these and the new generation of long wavelength germanium initiators (Ivocerin in ) have excellent photobleaching behavior (as the heteroatom is separated from the carbonyl group), thus allow curing of highly filled systems. Type II photoinitiation systems are two-component systems consisting of a light absorbing molecule (or sensitizer) along with a co-initiator (or synergist) (). Upon irradiation, the synergist donates a hydrogen atom to the excited sensitizer and in the process provides the initiating radical. Tertiary amines with at least one alkyl substituent are the most commonly used Type II co-initiators. They react via electron transfer from the amine to the excited ketone. The subsequent step of proton transfer from the amine radical cation to the initiator radical anion is the speed limiting factor, and back electron transfer has to be considered as a competitive reaction. Although Type II sensitizers (such as benzophenone and isopropylthioxanthone) are commonly cited in SLA patents, amine synergists are not recommended. One reason is that many modern day SLA resins are based on mixtures of radical and cationic-based systems, and amines can inhibit the latter. In fact, benzyl- N, N-dimethylamine (a very effective hydrogen donor) is listed as a cationic stabilizer in a few patents, and used at a concentration of less than 0.01 wt% (too low to be of use as a synergist). While Type II systems are more effective with reactive synergists, Type II sensitizers may still contribute to radical polymerization via direct hydrogen donation frommonomer or solvent.
Hydrogen abstraction from alkyl carbons adjacent to oxygen can occur with many monomers including those containing propylene glycol or ethylene glycol units. An advantage of using oligoether or oligoester acrylate monomers with abstractable hydrogens is that they tend to cure better in air than analogous alkyl monomers, and yet they do not inhibit cationic polymerization such as amines. Performance of the utilized radical photoinitiator will depend on the utilized light source. Classical benzoyl-based photoinitiators such as I651 but also D1173 and I184 require UVA or UVB light sources to initiate polymerization. This makes these initiators appropriate for stereolithography based on He–Cd lasers (325 nm) or frequency tripled Nd:YAG sources (355 nm) or UVA/B-based DLP. With higher wavelength light sources, acyl phosphine oxide photoinitiators are superior. For AM instruments based on blue light curing, bisacylgermanium photoinitiators (Ivocerin in ) can be considered. The use of multiple radical photoinitiators is also fairly common in resins intended for AM, and the success of this strategy will depend largely on the breadth of wavelength of the light source. Because the exact composition of most commercial resins used in photo based AM is proprietary, examples from patents are used to provide insight on utilized monomers and potential concentrations thereof. As a good early example of monomers intended for SLA, Murphy et al. Filed a patent in 1988 describing a resin consisting of a combination of a high viscosity oligomeric diacrylate or dimethacrylate dissolved in a liquid acrylate or methacrylate and an N-vinyl monomer (preferably N-vinylpyrrolidone (NVP) as reactive diluent). They state that a system consisting of both an acrylate and a methacrylate is preferable because methacrylates cure too slowly on their own and because the pure acrylate system leads to distortions in the printed object. In their examples, they describe a resinous diacrylate (either urethane- or epoxy-based) dissolved in trimethylol propane trimethacrylate (TTMA) or hexane diol dimethacrylate. NVP is rapid curing and provides “green strength”, which refers to the combined mechanical properties required to maintain fidelity during the development process. The ideal ratio of resinous acrylate:liquid methacrylate:NVP was found between 7:6:6 and 14:3:3. Darocur 1173 (D1173) and Irgacure 184 (I184) () were listed as photoinitiators. Resins based on urethane acrylates and DGEBA (bisphenol A diglycidyl ether) are commonly cited in SLA patents due to the mechanical strength that these functional groups help provide. Urethane acrylates are synthesized from the reaction of hydroxy acrylates (such as HEA or HEMA) with isocyanates, where the latter is oftentimes an oligomeric polyurethane formed in a prior step from a polyol reacted with excess small molecule diisocyanate. An array of urethane acrylate monomers is available commercially, defined as either aliphatic or aromatic and with degree of functionality from one to six. Structural monomers, on their own, are often too viscous to be processed directly by AM and require thinning with a lower viscosityreactive diluent.
To facilitate rapid cross-linking of the resin, multifunctional reactive diluents such as dipropylene glycol diacrylate (DPGDA) or pentaerythritol tetraacrylate (PETA) are often used (). Tris isocyanurate (TAEI) is a reactive liquid acrylate monomer with a heterocycle core that should also help improve product mechanical properties. Diacrylates with cycloaliphatic cores (such as DCPDA) are claimed in a few SLA patents as they tend to undergo less shrinkage than other acrylate monomers and help contribute to a higher final modulus. Although they have their advantages, acrylates, as with all other vinyl monomers, undergo shrinkage during polymerization. The amount of shrinkage is dependent on molecular structure, with cycloaliphatic and aromatic acrylates shrinking less than common diluents (i.e., bisphenol-based dimethacrylate bis-GMA shrinks 5%, while diluent triethylene glycol dimethacrylate shrinks 12%). Preorganization of monomers (e.g., by hydrogen bridges) can help to reduce shrinkage stress. Another strategy is to change the polymerization mechanism from a chain growth polymerization toward a radical step growth mechanism (elaborated further in subsequent sections). Polymerization shrinkage and associated stress cause particular problems in layer by layer fabrication where inhomogeneous stress results in curling and other deformation problems. Describe 3D printing techniques including the use of dashed and curved lines for vertical structures, which develop less strain versus straight continuous structures. One of the more common chemical methods of reducing shrinkage (and thus curl) is to use higher molecular weight oligomeric acrylates. The problem of increased viscosity can be compensated by heating the resin during processing, although this solution is not universally applicable. Shrinkage is not the only problem from which acrylates suffer. Notably propagating carbon radicals are inhibited by molecular oxygen dissolved in the resin. The problem is further exacerbated in open vat SLA setups where the curing surface is in constant contact with ambient air. Traditional additives for mitigating oxygen inhibition such as tertiary amines retard cationic polymerization and are not appropriate for mixed epoxy/acrylate resins. Fast curing alternatives to acrylates are to be considered. One of the first alternate monomer systems to be investigated for SLA was based on “thiol–ene” chemistry. In this case, the -ene component was actually a dinorbornene, which was formed by Diels–Alder cycloaddition of a diacrylate (various diol acrylates including hexanediol diacrylate) with cyclopentadiene. In equimolar ratio with a polythiol (pentaerythritol tetramercaptopropionate is cited in the example), the formulation cures with a much lower radiation dosage in comparison to DGEBA DA (2 vs 13 mJ cm –2). The authors blame the poor response of DGEBA DA on oxygen inhibition. Thiols can alleviate oxygen inhibition by donating a hydrogen atom to a formed peroxyl radical and in the process providing a reactive thiyl radical (). Other additives that have been tested to reduce oxygen inhibition in SLA include triphenylphosphine, where the authors specify resins with E c values below 1 mJ cm –2. Although thiols and phosphines can both improve in-air photo curing, they tend not to remain stable for extended times in formulations with acrylates. In the case of thiols at least, storage stability can be significantly improved by proper use of a buffer with a radical inhibitor. While improved in-air curing is generally desirable for stereolithography, it does exclude the use of thiol–ene resins for CLIP (), where oxygen inhibition is needed to prevent adhesion to thebottom of the vat.
Thiol–ene-based formulations undergo less polymerization shrinkage and exhibit reduced shrinkage stress relative to acrylate-based formulations. Acrylate/methacrylate-based resins containing thiols were found to shrink significantly less during photopolymerization than those without and as a result provide sharper structures. Explanation for the lower shrinkage stress is given by the delay of the gel point toward higher conversion. Pure (meth)acrylate resins gel already at conversions as low as 20%. Up to the final conversion of about 70%, the material is no longer able to flow, and shrinkage stress is increased with each newly formed bond. Because of the step growth mechanism of thiol–ene systems, the kinetic chain length is significantly shorter (thiol–(meth)acrylate systems) or even not existent (thiol–nonhomopolymerizable ene), thus shifting the gel point well beyond 30% double bond conversion. Thiol–ene polymers also tend to be less brittle than acrylate networks, although the materials are in some cases too soft for many applications. Lower brittleness can be explained by the more homogeneous polymerarchitecture ().
(Meth)acrylates undergo a radical chain growth polymerization with a rather long kinetic chain length in the initial phase. Having potential cross-linking points on every second carbon atom of the primary chain, the network is not efficient in dissipating stress and cracks will propagate more readily. Thiol–ene networks, which form by step growth kinetics, are comparatively more regular in structure. Unfortunately, flexible thiol-bridges in thiol–ene networks lead to significant softening and lower the useful temperature range of the material. Address the problem of low modulus by synthesizing oligourethanes end-capped with norbornene and polymerizing these with trimethyloylpropane tris(mercaptopropionate). Hydrogen bonding between urethane chains increases the rigidity of an otherwise loose thiol–ene network. Another approach to improving thiol–ene mechanical properties has been to use ternary monomer systems such as thiols with allyl ethers and methacrylates. Resultant polymers exhibit higher modulus and reduced shrinkage stress. Commercial thiol–ene resins from Norland Optical Adhesives have been used by a few research groups for SLA and for 2PP. The resins cure well with lamps with outputs from 320 to 380 nm. Added a two-photon chromophore (6-benzothiazol-2-yl(2-naphthyl) diphenylamine) to NOA 72 (a resin based on mercapto esters and tetrahydrofuran methacrylate) and used this to pattern microscopic optical components. NOA thiol–ene-based resins are optically transparent and provide polymers with refractive indices higher than those of acrylate-based resins (1.62–1.64 vs 1.32–1.48). Triallyl isocyanate () is mentioned as a component in multiple resins including NOA 61, which was used by Sun et al. To fabricate optical lenses. Also of interest for AM applications, shrinkage of these thiol–ene resins is very low (1.5% with NOA 61). Cationic photopolymerization was first developed in the 1970s chiefly in response to some of the shortcomings of radical polymerization. The first successful cationic photoinitiators () were aryl iodonium salts (Ar 2I +X –) with non-nucleophilic counterions (BF 4 –, PF 6 –, AsF 6 –, and SbF 6 –). These compounds are thermally stable and upon exposure to UV radiation will decompose to form a mixture of cations, radical cations, and radical intermediates. Further reaction of the reactive intermediates with solvent or monomer leads to the formation of super acid HMX n, which acts as the principal initiator for cationic polymerization. Where toxicity of early photoacids was a concern, substitution of the diaryl iodonium with an alkyloxy group was found to significantly improve rat LD 50 (>5 g kg –1) and in the process increase solubility and red shift absorbance. Aryl iodoniums with alkyl substituents on both rings were found to significantly improve solubility in otherwise immiscible silicone epoxides. Not long after the discovery of diaryl iodonium photoinitiators, triaryl sulfonium salts were synthesized and found to exhibit similar photoreactivity. Sulfonium photoinitiators tend to have even better thermal stability than aryl iodoniums and generally absorb better beyond 300 nm. Further conjugated aryl sulfonium mixtures with absorbance up to 350 nm were developed in the early 1980s. Beyond these wavelengths, aryl iodonium photoacids may be a better option because they are more readily sensitized. This may be done with a variety of dyes such as anthracene, thioxanthones, and coumarins and extends the use of these cationic initiators up to 400 nm. Type I radical initiators can also be used in combination with cationic initiators, where radical intermediates from the former can react with iodonium or sulfonium reagents to give radical cations. Cationic polymerization can also be induced with visible light by use of a metallocene initiator such as Irgacure 261 (I261). Epoxides are one of the most commonly used classes of monomers for photobased AM. One reason is that epoxides undergo significantly less shrinkage (2–3% volumetric) than acrylates during photo-cross-linking. This can be explained by the ring opening reaction of the epoxide group. Another reason is the generally good mechanical properties of the resultant polymers. The most commonly used epoxide monomers for SLA include diglycidyl ether derivatives of bisphenol A (DGEBA), 3,4-epoxycyclohexylmethyl-3,4-epoxycyclohexanecarboxylate (ECC), and epoxides of aliphatic alcohols such as trimethyloyl propane (). The reactivity of an epoxide monomer is dependent on molecular structure, where cycloaliphatic epoxides with high double ring strain like VCDE cross-link most rapidly. Epoxy monomers with nucleophilic groups including ester moieties, which may be protonated, have reduced reactivity. Thus, photo-cross-linking of ECC is about 10 times slower than that of other cyclohexene derived epoxides without nucleophilic groups. Complexation of the ester group of ECC both intra- and intermolecularly with oxiranium intermediates can retard the desired reaction. Ether groups such as those found in epichlorohydrin derived epoxides (e.g., DGEBA) can also form bi- or multidentate proton coordination, which explains the lower reactivity of these monomers. N-Glycidyl ethers (derived from the reaction of amines with epichlorohydrin) are mentioned in many SLA patents although never cited in examples. Performed photo-DSC with formulations containing cationic initiator and N-glycidyl ethers and witnessed no exotherm, which they attributed to the basicity of the amine inhibiting cationic polymerization. Epoxidized plant oils and in particular soy bean oil (ESBO) serve as reactive internal plasticizers and work particularly well in combination to soften DGEBA networks. Cyclopentene oxides (such as CPDE) are mentioned in patents and according to the literature ring open under cationic conditions at rates intermediate to cyclohexene oxide and simple linear alkene oxides. Cationically cured epoxides are polymers that are fundamentally different from the more common amine cured epoxy resins. While cationic curing proceeds in a chain growth manner, the amine curing is based on a step growthpolymerization.
