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2011 | OriginalPaper | Chapter

1. Stereolithographic Processes

Author : Paulo Jorge Bártolo

Published in: Stereolithography

Publisher: Springer US

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Abstract

Stereolithography is an important additive manufacturing process process that creates three-dimensional solid objects in a multi-layer procedure through the selective photo-initiated cure reaction of a polymer. Substantial progress has been made in the field of stereolithography and this chapter aims at outlining some of the most significant technological changes, discussing novel curing mechanisms, materials and applications.

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next chapter History of Stereolithographic Processes
Literature
1.
F.W. Liou, Rapid prototyping and engineering applications – a toolbox for prototype development, CRC Press, Boca Raton, 2008
2.
E.B. Magrab, S.K. Gupta, F.P. McCluskey, P.A. Sandborn, Integrated product and process design and development, CRC Press, Boca Raton, 2010
3.
G. Pahl, W. Beitz, Engineering design – a systematic approach, Springer, London, 1996
4.
I. Gibson, Rapid prototyping: from product development to medicine and beyond, Virtual and Physical Prototyping, 1, 31-42, 2006
5.
A. Thakur, A. G. Banerjee, S.K. Gupta, A survey of CAD model simplification techniques for physics-based simulation applications, Computer-Aided Design, 41, 65–80, 2009
6.
K. Lee, Principles of CAD/CAM/CAE systems, Addison-Wesley, Reading, Massachusetts, 1999
7.
F.E.H. Tay, A. Roy, CyberCAD: a collaborative approach in 3D-CAD technology in a multimedia-supported environment, Computers in Industry, 52, 127–145, 2003
8.
S.K. Ong, Y. Shen, A mixed reality environment for collaborative product design and product development, CIRP Annals – Manufacturing Technology, 58(1), 139–142, 2009
9.
T.R. Langerak, Parameter reconstruction of freeform shapes for improved product modelling, Tools and Methods of Competitive Engineering, Vol.1, Edited by I. Horváth and Z. Rusák, Delft University of Technology, 2008
10.
N.M. Alves, P.J. Bartolo, Integrated tools for virtual and physical automatic construction, Automation in Construction, 15, 257–271, 2006
11.
E. Izquierdo, J.-R. Ohm, Image-based rendering and 3D modelling: a complex framework, Signal Processing: Image Communication, 15, 817–858, 2000
12.
F. Verbiest, G. Willems, L. Van Gool, Image-based rendering for photo-realistic visualization,Virtual and Physical Prototyping, 1, 19–30, 2006
13.
S. Rowlinson, D. Yates, nDCAD: a virtual change agent for professions and procurement systems?, Construction Management and Economics, 21, 849–857, 2003
14.
A. Mahalingam, R. Kashyap, C. Mahajan, An evaluation of the applicability of 4D CAD on construction projects, Automation in Construction, 19, 148–159, 2010
15.
Z. Ma, Q. Shen, J. Z., Application of 4D for dynamic site layout and management of construction projects, Automation in Construction, 14, 369–381, 2005
16.
K.W. Chau, M. Anson, J.P. Zhang, Four-dimensional visualization of construction scheduling and site utilization, Journal of Construction Engineering and Management, 130, 598–606, 2004
17.
D. Heesom, L. Mahdjoubi, Trends of 4D CAD applications for construction planning, Construction Management and Economics, 22, 171–182, 2004
18.
Y. Ren, S.K. Lai-Yuen, Y.S. Lee, Virtual prototyping and manufacturing planning by using tri-dexel models and haptic force feedback, Virtual and Physical Prototyping, 1, 3–18, 2006
19.
N.M.F. Alves, P.J. Bártolo, Virtual modelling through human vision sense, International Journal of Interactive Design and Manufacturing, 1, 195–207, 2007
20.
S. Ha, L. Kim, S. Park, C. Jun, H. Rho, Virtual prototyping enhanced by a haptic interface, CIRP Annals – Manufacturing Technology, 58(1), 135–138, 2009
21.
M. Bordegoni, U. Cugini, M. Covarrubias, Design of a visualization system integrated with haptic interfaces, Tools and methods of competitive engineering, Vol.1, Edited by I. Horváth and Z. Rusák, Delft University of Technology, 2008
22.
I. Gibson, Z. Gao, Virtual prototyping – similarities and differences, Advanced Research in Virtual and Rapid Prototyping, Proceedings of the 1st International Conference on Advanced Research in Virtual and Rapid Prototyping, Edited by P.J. Bartolo et al, Polytechnic Institute of Leiria, 2003
23.
W. Zhu, Y.S. Lee, Haptic sculpting and machining planning with 5-DOF haptic interface for virtual prototyping and manufacturing, Advanced Research in Virtual and Rapid Prototyping, Proceedings of the 1st International Conference on Advanced Research in Virtual and Rapid Prototyping, Edited by P.J. Bartolo et al, Polytechnic Institute of Leiria, 2003
24.
F. Kimura, N. Yamane, Haptic environment for designing human interface of virtual mechanical products, CIRP Annals – Manufacturing Technology, 55(1), 127–130, 2008
25.
P.J. Jones, CAD/CAM: features, applications and management, MacMillan Press, London, 1992
26.
G. Molcho, R. Schneor, Y. Zipori, P. Kowalsi, B. Denkena, M. Shiptalni, Computer aided manufacturability analysis closing the CAD-CAM knowledge GAP, Proceedings of the 9th Biennial ASME Conference on Engineering Systems Design and Analysis, 2008
27.
R. Stark, H. Hayka, D. Langenberg, New potentials for virtual product creation by utilizing grid technology, CIRP Annals – Manufacturing Technology, 58, 143–146, 2009
28.
O.C. Zienkiewicz, The finite element method, McGraw-Hill, London, 1977MATH
29.
R.D. Cook, D.S. Malkus, M.E. Plesha, Concepts and applications of finite element analysis, Wiley, New York, 1989MATH
30.
S. Ranganath, C. Guo, P. Hegde, A finite element modeling approach to predicting white layer formation in nickel supperalloys, CIRP Annals – Manufacturing Technology, 58(1), 77–80, 2009
31.
A.D. Prete, T. Primo, A. Elia, CAE tools as valid oportunity to improve quality control systems performances for metal formed components, Proceedings of the 9th Biennial ASME Conference on Engineering Systems Design and Analysis, 2008
32.
A. Saxena, B. Sahay, Computer aided engineering design, Springer, Dordrecht, 2009
33.
P.J. Bartolo, G. Mitchell, Stereo-thermal-lithography: a new principle for rapid prototyping, Rapid Prototyping Journal, 9, 150–156, 2003
34.
P.J. Bartolo, Optical approaches for macroscopic and microscopic engineering, PhD Thesis, University of Reading, UK, 2001
35.
G.N. Levy, Digital layer manufacturing chances and challenges, Proceedings of the 9th Biennial ASME Conference on Engineering Systems Design and Analysis, 2008
36.
J.-P. Kruth, M.C. Leu, T. Nakagawa, Progress in additive manufacturing and rapid prototyping, CIRP Annals – Manufacturing Technology, 47(2), 525–540, 1998
37.
G. N. Levy, R. Schindel, J.-P. Kruth, Rapid manufacturing and rapid tooling with layer manufacturing (LM) technologies, state of the art and future perspectives, CIRP Annals – Manufacturing Technology, 52(2), 589–609, 2003
38.
C.C. Kai and L.H. Fai, Rapid prototyping: principles and applications in manufacturing, Wiley, Chichester, 1997
39.
K.S. Lee, S.H. Kim, Non-uniform deformation of an STL model satisfying error criteria, Computer-Aided Design, 42, 239–247, 2010
40.
Y.H. Chen, C.T. Ng, Y.Z. Wang, Data reduction in integrated reverse engineering and rapid prototyping, International Journal of Computer Integrated Manufacturing, 12, 97–103, 1999