This leads to a significantly different polymer architecture (). The cationic cured network has a quite high number of cross-linking points along the polymer backbone (in theory every third atom), leading to increased brittleness. To counteract this high cross-link density, alcohols are often used as chain transfer agents. Polyester and polyether diols are cited in patents and used at concentrations from 5 to 20 wt%, where modulus becomes undesirably low at higher concentrations. Steinmann et al. Use ethoxylated derivatives of bisphenol A in some of their examples. Simple diols such ethylene glycol or butane diol used at concentration of 3–5 wt% can also increase the cure speed of DGEBA by 30–50%. Trimethyloylpropane triol has low viscosity and yet provides high cross-link density per added weight percent. Although lithography as it is used for the production of integrated circuits is not the same as stereolithography, commonly used negative photoresists have been applied by a number of researchers for SLA. For reference, photoresists are classified as positive if they become more soluble in solvent on exposure to light and negative if they become less soluble. The most commonly used negative photoresist for lithography is SU-8, a bisphenol A Novolak monomer with on average eight epoxide moieties in solution with a cationic photoinitiator. SU-8 is sold as a 40–75 wt% solution, with solution viscosity and spin speed being used to control layer thickness between 2 and 200 μm. Soft prebaking of SU-8 at 95 °C is used prior to photoexposure to remove solvent and thus decrease lateral movement during polymerization. SU-8 has also been used by a number of groups for 2PP, where longer prebaking corresponds to greater feature widths. UV filtered at 350 nm has been found advantageous due to improved penetration, which translates to high aspect ratios (feature height/width) and better vertical profiles. Following irradiation, the unexposed resin is washed away with a suitable solvent such as acetone or propylene glycol methyl ether acetate. As with some other AM methods, post development baking of SU-8 at 200 °C is recommended. As an aromatic epoxide polymer, cured SU-8 has good thermal and chemical stability, which may or may not be advantageous depending on the application. In particular, copper, which has become an increasingly popular alternative to aluminum for IC connections, can be damaged by strong acids or high temperatures used to remove SU-8, in which case, an acrylate-based negative photoresist such as Ordyl (Elga Europe, Italy) or DiaPlate (HTP, Switzerland) may be preferred because it can be stripped fairly mildly with 3% NaOH at 50 °C. Epoxide monomers photopolymerize much slower than acrylate monomers, and for this reason, epoxides are rarely used on their own in photoresins intended for AM. In fact, the first application of epoxides for SLA was in combination with much more reactive but also cationic polymerizable vinyl ether monomers. The syntheses of vinyl ethers and epoxides are complementary because they both use the same feed stock diols (i.e., bisphenol A), triols, and polyols. This gives rise to products such as 1,4-cyclohexane dimethanol divinyl ether (CDVE), bisphenol A divinyl ether, polyurethane divinyl ethers, and trimethyloyl propane trivinyl ether (TTVE) (). The advantage of using vinyl ethers in combination with epoxides is that the first will rapidly polymerize and harden sufficiently during the AM build process while the latter will minimize shrinkage during the post cure process. Disubstituted oxetane (DSO) monomers are more reactive than epoxides and offer similar low shrinkage advantages. Oxetanes provide an additional advantage by imparting improved water resistance to cross-linked materials. For resins with a restrictively high cross-link density, a long or short chain diol can be used as a chain transfer agent. While (meth)acrylate-based resins tend only to be postcured with light, the cationic system can be post cured either with light or with heat. The advantages of using resins consisting of multiple types of monomers with different rates of reaction had been recognized already in the early days of SLA. Resins based solely on a highly reactive monomer (acrylate or vinyl ether) exhibited catastrophic curl distortions due to rapid and inhomogeneous shrinkage. Mixtures with less reactive monomers (acrylate/methacrylate or vinyl ether/epoxide) had significantly lower curl factors and could be further cured after building. Relative to these purely radical and purely cationic mixtures, hybrid formulations containing both radical and cationic monomers and initiators began to be studied in the early 1990s and have become standard ever since. Acrylates and epoxides undergo different modes of polymerization and do not appreciably react with one another. The resultant polymer is thus not a copolymer (as is the case with acrylate/methacrylate and vinyl ether/epoxy mixtures) but rather an interpenetrating network (IPN). With systems consisting of DGEBA DA and ECC, the acrylate portion reacts significantly faster while the epoxy portion undergoes significant “dark cure”, continuing to polymerize after the light is turned off. An advantage of these systems is a significant reduction in sensitivity toward oxygen inhibition. Incompatibility of the two monomers can however be a problem, which Steinman et al. Address with urethane-based macromers containing both acrylate and epoxide moieties. Commercially available hybrid monomers include glycidyl methacrylate and 3,4-epoxy-cyclohexyl-methyl methacrylate (GMA and ECMA in ). The benefits of covalently binding the acrylate and epoxide moieties is not clear however because these compounds are less common in patent examples. A more typical hybrid resin formulation for SLA is provided in a patent from Ito et al.: 53.7 wt% ECC, 14.9 wt% DGEBA DA, 9 wt% tetra acrylate, 9 wt% 3-methyl-3-hydoxymethyloxetane, 9 wt% polyol chain extender, 2.7 wt% aryl sulfonium cationic initiator, and 1.8 wt% Irgacure 184 radical initiator. Such a formulation is reasonably representative, although variations in composition will be made to adjust cross-link density and thus influence mechanical properties or to lower water uptake for certain applications. A resin commonly used in early 2PP work was SCR500 from Japan Synthetic Rubber, which consists of a proprietary blend of urethane acrylates and a free radical initiator (either Irgacure 369 or Irgacure 184). Microstructure resolution and processing parameters of such resins are not optimal, however, due to low two-photon absorption (TPA) of traditional photoinitiators. The TPA cross section (σ TPA) is a value analogous to the molar extinction coefficient (ε), which quantifies a molecule’s propensity for one-photon absorption. As with ε, the σ TPA can predict the probability for formation of an excited state, but does not give any information about subsequent photochemistry. As an example, Schafer et al. Examined Irgacure OXE01 (a) with z-scan analysis and measured a σ TPA of less than 40 GM (1 GM = 1 × 10 –50 cm 4 s molecules –1 photon –1). More importantly, TPA at 800 nm, which is close to the output of most commonly used Ti:sapphire lasers, was particularly low. Nevertheless, the quantum yield for radical formation and initiation of such initiators is high, and several research groups prefer them. Fluorescent dyes such as coumarin and rhodamine B (b) have slightly higher σ TPA values than traditional photoinitiators and have thus also been investigated for two-photon applications. Real progress came with the recognition that molecules with extended planar π-conjugated cores connecting electron-donating (D) and -accepting (A) moieties have lower energy excited states with large dipolar transitions, which increases the likelihood for multiphoton events. TPA of dipolar, quadrupolar, and octapolar chromophores are found to be orders of magnitude better than traditional photoinitiators (). While larger multipolar TPA chromophores (even polymeric and dendritic TPA active compounds) are also investigated, quadrupolar and octapolar molecules have been favored. The increased chromophore density of such molecules relative to dipolar chromophores has a positive influence on σ TPA, and synthetic preparation is generally less complicated than that of higher branched derivatives. Extended π-conjugation tends to increase σ TPA and to red shift λ max. While higher σ TPA is always desirable for 2PP, optimal λ max will depend on the laser source (approximately 800 nm in the case of Ti:sapphire). High TPA is important but is not the only criterion for good performance in 2PP. Solubility, stability, and initiation efficiency are also essential. Solubility in organic solvents has been improved by placing long and branched alkyl chains on amine donors and onto fluorenone cores. As 2PP is also applied for fabrication of hydrogels, water-soluble initiators with pendant carboxylate moieties have also been synthesized (f). Extended alkene systems are notoriously sensitive toward oxidation and can undergo cis–trans isomerization. This reaction decreases initiation efficiency but can be avoided by use of alkyne as opposed to alkene bridges (i.e., initiators d and e in ). It should be pointed out that a number of chromophores with high σ TPA values have been tested and found to initiate polymerization poorly because they prefer to relax via fluorescence instead initiating thepolymerization.
Symmetric quadrupolar chromophores with two donor moieties and a core with an electron accepting moiety (D−π–A−π–d) have been found to have not just high TPA values but generally good initiating efficiency. In the so-formed intraexciplex, electron density is highest at the π-bridge, and here the molecule is most likely to donate an electron to the surroundings. The growth rate of the polymer is associated with the pumping rate of the CT state of the initiator. It was found that the sensitivity of two-photon initiation is not related directly to σ TPA, but also to electron transfer from the lowest singlet state of the chromophore to the monomer. Because of the charged states of intermediates, solvent polarity also has an influence on reactivity. Deactivation to the ground-state chromophore through back electron transfer has been observed with quadrupolar chromophores. Moreover, α-abstraction from alkyl substituents of the amine donor can give rise to a radical with good initiating capacity, which can significantly improve the efficiency of the system. Ethyl moieties have been found to be more reactive than butyl groups, while substitution with an aromatic group suppresses the reaction, which explains why quadrupolar chromophores with diphenylamine donor groups show high TPA but poor reactivity as initiators. Different methods are used to assess the performance of TPA photoinitiators. A popular method utilized in our laboratories has been to build a representative submicron mesh structure while adjusting the laser power and writing speed and then to quantitatively assign a quality value. A shows four representative SEM images where conditions that provide structures like those rated 1 and 2 would be deemed acceptable and those rated 3 or 4 would be rejected. Initiators less sensitive to adjustments in laser power and writing speed allow good structures (1 or 2) more easily and are said to have wide processing windows. More recently, IR microscopy has been used to quantitatively assess ideal processing conditions by measuring the double bond conversion (DBC) of the acrylate-based resin. B provides a false color 3D plot of DBC versus process conditions, which dramatically indicates that laser power is more important than scanning speed (at least under the tested conditions). As an alternate quantitative method of assessing cure performance, microcantilevers produced by 2PP have been used to measure Young’s modulus of microstructures via nanoindentation. Optimization of laser cross-linking conditions allows structures with feature sizes an order of magnitude below 1 μm. Gives three examples of microscopic replicas of real world objects created via 2PP at the TU Wien. While radical-based 2PP with acrylate resins has been more common, cationic 2PP with epoxy or vinyl ether resins is also possible. Notably, Zhou et al. Synthesized a photo acid generator (PAG) with a bisbenzene core and covalently attached aryl sulfonium moieties (BSB-S 2 in ). The PAG has a large σ TPA (690 GM) and a high quantum yield for photochemical generation of acid (ϕ H+ ≈ 0.5). The polymerization threshold power of BSB-S 2 (measured in a commercial epoxy resin) was considerably lower than that of a traditional trisarylsulfonium PAG: 2.4 mW at 710 nm and 5.6 mW at 760 nm versus >315 mW at 710 nm and >655 mW at 760 nm. 2PP with BSB-S 2 in SU-8 resin was performed to construct complex 3D structures with submicrometer feature sizes. Photoresins for AM processes contain additives other than monomers and initiators. Among these, low concentrations of radical inhibitors are required to prevent premature gelation of acrylates. Butylated hydroxy toluene and methoxy hydroquinone are two of the most common radical inhibitors (BHT and MEHQ in ), and are normally used at concentrationsfrom 50 to 200 ppm.
Both of these inhibitors are considered aerobic and require a certain concentration of dissolved oxygen in the resin to be effective. While iodonium- and sulfonium-based cationic initiators both have good thermal stability, unintended increase in viscosity of vinyl ether and epoxy based resins can be a problem particularly if a resin is used to build multiple objects. Benzyl N, N′ dimethyl amine (BDMA) is a mild base and effectively neutralizes radical cations. BDMA and related amines should be used at concentrations of 5–250 ppm in resins with 1 wt% photoacid generator. Esters of 9-anthranoic acid have been used to both stabilize and to sensitize PAGs (by red shifting absorbance) and have better solubility in silicone vinyl ether monomers than other anthracene derivatives. Thus, penetration depth of the light source is now dependent on the extinction coefficient (ε I) and concentration of the initiator and on the extinction coefficient (ε A) and concentration of the absorber . Lowering D p allows thinner layers and thus better z-resolution and allows incut structures otherwise not possible. Addition of 0.2 pph of 2-ethyl-9,10-dimethoxy anthracene (EDMA) to epoxy/vinyl ether-based resins containing 1 wt% triaryl sulfonium PAG lowered D p from 0.5 to 0.14 mm when cured with a 351 nm Ar laser. More importantly, the same resin with 0.2 pph EDMA could be efficiently cured with a 364 nm Ar laser (showing E c of 20 m cm –2 and D p of 0.12 mm). Other cited light absorbers include stilbene derivatives such as 1,4-bis(2-dimethylstyryl)benzene (BMSB). AM can be used both directly and indirectly to fabricate freestanding objects. In the latter case, SLA or another technique is used to print a polymeric negative or mold of the desired finished part. While molding necessitates an extra processing step, it extends the application of photo-AM for the fabrication of additional materials (i.e., highly opaque ceramics such as silicon carbide). In sacrificial molding, the polymeric mold is not reused but instead destroyed during fabrication of the finished part. Polymeric sacrificial molds for ceramic parts have been traditionally removed by pyrolysis. Problems arise due to the high cross-linking degree of most commercial photopolymers, which leads to cracks and distortions on heating. An alternative strategy is to use water-soluble or organo-soluble photopolymers to build the sacrificial mold. Steps consisting of AM fabrication of the soluble mold with photopolymer (1–3), casting with the desired final material (4), and the removal of the soluble mold material to give the final part (5) are shown in. Generally, sacrificial mold formulations are based on monoacrylates that form linear polymers to be dissolved after the molding process. Solubility is afforded by a cleavable monomer such as methacrylic anhydride, which prevents swelling and dissolution of the polymerized mold during the building step by the surrounding uncured monomer. In aqueous alkaline solutions (water-soluble systems) or in amine-containing organic solvents (organo-soluble system), the anhydride is cleaved. Monofunctional comonomers are used to regulate the dissolution process. For water-soluble molds, dimethylacrylamide or methacrylic acid was found to be a suitable comonomer, and for organo-soluble systems diisobutylacrylamide was used. Parts can be made by this process with a feature resolution of about 200 μm, and the mold can be easily dissolved in about 2 h in alkaline water or amine containing solvents. Organo-soluble molds built with SLA have been used to fabricate nanostructured silica gels from sol–gel precursors. In addition to the sacrificial mold or investment casting techniques just described, lithographic AM can be used directly to fabricate ceramic objects. Direct photo processing of ceramics is realized with a slurry of approximately 40–55 wt% ceramic dispersed normally in photopolymerizable formulation containing mono- and multifunctional monomers as well as suitable solvents and dispersing agents. The “green part” formed by AM must undergo a multistep thermal cure to provide the finished object. In the first step, water or other low molecular weight components are volatized. In the second step, performed at a temperature typically between 400 and 500 °C, the organic portion of the slurry is burned out. In the final step, the part is sintered at a temperature normally above 1000 °C depending on the ceramic used. Thermal ramping must be performed slowly to reduce the risk of cracking. The final temperature and heating rate used for sintering can be used to control the porosity of the final part. For demanding engineering applications, porosities less than 2% are usually required. Ceramic functional parts are a growing field for AM, where the technique can produce complex parts with sub millimeter feature sizes. Provides a collection of AM produced parts from ceramics including Al 2O 3, ZrO 2, and Ca 3(PO 4) 2, where the last is intended for bone tissue engineering applications. Lithographic AM is also being used increasingly to shape composite materials, although a few problems should be addressed: (1) reinforcing particles tend to increase the viscosity of the photopolymer resin, which can complicate the coating process; (2) dense particles often settle to some extent resulting in inhomogeneities; (3) air entrapment and bubble formation; and (4) light scattering, which limits depth of cure. For the last reason, composites with glass and other UV transparent materials are more amenable to lithographic AM. Successful application of nano- and microscale reinforcing fillers often requires surface-treatment and dispersion processes in conjunction with adjusted process parameters. As an alternative solution, Gupta et al. Dispersed carbon fibers in a DGEBA DA resin with both a photoinitiator and a peroxide thermal initiator. They first patterned the composite by SLA and followed this with a prolonged thermal postcure. Long thermal post curing has been found to be critical for other composites including glass fiber nonwoven mats in epoxy resins. Composites of this sort are constructed by pausing fabrication and manually placing a fiber mat atop each freshly polymerized layer. The mat is then covered with a layer of resin and entrapped via photo-cross-linking. Resultant composites with 17 g m –2 of E-glass mesh in an acrylate resin exhibit Young’s modulus and tensile strength 50% greater than that of the unmodified polymer. With typically lower viscosities and structures below the diffraction limit of light, nanocomposites are particularly relevant to lithographic AM. Organic-modified ceramics (ORMOCERs) are one class of nanocomposites, known both for being easy to process and for the excellent optical and mechanical properties of the resultant cured materials. ORMOCER photosensitive resins consist of sol–gel derived oligomers, typically alkoxysilane monomers, along with purely organic monomers and other additives including aphotoinitiator.
Shows two siloxane (meth)acrylate monomers along with an oligomer that can be used to create ORMOCER networks. Lithographic processing will induce polymerization via acrylate moieties, while siloxanes can further cross-link the network during thermal post curing. While organosiloxanes are most common, ORMOCERs can be based on other elements such as Al, Zr, and Ti. ORMOCERs tend to have better hardness, chemical resistance, and transparency than acrylate polymers. Generally monomers with trialkoxysilanes and trifunctional metal alkoxides can be cross-linked to give materials with Young’s moduli greater than 10 GPa. Optical properties including low attenuation (0.2–0.3 dB cm –1 at 1320 nm) and tunable refractive index are allowed by mixing of commercial ORMOCER resins (Ormocomp and Ormocore from Microresist Technology). Prior to MPP microfabrication, the resins should be prebaked for a few minutes at 80 °C to increase the viscosity. It is also useful to carefully clean the (glass) substrate to exploit the good adhesion properties of the resin. MPP with ORMOCERs allows simplified fabrication of optical and electronic components: pre- and postexposure baking as well as dilution with solvent are not necessary as are customary with traditional lithography. Postbaking does provide advantages, however, as adhesion and feature size resolution can both be improved. Zr-based sol–gel resins may also be structured by MPP and have advantages such as tunable refractive index, improved mechanical stability, and, most importantly, very low volumeshrinking.
These benefits are likely due to the dual modes of chain and step-growth polymerization. Similar to SLA, the solidification process is performed with a laser source (a 10.6 μm carbon dioxide type in the case of powder bed fusion processes) and laser optics to scan the model contours and layers according to CAD data. The laser radiation is absorbed and affects the local heating of the powder particles, causing softening, melting, and solidification of adjacent particles. Powder deposition between the sintering of adjacent layers is conducted using a blade (laser sintering) or roller (SLS) for distributing powder particles supplied either by one or two hoppers moving across the building envelope, or from one or two additional platforms providing the powder feed. Throughout the described procedure, the process chamber is kept at an elevated temperature, a few degrees below the processed material’s softening point. The aim of this measure is to decrease processing time and reduce the amount of thermally induced internal stresses and curl distortions developed during layered solidification. However, the constant thermal load requires users to maintain an inert gas atmosphere within the chamber to hinder oxidative degradation of the material during theprocess.
Loose powder particles remain on the build platform during the process to serve as support material. Because of this embedment, parts with delicate and complex structures can be manufactured without having to implement support structures and materials. Moreover, the stabilizing effect exhibited by the powder bed facilitates convenient manufacturing of stacks of models within a building procedure, thereby reducing interruptions caused by part removal. At the end of the manufacturing process, loose powder can be removed easily to be reused in successive runs. Selective laser sintering (SLS) was originally developed at the University of Texas by Carl Deckard in 1986. Soon afterward, Deckard and other members of the university founded the companies Nova Automation and DTM Corp. To commercialize their technology. DTM was acquired in 2001, and since then SLS technology has been marketed by 3D Systems Inc. In parallel to DTM’s activities in the U.S., German EOS GmbH, formerly a producer of stereolithography and 3D scanning systems, widened their product line to include laser sintering AM systems. EOS employs an AM process closely related to selective laser sintering that is named simply “laser sintering”. Parts fabricated using SLS possess some properties distinguishing them from those manufactured with other AM techniques. Most importantly, laser sintering allows users to process a wide range of thermoplastic materials including engineering and high performance plastics with specific mechanical properties. Because of this advantage, laser sintered parts are durable enough to be used in applications where they are subjected to mechanical loads. As an example, SLS has been used to produce innovative small batch complex parts such as the bionic handling assistant displayed in. The flexible assistance system, which resembles an elephant’s trunk, consists of three basic elements for spatial movement, a hand axis, and a gripper with adaptive fingers. Its functionality and its structure require complex plastic components, which would be difficult to make with conventional formative processes. Resolution and surface roughness of parts manufactured by laser sintering are strongly dependent on the particle size of the utilized powder where larger particles generally cause lower spatial resolution and higher surface roughness. For safety and processability reasons, the average size of powder particles cannot be reduced below a certain limit. Resolutions that can be achieved under optimum conditions are reported to be in the range of 100 μm, and manual finishing processes such as milling or coating are commonly used to improve surface properties. Similar to parts from other AM processes, further deviations from CAD data input arise from the layered processing of materials. In the interface between solidifying layers and ready-built portions of the manufactured part, both thermal gradients and densification due to sintering induce residual stresses. The relaxation of these stresses may result in warpage or breakage. The amount of stress is not only influenced by powder properties, but is also affected by processing parameters such as layer thickness, chamber and powder temperature, and path-planning procedures. Various research activities have aimed to monitor and understand, as well as to predict and improve accuracy and surface finish in powder-bed fusion AM processes employing theoretical and experimental approaches. Regardless of the material used, the parts obtained by powder bed fusion processes will typically exhibit a certain level of porosity. The amount of free volume is dependent on particle size distribution, material choice, and process parameters. The pores remaining within a green part after the AM process represent potential weak points in models subjected to mechanical load. If high mechanical strength is required for a given application, it is therefore common practice to improve mechanical properties by means of isostatic pressing, infiltration with suitable resins, or sintering. On the positive side, SLS fabricated parts are light, and porosity can be advantageous in other applications that require large surface areas, for example, scaffolds for cell growth in tissue engineering. SLS is applicable to materials with vastly different bulk properties. Moreover, SLS powders for the same bulk material can also vary in their morphology, sintering, and melting behavior. The powder characteristics strongly influence part properties such as accuracy, internal stresses, distortion, and response to mechanical load. The influence of intrinsic and nonintrinsic powder properties on SLS process parameters is summarized in. The multitude of parameters has triggered researchers to reflect upon effective means to rationalize material development for SLS on a meta level. Comprehensive reviews in materials and process development are given by Kruth et al. And Schmid et al. In powder bed fusion AM processes, materials must exhibit a certain level of flowability and packing efficiency to enable processing of unsintered powder, especially during the deposition of powder layers. Efforts were made to understand both the static and, more importantly, the dynamic flow behavior of powders, all aiming at the optimization of flowability. With methods like the revolution powder analyzer, the dynamic flow of particles can be investigated under conditions that mimic those of 3D System’s leveling roller and of EOS’s blade coater. The avalanche angle attuned in the rotating drum of the analyzer can be correlated to powder flowability, which is low for high angles. It was found that the shape of particles significantly influences powder flowability. In particular, powders consisting of well-defined spherical particles prepared by dispersion polymerization offer the highest flowability, closely followed by potato-shaped particles, which flow significantly better than rough-edged, irregular particles (e.g., derived from cryogenic milling). The compactibility of powders can be estimated by determining the volume expansion ratio according to a standardized procedure. High powder densities or compactibilities enable the fabrication of high density pieces with good mechanical properties (e.g., in the case of spherical particles). However, especially for particles of less defined shape, high powder densities may compromise flowability. Other experimental studies have focused on the influence of multimodal size distributions, which are reported to improve flowability. In addition to tuning particle properties, additives can be used to improve processability of powders. To increase flowability, commercial formulations include numerous inorganic powder substances such as silica, calcium and magnesium silicates, alumina, vitreous phosphate, vitreous borate, vitreous oxide, titania, talc, mica, and kaolin. Processing and deposition is also facilitated if antistatic agents are included. Examples for such additives range from polymers carrying sulfonic acid groups and alkylsulfonic metal salts to metal alkoxides. The most important requirement for SLS powder is appropriate sintering behavior, such that solidification of the powder particles occurs uniformly during the layered manufacturing procedure. The solidification step in itself is a complex process. Depending on the nature of the powder, it involves a number of mechanisms. For polymeric powders or polymer-based composite powders, the most important mechanisms are liquid phase sintering due to partial or complete melting of the powder particles. Driven by capillary forces and depending on its viscosity, the molten material more or less rapidly spreads within the powder, thereby forming necks between adjacent powder particles. If a sufficient amount of molten material with sufficiently low viscosity is generated upon laser irradiation, an increasingly dense structure is formed. However, other mechanisms such as consolidation at glass transition temperature, diffusion of polymer chains, or chemical cross-linking are also involved. Sintering or melting of powdered material must be possible in the temperature range of the respective SLS machine. Analytical methods used to measure thermal properties of polymeric materials for SLS include differential scanning calorimetry and thermomechanical analysis, as well as rheology and measurement of density and contact angle. Thermal properties such as melt viscosity, melt surface tension, and powder surface energy have great bearing on the sintering behavior of a powder. Low zero-shear viscosity and low melt surface tension are required for successful processing of powder materials, as both parameters help to enable efficient coalescence of the molten particles. Semicrystalline and amorphous polymers have very different thermal properties, which affects the way that they areprocessed by SLS.
Semicrystalline polymers undergo a large change in viscosity and density within a narrow temperature range upon melting and crystallization. The consolidation of semicrystalline powders is therefore conducted by locally heating to temperatures slightly above T m. To reduce stresses and deformations caused by layerwise recrystallization and cooling, the powder bed is constantly kept at a temperature between the crystallization and melting temperature during the whole SLS process. Thus, crystallization of consolidated layers will only occur when the finished part is cooled after processing. A sufficiently large temperature difference between melting and recrystallization is required to enable fine-tuning of process parameters within this parameter window, and to allow sufficient tolerance with regards to property changes occurring due to thermalaging of powders.
The suitability of a polymer for SLS is strongly dependent on molecular structure. As an example, PA-6 and PA-12 are two polymers with similar structure but very different applicability in SLS processing. Because of the higher amount of hydrogen bonding in PA-6, it exhibits a higher melting point (223 °C in comparison to 187 °C for PA-12) and a higher melt viscosity. PA-12 has different modes of packing, which results in a narrower melting range, making it well suited for SLS. For commercial PA-12 powder, thermal treatment is used to optimize the sintering performance. The growth of crystals is controlled during powder treatment to favor those with thick lamella that shift the melting point to elevated temperatures. Premature recrystallization is prevented by accurate control of the temperature within the process chamber, thereby ensuring the maximum width of the process window. Typical thermal properties during melting and cooling of two commercial polyamides (PA-11 and PA-12) are compared in. The temperature and width of the melting transition are not only a function of molecular structure, but also of average molecular weight and weight distribution. For example, the influence of the average molecular weight of poly-ε-caprolactone (PCL) on processability was systematically studied. It was shown that at an average weight of 40 000 g mol –1, PCL powder exhibited poor sintering behavior, whereas a comparable powder with an average polymer weight of 50 000 g mol –1 was successfully processed to yield accurate green parts. Largely because of their thermal behavior, semicrystalline polymer particles usually yield comparatively dense structures with mechanical properties comparable to those of injection molded parts (at least under pressure load). In comparison to semicrystalline polymers, amorphous polymers undergo less well-defined phase transitions over a broader temperature range (). Above their glass transition temperature, respective materials soften gradually, enabling SLS processing between the glass transition and the flow temperature. Within this process window, melt viscosities tend to be higher than for semicrystalline melts, thereby causing only limited coalescence of powder particles. The resulting green parts are less stable under load, but exhibit only minor internal stresses and distortions. Improved accuracy makes amorphous polymers attractive materials for the production of patterns for investment casting. Their direct application requires the infiltration of porous models with highly cross-linked thermoset during postprocessing operations. During the SLS process, only a portion of the heated powder in the build chamber is solidified to constitute the fabricated part. A significant amount of the powder remains in the chamber and can be reused in subsequent building procedures. This fraction is subjected to prolonged thermal load, which represents a source of degradation. Two main mechanisms may occur under the elevated temperatures of the build chamber. Oxidative degradation usually causes chain scission, and decreased melting temperatures and melt viscosities, but is hindered by filling the chamber with an inert gas. The aging behavior of the mostly PA-12-based commercial powders is therefore dominated by chain growth due to condensation of amine and carboxylic end groups. With increasing molecular weight, the melt viscosity also rises. If standard sintering parameters are maintained, the increased viscosity prevents optimum consolidation of the polymer particles and results in inferior surface quality, reduced density, and poor mechanical performance. It is therefore mandatory that the powder properties are not altered above a certain extent to ensure constant product quality. In industrial environments, blends of used and unused powder are often applied in a composition guaranteeing sufficient fulfillment of thermal requirements. Recent approaches to improve thermal stability and recyclability of PA-12 powders include using polymers with an excess of carboxylic or amine end-groups. In addition, commercial SLS powders are commonly treated with suitable stabilizing agents, for example, phosphites, hindered phenols, and thioethers, which are employed in combination with antioxidants such as hindered amines, hydroquinones, and sulfur components. A number of different approaches are used to fabricate powders for SLS, with precipitation and mechanical grinding representing the two most important ones. The choice of the appropriate process depends on the material and on the desired powder properties. For blends and composite materials, powder preparation is very often only one of at least two steps in the fabrication process, which is conducted after mixing of materials in solution or by melt extrusion processes, or prior to mixing with fillers and additives during the preparation of dry blends. Spherical particles can be obtained either by coextrusion of soluble and insoluble material such as oil droplets in water (b and c), by emulsion polymerization of water-insoluble monomers (c), or by anionic ring-opening precipitation polymerization of lauryl lactam in the presence of approximately 0.1% silica nucleating agent, for example, in the case of Orgasol PA-12 powder produced by Arkema. A similar route is presented under the name high pressure wet process byLim et al.
Their approach is based on the preparation of a polymer solution in a suitable solvent mixture at elevated temperature and pressure (e.g., a mixture of ethanol and water in case of lauryl lactam). Precipitation due to coagulation of polymeric material occurs as soon as the temperature or pressure is decreased below a certain threshold. By changing the pressure and temperature during the process, the powder properties can be fine-tuned. Furthermore, to obtain particles with very narrow size distribution and defined shape, TiO 2 can be added as a nucleating agent. Powders based on polymers that are not prepared by precipitation can also be made by mechanical grinding (e). Cryoscopic milling or grinding of pellets is capable of providing particle sizesbelow 100 μm.
Typically, the polymeric particles are cooled to −50 °C in a cooling section, and then milled between two counter-rotating pinned discs following the principle of an impact crusher. Particles of different sizes can be separated by sieving, thereby isolating fractions with very different, comparatively narrow size distributions. This process was employed by Drummer et al. To prepare POM particles with an average diameter of 80 μm. Particles formed by cryogenic grinding typically possess nonspherical shapes and feature rough edges (a). Because of these properties, they exhibit lower flowability in comparison to powders produced by precipitation processes. Moreover, they tend to yield low density, mechanically poor parts. Nevertheless, cryogenic grinding may also be used to blend different polymers during the process. This approach has been exploited successfully for blending of PA-12 and PEEK. Schultz et al. Present one of very few successful approaches to mechanically alloy different polymers in SLS powders. The mechanism of the blending process, which is conducted in a vibratory ball mill, can be understood as a combination of particle fracture, extensional flow causing a flake-like shape, and welding of the two materials induced by high-energy ball-powder-collisions. Within the resulting blend particles, the PEEK and PA-12 phases are so small and well-distributed that they cannot be distinguished by means of SEM (). PEEK/PA-12 blend powder particles produced by mechanical alloying during cryogenic milling. (a) Schematic sketch of the two-phase lamellar microstructure of powder particles produced by cryogenicmilling.
Reprinted with permission from ref. Copyright 1990 Springer International Publishing AG. (b) SEM micrograph of PEEK/PA-12 powder particle illustrating an irregular, rough particle shape and the absence of discernible PEEK and PA-12 domains. Reprinted with permission from ref. Copyright 2000 R. In comparison to other AM techniques, SLS enables the processing of a wide range of materials, including functional materials for end-user parts. The variety of powder materials can be distinguished into polymer-based powders and powders for direct sintering of metals and ceramics, with the polymer-based systems comprising pure polymers and composite materials. The polymeric phase is mainly a semicrystalline thermoplastic, but may also be an amorphous thermoplastic, a two-component thermoset, or an elastomeric material. This includes materials situated over the whole range of the “pyramid of polymeric materials”, ranging from cost-effective commodity polymers with limited properties and engineering plastics to specialized and expensive high performance polymers with high grade mechanical properties, as well as chemical and thermal stabilities. Only a limited number of powders for SLS are offered on a commercial basis (highlighted in blue in ). In patents and scientific publications, the choice of materials used is comparatively larger (highlighted in orange), and researchers are continuously struggling to widen the available portfolio. The limited commercial success of many of these powders is attributed to the high demands set for materials development due to the complexity of the processes involved in fabrication, characterization, and processing of powders for SLS. Manufacturers of commercial SLS materials include both the suppliers of SLS machines, EOS and 3D Systems mainly, and others, such as CRP Technology (Windform powders), Stratasys (Nytek powders), and Advanced Laser Materials (ALM), who offer a range of polyamides. The accumulated volume of powders sold by these companies has continuously increased in the last years, surpassing 2.4 million kg in 2015. Average prices range between $85 and $105 but may be considerably higher for special grades containing fillers for improved mechanical properties, flame retardant additives, or high performancepolymers.
A selection of current commercial materials is given in. The corresponding mechanical properties are plotted in the form of a stiffness/toughness-balance in. The market is dominated by polyamides, especially by PA-12, which has a market share of more than 90%. PA-12 is sold under the trade names of Duraform PA12 and PA2200 by 3D Systems and EOS, respectively. Both products are based on the same raw product, the PA-12 basic powder Vestosint from Evonik. Other semicrystalline polyamides include PA-11 and PA-6. The commodity polymers HDPE and PP are offered by Diamond Materials. Despite their inferior mechanical properties, these powders represent interesting alternatives for applications with lower mechanical demands. If higher material strength is required, users can either choose from a group of PA-12 grades with glass, carbon, or aluminum-based fillers, or employ PEEK powder. The latter represents the only high performance thermoplastic sintering material on the market and combines attractive mechanical properties with outstanding thermal stability and heat deflection temperature. Because of its high processing temperature, in the range of 385 °C, PEEK requires specialized SLS machines. Recently, a number of thermoplastic elastomers have also entered the market, offering low strength but extraordinary flexibility. This group of materials served to significantly widen the scope of SLS applications to flexible parts with elastomeric properties. Scientific investigations of semicrystalline SLS materials include studies on different polyamides. SLS processing of the commercially successful PA-12 is frequently reported with respect to the influence of powder particle sizes, size distributions, and processing parameters on microstructure and mechanical properties of the sintered material. A comprehensive comparison of the bulk properties of polyamides was published in 1970 by Griehl and Ruestem, highlighting PA-12’s special role with respect to melting point, mechanical properties, and water uptake. Materials based on PA-11 are discussed as a cheaper but less established alternative. Typically, PA-11 powders provide more ductile parts, but also exhibit increased distortion due to the smaller temperature gap between melting and recrystallization. Wishing to improve building accuracy by increasing both the melting point and the enthalpy of PA-11 powders, Allen et al. Developed a water vapor treatment that optimizes the crystalline structure of the polyamide powder. Further polyamides with more complex molecular architectures are claimed in the patent literature, but none of these have yet to be commercialized. Also, no publications addressing SLS of these complex polyamides, characterization of SLS-built parts, or the relationship between polymer structure and part properties have been reported. In addition to polyamides, many other semicrystalline polymers have been preparedand tested for SLS.
These materials, which may find wider application in the near future, include PP and HDPE, two commodity polymers that may overtake PA-12 in popularity due to their lower production costs. Salmoria et al. Report on the SLS of HDPE powder. Varying process parameters, they obtained functionally graded objects with a controlled variation of porosity. Blends prepared from different portions of PA-12 and HDPE represent an alternative approach to systematically vary mechanical properties of olefin-based SLS parts. These heterogeneous sintered materials have been shown to yield cocontinuous microstructures. By varying the composition, mixtures of PA-12 and HDPE can also be employed to prepare functionally graded structures. However, processing of HDPE-based materials still causes difficulties, and therefore it is not yet possible to produce dense, mechanically stable structures, thereby limiting application to areas where the unwanted porosity canbe exploited.
The related ultrahigh molecular weight polyethylene (UHMWPE) with average molecular weight between 3 and 6 × 10 6 g mol –1 was also tested as a potential powder material for SLS. UHMWPE parts produced using conventional fabrication techniques are known to exhibit outstanding properties among polyolefins. Within the semicrystalline material, a comparatively large number of the extremely long polymer chains bridge the amorphous parts of the structure to connect different crystallites. These so-called tie-molecules play a key role in the material’s superior mechanical properties that render it well suited for personal applications in orthopedic implants, especially artificial joints. Early experiments by Rimell and Marquis that aimed at merging UHMWPE’s special properties with SLS capability to produce patient-individual articles failed to produce multilayer parts due to shrinkage-induced warpage of the highly porous UHMWPE powders during consolidation of the sintered layers. Subsequent work byGoodridge et al.
Partially solved this problem by employing the well-known approach of preheating the powder-bed to temperatures closely below its melting temperature. However, successful processing was only possible within a very narrow processing window, and did not yield competitive mechanical properties. The authors’ conclusions are pessimistic with regards to the applicability of UHMWPE on a commercial basis unless further improvements, for example, by means of postprocessing of the sintered parts, are made in the near future. Innovative semicrystalline materials also include polymers from the high performance sector. SLS processing of POM, which was reported by Rietzel et al., introduced a novel, highly crystalline material. Parts made from POM powder are significantly stiffer than standard PA materials. An even better performance can be achieved using PEEK powders. PEEK’s dominant field of application is expected to be in medical applications, where the outstanding combination of temperature and mechanical stability is mandatory to withstand harsh sterilization procedures and patient usage. PA-12/PEEK blends were prepared by Schultz et al. In different compositions by mechanical alloying during cryogenic milling. Employing this approach, the mechanical properties of the sintered parts may be controlled over a broad range, if powder bed density problems can be eliminated, for example, by sieving operations to reduce the sub-10 μm particle size fraction. Polystyrene (PS) is more or less the only amorphous polymer SLS material found on the market today. Nevertheless, SLS processing of PS as well as that of poly(methyl methacrylate) (PMMA) and polycarbonate (PC) have all been discussed in the scientific literature. Parts produced from powder based on the three polymers exhibit comparatively high porosity and weak mechanical properties prior to postprocessing operations. Typically, target applications have taken advantage of this porosity, which facilitates infiltration of the green parts with low melting alloys to prepare molds for precision casting and other rapid tooling applications. The deficient mechanical properties of amorphous SLS materials have also been improved through development of heterogeneous materials. To obtain impact resistant materials with improved flexural and tensile strength, rubber-toughened powders of high-impact polystyrene (HIPS), blends of polystyrene and polyamides, and styrene-acrylonitrile-copolymer (SAN) have successfully been used in SLS. Mechanical improvements could be achieved without significantly affecting the dimensional accuracy or processability of conventional PS. Thermoplastic elastomers (TPEs) are particularly interesting because they allow SLS to be used for the fabrication of elastomeric functional parts for applications such as sports equipment, shoe midsoles, or patient-specific orthopedic insoles. Typically, TPEs are polymers that contain at least one hard semicrystalline building block endowing sufficient flexural strength and shape stability, and one soft block that provides elastomer-like flexibility. Until recently, the use of such materials in SLS was hindered by difficulties occurring when trying to produce TPE powders or powders from impact resistant blends in cryogenic milling procedures, as the soft building block is prone to limit the material’s susceptibility to brittle fracture. Despite the fact that there are several commercial TPE powders for SLS (see ), only a few have been specified in the patent literature and scientific publications. Clausen et al. Claim a group of elastomeric block copolymers comprising a soft block of ester and ether units, and a hard block of ester, amide, and urethane units. In a very similar approach, Monsheimer et al. Report TPEs based on a block copolymer prepared by condensation of a dicarboxyl-terminated polyamide building block as the hard segment and a diamine-terminated polyether as the soft segment. The glass transition temperatures of the hard and the soft segment can be fine-tuned by varying the average block lengths. The resulting material is said to be grindable in an efficient manner and to exhibit superior process reliability due to the absence of cross-amidation reactions that convert the block copolymer back to a statistic copolymer. As an alternative to block copolymers with polyamide hard segments, thermoplastic polyurethane is discussed by Ziegelmeier et al. Their investigation focuses on the influence of particle size and size distribution on the bulk and flow behavior of SLS powders by means of several analytic techniques. Three elastomer powder formulations with different size distributions serve as a model system for rough particles typical in cryogenically ground powders. These formulations are compared to standard PA-12 powders with potato-shaped particles obtained by precipitation. In later publications, the same group of authors also investigated the influence of TPU bulk and flow behavior on the mechanical propertiesof SLS built parts.
The results are compared to those obtained with a commercial TPE material and represent an important step to better understand and optimize TPE powders for SLS applications. With regards to aging behavior of thermoplastic polyurethane elastomers and a commercial TPE, an investigation of the mechanical, chemical, and morphological properties of parts produced at different aging stages revealed a behavior similar to that of standard polyamide-based powders. The properties of TPE powders and parts produced are also negatively affected unless they are refreshed with a suitable amount of virgin material. A multitude of papers describe the processing of ceramic and metallic powders mixed with a small portion of low-melting polymeric binder to improve the fabrication of ceramic or metallic parts bymeans of SLS.
Typically the resulting parts are applied as molds for formative polymer processing (e.g., the fabrication of molds for highly specialized parts in the aerospace industry or for regenerative medicine). During debinding of green specimens produced by SLS, the polymeric additives should decompose into gaseous products and leave behind minimal residue. Decomposition must occur at an appropriate rate such that gas pressure does not mechanically destroy the green part. The most prominent class of polymers for such processes is vinylic polymers such as PMMA or MMA–BMA copolymers, which decompose via depropagation into monomers above their ceiling temperatures. Further research activities have addressed polymer-based composites in recent years. The inorganic fillers have served to fulfill different purposes in these material systems. Similar to purely polymeric SLS powders, the most investigated class of polymer-based composites is also based on polyamides. Aiming to develop materials for further rapid tooling, functional prototyping, and rapid manufacturing applications, many composites and nanocomposites based on PA-12 and PA-11 have been prepared and processed via SLS, including materials containing glass beads, nanoscaled alumina, aluminum flakes, clay and organoclays, nanosilica, carbon nanotubes, carbon black, carbon nanofibers, and potassium titanium whiskers. Other filler particles mentioned in patents include talc, mica, clay, wollastonite, and calcium carbonate. Further materials comprise metals, ceramics, and high performance polymers such as aramide and polyarylate. In general, composite materials afford significant improvements with regard to stiffness, strength, and thermal stability at the expense of reduced flexibility and elongation at break. Similar effects were observed for composites based on amorphous polymers. An increase in both impact resistance and tensile strength was reported for polystyrene-based nanocomposites containing alumina filler particles. Proved that the mechanical performance of the system may be improved further by coating alumina nanoparticles prior to their application in such materials. The effect of the filler particles on internal stresses, which evolve during SLS processing, and on resulting distortions is complicated, as the filler affects multiple relevant parameters ranging from processing conditions, laser absorption, and thermal conductivity to melt viscosity and surface energy. In general, a positive effect can be expected for materials exhibiting improved stiffness, as the latter will cause the ready-built portions of a part to withstand stresses that occur during the SLS processing. Fillers in SLS materials can also be used to improve the fire retardance of polymer-based materials. An early example was presented by Cheng et al., who modified PA-11 with clay and nanofibers. However, the reported mechanical and thermal properties were significantly inferior to injection molded composites. The unsatisfying performance was related to a comparatively large porosity of the sintered parts that was caused by insufficient adjustment of average particle sizes and processing parameters. In a more successful approach, Koo et al. Processed PA-11 and PA-12 composite powders containing montmorillonite (MMT), carbon nanofibers, and nanosilica. The powders were prepared by twin extrusion followed by cryogenic grinding. While nanosilica was not dispersed in the PA materials successfully, thermal stability could be increased by adding nanoclays. Flammability resistance was investigated by measuring heat release rates, carbon monoxide emissions, and smoke extinction coefficients, which were all found to be improved in composites containing nanoclays and nanofibers. The most dynamic field of application of composites processed using SLS is the biological and medical sector. Taking advantage of AM technologies’ capability to produce personalized parts at competitive cost, the fillers in the heterogeneous materials improve functional properties relevant for specific medical tasks, for instance, through calcium phosphates’ osteoconductive effect, anti-inflammation behavior, controlled drug release, etc. In this context, the otherwise dominating polyamides play a minor role in comparison to biocompatible and resorbable aliphatic polyesters. For the purpose of bone regeneration, scaffolds can be fabricated from different polyesters including PCL and PLGA either as pure materials or in the form of composites containing calcium phosphate filler particles. PLA and poly(hydroxybutyrate- co-hydroxyvalerate) (PHBV) scaffolds with a high level of porosity were fabricated by SLS using microspheres that were prepared by double emulsion solvent evaporation. In vitro evaluation of both scaffold types’ potential to serve as a biomimetic environment for osteoblastic cell attachment yielded positive results concerning cell viability and morphology. Further improvements were made by incorporating carbonated hydroxyapatite or calcium phosphate,respectively.
In addition, the calcium phosphate/PHBV nanocomposite microspheres have been evaluated as protective carriers to preserve the bioactivity of sensitive biomolecules such as BSA during the sintering process. Inkjet printing is one of the most commonly used techniques for printing on two-dimensional substrates. With thermal drop on demand (DOD) jetting, heat is applied to the liquid ink causing a bubble to form within the ink reservoir, which propels a droplet of ink out of the print head via a microscopic orifice. Piezoelectric actuators may also be used to drive the DOD process with the advantage that a volatile solvent is not required. Both types of DOD printing heads may be used to build free-standing objects, although modifications in both materials and methodology are required. Two early developed methods for applying inkjet printing for freeform fabrication are provided in patents from Brother Industries and fromTexas Instruments.
The Brother patents describe an AM device, which uses an inkjet head to propel droplets of liquid thermoset resin (epoxy, melamine, or urea based) against a heated support. In a subsequent patent, a two-component thermosetting resin is described with the curing agent held within microcapsules. In the Texas Instrument patents, the inkjet head is hot and the substrate is cold. The part is built from a wax, which is solid at ambient temperature and of sufficiently low viscosity at 70 °C to form small droplets. A second water-soluble material is jetted on top of the wax to fill the unprinted regions and support subsequent layers. While in the first case heat is used to cross-link and in the latter to induce flow, both AM methods can be considered forms of thermal inkjet printing. 3D inkjet printing with wax has been further developed (notably by Solidscape, now Stratasys) principally for lost-wax and investment casting of metals. Thermosetting resins are still used in 3D printing as well, most prominently in binder jetting-based systems (see ). Combining the benefits of lithographic methods (high feature resolution and good surface quality) with the advantages of material jetting (high build speed and large build volume), the two leading AM device producers (Stratasys and 3D Systems) have both developed inkjet lithographic 3D-printers. The basic setup for such a system is depicted in. An inkjet head with several hundred nozzles is swept along the x-axis and in the process ejects small droplets of photopolymer. After deposition of one layer, a UV-lamp flash-cures the fresh layer and the process is repeated. In a typical setup, the inkjet head deposits two types of material: the building material and the support material. The support material is not part of the finished object but is required to support deposited build material in regions with voids or overhangs. In contrast to conventional stereolithography, where lightweight supports are only required in areas with severe overhangs, inkjet-based AM requires a completely dense support structure. The overall amount of material (build plus support) is therefore almost identical to the entire build volume of the part, which makes the method less economic than other AMmethods.
The technique does have one notable advantage however. With the use of multiple inkjet-heads, it is possible to build three-dimensional multimaterial or multicolor structures, which is very difficult in the case of SLA and DLP. Free-standing objects consisting of multiple materials with different optical or mechanical properties can now be accomplished by printing alone without an additional assembly step. The drawback of jetting is the fact that the processing window for the utilized inks is very narrow, which sets strict requirements regarding viscosity and surface tension. Inkjet AM requires that both building material and support material have sufficiently low viscosity at the temperature of the print head. Schmidt et al. Describe urethane acrylate-based resins with viscosities from 10 to 16 mPa s at temperatures from 70 to 90 °C. The resins use tetrahydrofurfuryl methacrylate or triethylene glycol dimethacrylate as reactive diluent (20–45 wt%) along with 5–15 wt% of an inert urethane wax. The wax, which freezes at 40 °C, is intended to partially hold the building material in place before it is photocured. To handle long print jobs (5+ hours), resins for inkjet AM must have very good thermal stability and yet cure rapidly when exposed to light. Thus, epoxy monomers, which are so prevalent in vat photopolymerization AM, are not commonly used for inkjet AM. The role of support material is essential for inkjet AM, and numerous patents are dedicated to material development. The original support material developed by Objet (now Stratasys) was based on water-soluble monomers and polymers, which photocure to give an intentionally weak material to be removed with water. Nonreactive poly(ethylene glycol) (PEG) is the principal component of such systems with PEG mono- and diacrylates, photoinitiator, stabilizers, and silicone surface additives. Bicarbonates may be included within the support material, so that mild acid rinsing causes release of CO 2 to assist in removal of the support material. Perhaps for conflicting IP reasons, 3D Systems uses waxes for support material, which can be removed by mild heating. A typical wax-based support material is 70% octadecanol with 30% tall oil rosin as tackifier. Dikovsky et al. Describe a PCL–PEG–PCL block copolymer for use as support material, where a secondary component (a lipase enzyme) is added either prior to or following printing. A 20% pseudomonas lipase solution was found to sufficiently decompose the polymer in a time frame of 2 h. Another strategy for removing support material is described by Levy, who uses a poly( N-isopropylacrylamide) (PNIPAM)-based thermal reversible gel formed above its gelation temperature and then cooled below this after printing allowing the PNIPAM to flow and release. The aerosol jet printing process (AJ-P), sometimes synonymously called maskless mesoscale materials deposition (M 3D), was developed by OPTOMEC Inc. () and commercialized in 2004. The process is based on the atomization of the building material in the aerosol chamber by means of ultrasonification (1.6–2.4 MHz) or pneumatic atomization. Processed materials comprise liquid solutions and dispersions. To comply with the requirements of the aerosol jet process, it is mandatory that the materials’ viscosity does not exceed 2500 mPa s, and that the dispersed particles possess a sufficiently small diameter so as to not clog the equipment. The atomization step typically results in a dense aerosol with droplet diameters of 1–5 μm, which is transferred to the deposition head by an inert gas stream. Within the deposition head, this stream is focused and accelerated through a nozzle with a length of 20 mm and an internal diameter of 50–300 μm. To afford further improvements in the lateral resolution of the particle stream and increase its velocity, an annular sheath gas stream is added within the deposition head. This sheath gas enables the deposition of a continuously flowing particle stream from 10 to 100 m s –1. The focus of the aerosol jet is kept constant over several millimeters between nozzle and substrate, thus facilitating 3D printing and deposition of materials on 3D substrates. Layer contours are printed by moving the building platform according to CAD data with build speeds up to 200 mm s –1. Additional layers are deposited onto already built structures by subsequent printing steps. The aerosol stream is not interrupted during the process. Instead, a shutter prevents the stream from hitting the substrate according to CAD data. Using AJ-P, lateral resolutions of 10 μm and layer thicknesses of 100 nm can be reached, thereby outperforming traditional inkjet printing. The aerosol jet process can be upscaled by combining multiple nozzles and increasing the size and lateral mobility of the building platform. Further advancements of the AJ-P technology consist of collimated aerosol beam direct writing (CAB-DW), a modification developed by OPTOMEC and North Dakota State University that utilizes an optimized nozzle design to enable improved resolution and the writing of structures smaller than 5 μm, and electro-aerodynamic jet printing (e-jet printing). The latter technology combines the standard aerosol jet concept with the addition of an applied electric potential, charging the aerosol particles with respect to the substrate surface. The effect of this potential on deposition rate and lateral resolution of fluorescent PS particles was studied as a function of particle size, electrostatic force, nozzle diameter, and flow rate in experiments and simulations by Park et al. For lower sheath flow rates, the electrostatic attraction dominates the deposition behavior, thereby allowing for increased deposition rates and a wider range of controlled pattern sizes. Moreover, in conjunction with reduced nozzle diameters, e-jet printing affords printed feature sizes as low as 1–2 μm. More frequently, AJ-P’s high resolution and wide range of applicable materials have been employed to print electronic structures including conducting tracks, thin film transistors, capacitors, or resistors on different substrates, including flexible polymers and 3D objects fabricated using formative or additive technologies. AJ-P is advantageous for concept parts or small batch production due to its speed and due to the fact that it not only reduces material consumption, but also does not require masks, etching steps, or vacuum conditions. The materials used in previous commercial and research activities are particularly relevant to microelectronics, which has been AJ-P’s major field of application (). Several publications have investigated low-temperature curing conductive materials for AJ-P to enable the printing of conductive structures on delicate substrates such as flexible polymer foils. In the majority of cases, these reports address the preparation and processing of Ag nanoparticle dispersions and aim to optimize the printing and curing behavior. For this purpose, different ligands have been employed to stabilize the nanoparticles, which are commonly prepared by reduction of metal salts in a liquid dispersion medium. Other metals are of minor importance due to their oxidation behavior (Cu) or high cost (Au, Pd, Pt). As an alternative to oven and CO 2-laser thermal treatment, light-induced sintering has also been discussed as an approach to postcure nanoparticle-based inks on polymer substrates. In this case, the sintering step takes advantage of the specific absorption related to the nanoparticles’ plasmonic resonance, thereby enabling localized heating and sintering of the metallic ink while only marginally heating the substrate. Instead of metallic nanoparticles, conductive or semiconductive structures may also be printed using inks based on single- or multiwalled carbonnanotubes.
As for metallic nanoparticle dispersions, both types of nanotubes have to be provided with a suitable surface functionalization to ensure the necessary degree of dispersion and sedimentation stability for AJ-P. Especially when applied to flexible substrates that are subject to mechanical deformations in their desired application, both Ag nanoparticle and CNT networks are reported to suffer from decreased conductivity due to brittle fracture of conductive tracks, an effect that was exploited for developing strain sensors based on CNT networks. To reduce the susceptibility to mechanically induced failure, Jabari and Toyserkani investigated AJ-P of dispersions of graphene sheets. In their recent work, they presented the successful formulation and printing of a graphene-based ink prepared by a chemical exfoliation process using ethyl cellulose as stabilizing agent and cyclohexene/terpineol as a solvent system. During a thermal post-treatment above 220 °C, both solvents and ethyl cellulose could be completely removed to yield graphene conducting tracks with good lateral resolution and feature widths as low as 10 μm. Depending on the number of layers printed in stacks, the measured resistivity was reduced to well below 0.02 Ω cm –1 for tracks with at least 10 layers and an overall thickness above 100 nm. Conductive and semiconductive polymers processed with AJ-P include blends such as poly(3,4-ethylendioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) and poly(3-hexylthiophene):C 61-butyric acid methyl ester (P3HT:PCBM). PEDOT:PSS, which was processed as an aqueous solution in the printing process, was applied as a top coat onto metallic electrodes by Aga et al. To fine-tune the electrode work function in polymer-based sensors. In the same field of application, a solution of P3HT and PCBM in trichloroethylene was printed successfully to serve as the photoactive layer of a polymer-based photodetector. Interestingly, adhesion between P3HT:PCBM and a PEDOT:PSS layer constituting the top electrode of the device was mediated by a drop-cast interlayer of DNA, which is highly transparent and exhibits comparatively low electrical resistance. The deposition of dielectric materials plays a key role in the fabrication of printed electronics and especially transistors. While considerable progress has been made in the field of printable electrode and semiconductor materials, AJ-P of well-defined dielectric layers is still a challenging task. Dielectric layers are commonly fabricated by depositing solutions of polymers such as polyimide or, in more recent research activities, polymer-based composites, which offer benefits of both inorganic fillers (high permittivities) and polymers (processability). Employed PMMA/poly(methylsilsesquioxane) nanocomposites as dielectric material for all solution-based thin film transistors. The use of the composite material was motivated by two properties: the material’s outstanding chemical resistance, which facilitates the solution-based layer deposition in subsequent steps such as metallization, and by its curing temperature, which is described as significantly lower than for typical polyimide and polyvinylphenol formulations and enables the modification of flexible polymeric substrates. The latter advantage can be disputed, as Wu and co-workers also illustrated the need for high temperature curing of residual silanol groups or of an additional synthetic step to protect these groups to limit the resulting composites’ leak current density. In a similar approach, related PMMA/Ca 2Nb 3O 10 nanocomposites were used for AJ-P. With increasing filler content, the dielectric constant and permittivity of these nanocomposites increase, rendering those with high Ca 2Nb 3O 10 content potential candidates as dielectric layers. First accomplishments have also been made in biomedical applicationsof AJ-P.
By successfully processing a dispersion of nanoscale TiO 2 in a chloroform solution of PLGA, Liu and Webster demonstrated the technology’s ability to produce scaffolds of well-defined shape and porosity for orthopedic tissue engineering. They seeded the scaffolds with human osteoblast cells and witnessed accelerated growth and enhanced osteoconductivity. Because of to the comparatively low forces acting on aerosol droplets upon impact with a given substrate, it has been postulated that aerosol jet printing should also allow for the deposition of living cells. Displays the key features of a 3DP machine comprising a powder distribution unit, a vertically movable building platform, and the inkjet printing head enabling CAD-guided ink dispensing. In the first step, prior to layer solidification, a powder layer is deposited by moving the powder dispenser horizontally across the building platform. In the second step, the inkjet printing head dispenses a liquid, which bonds or fuses the particles together, thus forming a solid layer. In the third step, the building platform moves downward by one layer thickness to enable printing of the next layer. Residual powder particles remain on the building platform, serving as support during the print job, and upon completion they may be recovered and reused. The finished green body can be cleaned of residual adherent powder with pressurized air and then post processed by treatments such as sintering or resin infiltration, respectively. Because conventional inkjet printing heads are employed without further modifications, the purchase and maintenance costs are somewhat lower as compared to SLS. A variety of cheap powders including starch and plaster, bound together with aqueous inks, can be fabricated by 3DP, but the parts tend to lack the precision of SLA or SLS produced parts. Even after postprocessing by resin infiltration or sintering, mechanical properties and surface roughness of printed polymer parts frequently do not meet the demands of many AM applications such as tooling, functional prototyping, and rapid manufacturing. 3DP does however offer one fundamental advantage. By using drop-on-demand with different colored inks, 3DP can build objects with multiple colors within individual layers. Multicolor 3DP machines employing traditional aqueous printing inks are generally less expensive than material jetting AM instruments and are thus popular for the fabrication of 3D multicolored models for 3D visualization, planning, and concept modeling in architecture and medicine. Although it has generally not been the case with polymers, 3DP is used with ceramics and metals to construct parts for application in rapid tooling for injection molding and precision casting and even in rapid manufacturing. 3DP instruments can be generally differentiated between those with binder contained within the ink formulation and those with binder embedded in the powder particles (). Moreover, the binder solution can act via different mechanisms. Commonly the binder consists of a good solvent or solvent mixture, which swells the polymeric powder causing particle fusion by polymer interdiffusion and entanglement. Alternatively, solutions of film forming polymers and polymer dispersions are used as binders. Whereas hydrophilic powders such as starch, plaster, and cement require aqueous binders, hydrophobic polymer particles such as polylactic acid (PLA), poly(lactide- co-glycolide) (PLGA), and PCL can be bonded together by inkjet printing of organic solvents such as chloroform. The use of chlorinated organic solvents, however, requires special safety, health, and emission precautions and is unsuitable for most office environments. Binder-containing printing inks are oftentimes used for 3DP fabrication with metallic and ceramic powder particles. These binder solutions consist of either aqueous or nonaqueous dispersions of inorganic materials like silica, aluminum nitrate, silver nitrate, or polymer solutions and dispersions, which form films upon drying and strongly adhere to the particles, thus bonding them together. Acidic binder solutions are quite common as well. For example, 25% citric acid was used as a binder for calcium phosphate powders such as hydroxyapatite (HA) for the fabrication of bone tissue scaffolds in regenerative medicine. Nonaqueous binders include reactive resins such as furfuryl alcohol and epoxides. Alternatively, the binder is embedded within the powder component and then activated by inkjet printing with an appropriate solvent. The absence of binders and reactive resins in the printing ink is in this case advantageous because it reduces the risk of clogs in the printing head. Inkjet printing of aqueous inks can be used to solidify powders based on water-soluble polymers such as poly(vinyl alcohol) (PVA), plaster, starch, maltodextrin, and cellulose derivatives. 3DP of PLA, carbohydrates, and other biopolymers is of particular interest in the design of drug release systems. To improve compatibility with bone tissue, calcium in 3DP of scaffolds phosphate-ceramics or polymer powders can be blended together or used as a coating in hybrid core–shell powder particles, respectively. As an example, plaster powder was printed by 3DP using aqueous ink, followed by post-treatment with aqueous ammonium phosphate to form calcium phosphate at the scaffold surface. For a more detailed description of the use of 3DP in medical applications, see,, and. It should be noted that green parts fabricated by 3DP using aqueous inks are normally not water-resistant and disintegrate/degrade when exposed to water and humidity. Therefore, postprocessing by infiltration with resins such as cyanoacrylates is required to protect the printed parts against moisture. In an alternative approach, water-resistant green parts have been printed by 3DP with powder blends of polycarboxylate ionomers and zinc oxide using an aqueousink.
Upon contact with water, water-resistant zinc ionomers are formed. As compared to PVA-, starch-, and plaster-based commercial materials, in situ polymeric zinc ionomers exhibit excellent building precision together with far superior mechanical properties. Hence, ionomer cements, well-known in dental applications, represent a promising new class of 3DP materials, at least in applications that can tolerate the potential cytotoxic effects of zinc or aluminum ions. To improve both dimensional stability and mechanical properties of 3DP green parts made from ceramic and metal powders, post processing by sintering or isostatic cold pressing is commonly applied, thereby reducing porosity and depleting binders and other organic components. Postprocessing densification induces considerable shrinkage (>50% volumetric), which has to be taken into account by scaling the CAD build file. Another post treatment to remove undesirable porosity involves resin infiltration with cyanoacrylates, epoxy, or polyurethane resins, respectively. Particularly infiltration with epoxy resins improves water resistance, surface finishing, and also mechanical properties. By dispersing carbon nanofibers in resins prior to infiltration, post processing has also been used to render insulating ceramics electrically conductive. Infiltration with inorganic compounds such as metal alloys is also used to fabricate advanced composite materials. In 2016, Hewlett-Packard Inc. Introduced their HP Multijet Fusion technology, which resembles SLS of PA-12 powders but does not require a laser for polymer particle fusion. With this process, the inkjet head selectively applies a coalescing agent, which adheres to the polymer powder particles but does not bind them directly. Instead, an IR source is used after each layer is applied to solidify those regions of the powder coated with coalescing or fusing agent. The coalescing agent consists of water and a cosolvent (NVP in one example) along with surfactant and carbon black, which acts as an IR absorber. Suitable building materials include polyamides (PA-12), PET, and HDPE. It is claimed that the process is 10 times faster than SLS and affords excellent mechanical properties due to efficient particle fusion. Additional detailing agents may be deposited on the borderline between sintered and loose regions. Their function is to prevent coalescence of polymer particles during the sintering by IR radiation through cooling by water evaporation, thereby improving building accuracy and surface quality. Moreover, multiagent jetting with so-called voxel transforming agents enables local implementation of functional properties such as color, mechanical, or electrical properties with resolutions as high as one volumetric pixel. For instance, coloring agents can be used to allow 3D multicolor printing for the design and fabrication of multifunctional multicolor objects. In 1987, Michael Feygin filed a U.S. Patent describing the process that would later be dubbed laminated object manufacturing (LOM). He then commercialized the technology in the 1990s with the company Helisys (now operated by Cubic Technologies). In the LOM process, thin sheets made from synthetic polymers or paper, respectively, are sequentially laminated, cut, and pasted together layer by layer to build an object. LOM is thus a hybrid process combining AM with subtractive processing. As compared to other AM methods, LOM enables the fabrication of larger parts at lower cost in conjunction with comparatively higher building speed. Moreover, because build material outside the model contour is held in place during the lamination process, temporary support structures are not required. It should be noted that the removal of cutoff sheets can be tedious, which makes the fabrication of hollow structures difficult. Similar to other AM methods, LOM fabricated pieces may require post processing to improve surface quality and dimensional accuracy. Current commercial LOM instruments offer part accuracy of 0.2 mm in the x– y direction and 0.3 mm in the z-direction. While this is not as good as SLA, the instrument uses benign material from sheet rolls, and requires no special ventilation. In the first step of the LOM process (), adhesive-coated sheets of material are fed with rollers to the building platform and laminated using a heated roller. In the second step, contours are cut according to two-dimensional slices of a 3D CAD file. Cutting may be accomplished with a carbon dioxide laser or with knives attached to a print head. To facilitate the release of the part after building, the residual sheet surrounding the contoured area is cut into rectangular compartments. The contoured area is attached to the build object and then lowered away from the sheet. Fresh material is supplied by rollers, and the process is repeated. LOM was pioneered by bonding together adhesive-coated paper sheets, thus producing wood-like parts that are highly moisture-sensitive in the absence of post processing. Moreover, mechanical properties and feature resolution were unsatisfactory. Since then, LOM has been used with various thermoplastics including PMMA and PC as well as polymer-based composites. For instance, LOM has been used to build free-standing objects from continuous fiber reinforced epoxy resins. Reported on the development of a LOM process enabling the fabrication of PC/PMMA-based microchips for lab-on-a-chip immunoassays. LOM is commonly used for the fabrication of complex multilayer ceramic components, where polymeric additives may be used. Paper-based LOM has been exploited for the fabrication of metal carbide parts in a two-step process. In this case, the pyrolysis of cellulose yielded porous carbonaceous materials, which upon infiltration with molten metal served as precursor for the metal carbide parts. Alternatively, ceramic tapes comprising ceramic microparticles with polymeric binders like poly(vinylbutyraldehyde), low density polyethylene, and aqueous SAN dispersions are compatible with roll to roll processing and have thus been used as intermediates for LOM of ceramic parts. Because the organic portion is lower, sintering of LOM fabricated ceramics causes less shrinkage as compared to ceramics fabricated by most other AM methods. Extrusion-based AM is the computer-controlled layer by layer deposition of molten and semimolten polymers, pastes, polymer solutions, and dispersions through a movable nozzle or orifice serving as the extrusion print head. It includes several techniques such as fused deposition modeling (FDM) alias fused filament fabrication (FFF), 3D dispensing, 3D micro extrusion, 3D microfiber extrusion, 3D fiber deposition, fluid dosing and deposition, and 3D plotting. After completion of a single layer, either the extrusion head moves up or the build platform moves down to allow for deposition of the next layer. Excellent interfacial adhesion and undisturbed polymer entanglement are imperative for fabricating nonporous objects with mechanical properties similar to those of objects produced by conventional bulk extrusion. In 1989, Scott Crump invented and patented fused deposition modeling (FDM) and shortly thereafter founded the company Stratasys commercializing the first FDM 3D printers. Because FDM is trademarked by Stratasys, the equivalent term “fused filament fabrication” (FFF) is also commonly used particularly in the Rep Rap community. FDM comprises 3D extrusion of thermoplastic polymers, which are mechanically fed as thin filaments (1.75 and 3.0 mm are most common) from a spool into the extrusionprint head.
The extruder is heated to an appropriate process temperature for the utilized polymer: above the melting temperature for semicrystalline polymers or above the glass temperature for amorphous polymers. FDM is a fairly robust technology platform and is currently exploited by thousands of groups around the world developing customized and low-cost 3D printers useful in office and home environments. Since the early 2000s, FDM has been the most commonly used AM technique worldwide. While FDM is limited to extrusion of thermoplastics at elevated temperature, 3D (micro) extrusion enables 3D deposition of many other classes of materials including thermosets, rubbers, polyurethanes, silicones, organic and inorganic pastes, polymer latex, plastisols, biomaterials, hydrogels, various functional polymers, and even biologically active ingredients and living cells. With 3D dispensing, polymer solidification is achieved by different physical and chemical processes. This significantly expands the range of usable materials for extrusion-based AM and even enables the processing of complex multifunctional materials systems. Whereas solidification in FDM is based principally on polymer crystallization and chain entanglement, 3D dispensing utilizes other phenomena including reversible and irreversible cross-linking. Thereby polymer networks are formed by both covalent and ionic bond formation as well as by supramolecular assemblies involving hydrogen bridges or coordination of metal salts. Unlike SLA, SLM, and material jetting processes with their rather narrow processing windows and formulation ranges, the 3D micro extrusion process tolerates a much larger variety of materials, which can also be combined with one another by means of multiple dispensers. This is particularly advantageous with respect to the processing of biological materials (i.e., living cells, growth factors), which do not tolerate high processing temperatures and toxic monomers. Despite these many advantages, extrusion-based AM suffers from limited spatial resolution related to difficulties in extruding submicron-sized strands of material. As strand diameter is reduced to the submicrometer domain, the build speed drastically slows down impairing rapid manufacturing of large parts. On the other hand, extrusion of polymer strands with diameter above 100 μm is faster but necessitates postprocessing to obtain sufficiently smooth surfaces. Alternatively, multijet 3D dispensing of droplets can be used to enhance build speed and enable simultaneous dispensing of different materials including coreactive monomers and prepolymers, thus exploiting resin systems used in reactive injection molding such as polyurethanes. Several reviews have addressed the scope of FDM (alias fused filament fabrication, FFF) as well as the role of material design and process optimization. As is schematically displayed in, the polymer filaments of both model and support thermoplastics are fed into the heated extrusion print head enabling 3D dispensing of the resulting polymer melts. Commercial FDM filaments are produced by melt extrusion of a principal thermoplastic polymer compounded with fillers, fibers, dyes, and other polymer additives. For a particular filament, a careful balance of polymer melt rheology, processing temperature, build speed, and CAD shape parameters is essential for a successful build process. This accounts for the rather narrow processing window typical for many FDM instruments. Preferably, the polymer filament is melt-processed slightly above the polymer melting temperature. Incomplete fusion of deposited strands with the corresponding adjacent polymer layer means that weak macroscopic surface adhesion (rather than polymer entanglement as with bulk plastics) will dictate and significantly limit mechanical properties in the build direction. Layering is accompanied by high surface roughness and even porosity. The use of water-soluble thermoplastics has been proposed for temporary support structures, which can be readily removed by immersion in water during postprocessing. Many researchers have addressed the effects of extrusion process parameters such as speeds of 3D dispensing and filament feed, pressure and temperature gradients, nozzle design, die swelling, melt viscosity, shear thinning induced by tailored molar mass distributions and long-chain branching, crystallization rate, addition of stabilizers and other additives, path-planning and part orientation, all aimed at improving surface finish, dimensional accuracy, mechanical properties, and process efficiency. Molecular and processing parameters as well as additive packages must be optimized for individual polymer systems, which include thermoplastics such as polyamide, ABS, PLA, and polypropylene and elastomers like polyetheresters. FDM is a flexible technology platform, and the technique has fostered the successful development of open-source AM technology, among them the prominent RepRap project created by Adrian Bowyer in 2004. Inspired by self-replication in biology, RepRap technology (see ) enabled the first successful self-replication of a machine by means of 3D printing, in which the “parent” 3D printer builds an identical and functional “child” 3D printer. RepRap machines are currently able to print all of their own plastic components, while metal framing, motors, wires, and circuitry must be provided separately. Whether FDM or some other AM process can print functional motors and circuit boards and thus enable full self-replication is yet to be determined. Among the large variety of engineering thermoplastics applied in FDM, acrylonitrile-butadiene-styrene copolymers (ABS), polylactide (PLA), polycarbonate (PC), and polyamides (PA) represent the most prominent ones. Studies have addressed the role of path-planning and part-orientation on the anisotropic mechanical properties of ABS parts built by FDM. Several groups have developed ABS derivatives to ease FDM processing and improve materials properties of printed parts. For example, Masood et al. Investigated the influence of metallic filler content on rheological properties and optimum process parameters and on thermal and thermo-mechanical properties. This work aimed at FDM fabrication of ABS/iron molds with improved thermal conductivity for injection molding and rapid toolingapplications.
It was found that increasing the content of micrometer-sized iron powder allowed for a simultaneous increase of storage modulus, glass transition temperature, and thermal conductivity. Investigated FDM of ABS modified with short glass fibers and linear low density polyethylene (LLDPE). The incorporation of glass fibers was found to reinforce ABS and reduce internal stresses and distortions due to a reduction of the thermal expansion coefficient. LLDPE, on the other hand, enhanced toughness in the presence of compatibilizers. FDM of ABS-based nanocomposites containing vapor-grown carbon fibers (VGCF) was investigated by Shofner et al. Analogous to ABS/glass fiber composites, the dispersion of up to 10 wt% VGCF provided significant improvement of both strength and stiffness at the expense of toughness. Developed a dual-extrusion process producing filaments from a polypropylene blend containing thermotropic liquid crystalline polymer (20 wt%), which surpassed the performance of FDM fabricated ABS. Mode (1) differs from FDM because no filaments of thermoplastics are required. Similar to hotmelt dispensing in adhesive industries, polymer-filled cartridges are inserted into the print head and heated to dispense polymer melts. Preferably, to enable 3D extrusion of the polymer melt, the molecular weight of the utilized thermoplastic (polyamides, polyolefins, polyesters, ABS, and a variety of other engineering thermoplastics and thermoplastic elastomers) will be lower than is typical for most formative processing. In mode (1), polymer solutions and dispersions are readily 3D dispensed layer-on-layer using either extrusion, drop on demand technology, or spraying. A broad range of build materials can be used including acrylic dispersions, solutions of linear and highly branched polymers including cellulose, starch, chitosan, and polyelectrolytes, as well as water-soluble polymers and inorganic sols based on silicates and bentonites. Moreover, pastes of inorganic particles such as metals like titanium and ceramics like calcium phosphates, silicates, and metal oxides can be printed together with polymer binders to produce green parts, which are sintered after burning off the polymer binders in postprocessing. In mode (2), a large variety of thermoset resins like polyfunctional epoxides, acrylics, silicones, and polyurethanes are printed by means of one- and two-component dispensing similar to the systems employed in adhesive, coating, andsealant industries.
In fact, polyurethane formulations employed in reactive injection molding, coating, and adhesive applications can be modified and implemented into this 3D dispensing process. Cross-linking and solidification speeds must be carefully matched with build speed to ensure polymer interdiffusion and formation of defect-free polymer networks. In mode (3), polymers are dispensed into a liquid. This offers attractive prospects for solidification without requiring building support structures and postprocessing. Matching the densities of printing material and liquid media allows the weight of the material to be compensated by buoyancy forces according to the Archimedes principle, thus preventing gravity-induced flow prior to solidification (see ). This zero-gravity 3D dispensing process was developed to prevent structural collapse, which is particularly problematic for 3D printing of soft objects such as hydrogels. In the case of 3D dispensing in water, salt can be added to increase density. 3D dispensing in liquid media provides another advantage as it allows reactive 3D dispensing. Thereby, initiators, activators, coreactive resins, curing agents, or metal salts, respectively, are added to the liquid media causing solidification by chemical reactions taking place immediately following contact of liquid media with the printed materials. A prominent example is the cross-linking of alginate hydrogels by Ca 2+-ions present in the aqueous plotting medium (see ). Similarly, acid/base chemistry can be exploited to print ionomers. Moreover, the thrombin enzyme has been used in aqueous plotting media enabling solidification of aqueous fibrinogen by means of catalyticfibrin formation.
As compared to AM in air, 3D dispensing in liquid media significantly widens the range of processable materials including 3D printing of hydrogels, which are of great significance for the fields of tissue engineering, organ printing, and also in shaping of polymer electrolytes. Furthermore, additives in liquid media and interfacial interactions enable in situ coating and surface modification during the printing process. Principle of zero-gravity 3D dispensing in the absence of temporary support structures exploiting the Archimedes principle: (a) 3D-dispensing in a liquid by matching its density with that of dispensed material stabilizes delicate structures as gravity is compensated by buoyancy; and (b) by comparison, 3D dispensing in air would lead to structural collapse due to gravity-induced flow prior to solidification. In view of its prospects for biofabrication in aqueous media, zero-gravity 3D dispensing is also named 3D bioplotting. Another example of a commercial 3D dispensing instrument is the GeSim BioScaffolder, which is a compact and yet versatile desktop device enabling multidispensing. In addition to the three pneumatic dispenser cartridges, a piezoelectric nanoliter pipetting unit affords seeding of live differentiable cells for bioprinting. The instrument has a choice of cartridge holders for ambient temperature processing and is heatable to 250 °C. Dosage pressure is adjustable from 100 to 600 kPa with an optional slight vacuum. Moreover, a mount is provided to attach an optical fiber for UV cross-linking, thus allowing hybrid AM processing. Several other companies have introduced multimaterial 3D printing aimed at applications in tissue engineering (see ) and 3D bioprinting (see, which includes a list of 15 companies offering 3Dbioprinters).
A further example of 3D dispensing is provided by Arburg GmbH, who in 2013 commercialized the Freeformer and the proprietary Arburg Plastic Freeforming (APF) process. Unlike FDM and similar to conventional extrusion, this 3D micro extrusion process does not require filaments but employs standard granules of thermoplastics as raw materials. Upon melting of the granules, the resulting polymer melt is injected into the extruder head and 3D dispensed as micrometer-sized droplets (0.2–0.4 mm), which are formed by applying pressure in conjunction with a high frequency piezoelectric driven nozzle. The precise placement of micro droplets followed by polymer solidification enables layer by layer printing according to CAD. Furthermore, the simultaneous use of two dispensing units allows for building of functional parts from unconventional material systems such as soft and hard polymers. Temporary support structures are fabricated by codispensing melts of water-soluble polymers such as polyvinylpyrrolidone, which are readily removed afterward upon immersion in water. As pointed out above, contrary to other AM processes, 3D dispensing is highly versatile with respect to its extraordinarily wide choice of materials ranging from polymers to ceramics and metals. It enables 3D dispensing of polymer melts and solutions, polymer latex, thermoplastic elastomers, ceramic precursors, cements, pastes of inorganic and organic particles, thermoplastic elastomers, biopolymers, reactive resins (i.e., thermosets), liquid rubbers, and even hydrogels and polyelectrolytes. Multidispensing using either several 3D dispensers, two-component dispensers, or a combination of pneumatic and piezoelectric dispensing in conjunction with reactive plotting enables the fabrication of free-standing objects from a great variety of different materials. 3D dispensing in aqueous medium affords 3D printing and 3D positioning of biologically active ingredients such as growth factors and even living cells. This AM technology holds great prospects for the fabrication of advanced functional materials and (bio) systems. Unlike FDM, which operates at elevated temperature, 3D dispensing is amenable to viable cells and other sensitive bioactive ingredients. The exceptional versatility of 3D dispensing for medical applications is summarized in for 3D bioplotting as reported by Carvalho et al. On one hand, 3D dispensing is applicable to a large variety of metal and inorganic particle pastes containing polymer binders, which enable CAD/CAM fabrication of green parts. Upon thermal treatment, these parts afford dense and porous metals and ceramics potentially for patient-specific implants. On the other hand, 3D bioplotting can use a large variety of synthetic polymers and biopolymers, including collagen-, alginate-, agar-based hydrogels, as well as resorbable thermoplastic aliphatic systems such as PLA, PLGA, PCL, and two-component systems based on chitosan and fibrin to fabricate soft and hard scaffolds for regenerative medicine. Following pioneering advances by EnvisionTEC, several other commercial extrusion-based single and multimaterial extrusion-based AM processes are now commercially available for applications in bioprinting (see ). Conventional 3D-printed objects retain the same shapes and properties during their entire product life times. In contrast, 4D printing pioneered by Skylar Tibbits at the Self-Assembly Lab of MIT in collaboration with Stratasys, Inc., uses time as the fourth dimension for 3D fabricated “smart” structures, which change shape over time in predefined and programmable fashions by responding to external stimuli such as water, temperature, touch, shear, pH, light, and other electromagnetic radiation. This stimuli-responsive behavior, programmable by means of CAD and the appropriate choice of printing materials, significantly expands the range of conventional smart materials, shape memory alloys, and multifunctional materials systems. Displays a programmed underwater shape transformation achieved by integrating different materials into the 4D printing process. One material remains rigid independent of the presence of water, while the other material (a hydrogel) undergoes large volume expansion (>200%) by swelling in water. By strategically placing the expanding materials by means of 4D printing, it is possible to fabricate water-responsive joints, which upon contact transform by folding and bending into one of a great variety of CAD-programmed shapes. Coupling AM technologies with stimulus-responsive polymers affords unprecedented programmability of active and passive shape and property transformations. Applications of 4D printing in soft robotics, smart textiles, drug delivery, and regenerative medicine are envisioned. Programmed stimuli-responsive material systems offer an alternative to complex electromechanical devices. Several reviews address 4D bioprinting of dynamic 3D patterned biological structures, hydrogels, and devices exploiting stimuli-responsive shape transformations. Furthermore, 4D printing of composite hydrogel architectures with localized anisotropic swelling behavior was used to induce the alignment of cellulose fibrils, which mimic plant motions and act as shape-morphing systems. 4D printed hygroscopic materials such as wood precisely sense and self-transform by responding to changes in the environment. 4D printing has been used to enable active origami in which a flat sheet automatically folds into complex shapes. The original flat plate shape can afterward be thermally recovered. Furthermore, 4D printing of glassy shape memory polymer fibers in an elastomeric matrix affords contoured shapes with spatially varying curvature, folded shapes, as well as twisted, bent, and coiled strips. The nonlinear, time-dependent behavior, and the role of local deformation, shape fixity, and free recovery rate were investigated for a 4D printing method based on multimaterial photopolymerization with shape memory polymers. Using this method, multimaterial grippers that can grab and release objects based on temperature were printed. In a recent advance, ultrafast 4D printing (.0 Comments
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