41.
M.K. Agoston, Algebraic topology, Marcel Dekker, New York, 1976MATH
42.
S.H. Choi, K.T. Kwok, A tolerant slicing algorithm for layered manufacturing, Rapid Prototyping Journal, 8, 161–179, 2002
43.
Y.F. Zhang, Y.S. Wong, H.T. Loh, An adaptive slicing approach to modelling cloud data for rapid prototyping, Journal of Materials Processing Technology, 140, 105–109, 2003
44.
C.S. Wang, W.H.A. Wang, M.C. Lin, STL rapid prototyping bio-CAD model for CT medical image segmentation, Computers in Industry, 61, 187–197, 2010
45.
J.P. Fouassier, Photoinitiation, photopolymerization, and photocuring: fundamentals and applications, Hanser, New York, 1995
46.
A. Gilbert and J. Baggot, Essentials of molecular photochemistry, Blackwell Science Publishers, London, 1991
47.
J. Guillet, Polymer photophysics and photochemistry, Cambridge University Press, Cambridge, 1985
48.
H. Ushiki and K. Horie, Influence of molecular structure on polymer photophysical and photochemical properties, Handbook of polymer science and technology, Vol. 4, Edited by N.P. Cheremisinoff, Dekker, New York, 1989
49.
C. Decker, Effect of UV radiation on polymers, Handbook of polymer science and technology, Vol. 3, Edited by N.P. Cheremisinoff, Dekker, New York, 1989
50.
H.B. Olayan, H.S. Hamid, E.D. Owen, Photochemical and thermal crosslinking of polymers, JMS Review Macromolecular Chemistry and Physics C36(4), 671–719, 1996
51.
E. Selli and I.R. Bellobono, Photopolymerization of multifunctional monomers: kinetic aspects, in Radiation curing in polymer science and technology, Vol. III: Polymerisation mechanisms, Edited by J. P. Fouassier and J. F. Rabek, Elsevier Science Publishers, London, 1993
52.
J.K. Gillham, Award address formation and properties of network polymeric materials, Polymer Engineering and Science, 19, 676–682, 1979
53.
J.K. Gillham, Characterization of thermosetting materials by torsional braid analysis, Polymer Engineering and Science, 16, 353, 1976
54.
R.B. Prime, Thermosets in Thermal characterization of polymeric materials, Vol. 2, Edited by A. Turi, Academic Press, London, 1997
55.
S. Gan, J.K. Gillham and R.B. Prime, A methodology for characterizing reactive coatings: time-temperature-transformation (TTT) analysis of the competition between cure, evaporation, and thermal degradation for an epoxy-phenolic system, Journal of Applied Polymer Science, 15, 803–816,1989
56.
F.W. Billmeyer, Textbook of polymer science, Wiley, New York, 1984MATH
57.
A. Ravve, Organic chemistry of macromolecules, Marcel Dekker, New York, 1967
58.
P.J. Flory, Principles of polymer chemistry, Cornell University Press, Ithaca, 1967
59.
J. Lange, N. Altmann, C.T. Kelly, P.J. Halley, Understanding vitrification during cure of epoxy resins using dynamic scanning calorimetry and rheological techniques, Polymer, 40, 5949–5955, 2000
60.
J.C. Dominguez, M.V. Alonso, M. Oliet, F. Rodriguez, Chemorheological study of the curing kinetics of a phenolic resol resin gelled, European Polymer Journal, 46, 50–57, 2010
61.
X. Ramis and J.M. Salla, Time-temperature transformation (TTT) cure diagram of an unsaturated polyester resin, Journal of Polymer Science Part B: Polymer Physics, 30, 371–388, 1997
62.
S. Lunak, J. Vladyka and K. Dušek, Effect of diffusion in the glass transition region on critical conversion at the gel point during curing of epoxy resins, Polymer, 19, 931–933, 1978
63.
A. Hale, Thermosets, Handbook of Thermal Analysis and Calorimetry, Edited by S.Z.D. Cheng, Elsevier, London, 2002
64.
S. Montserrat, F. Roman, P. Colomer, Vitrification and dielectric relaxation during the isothermal curing of an epoxy-amine resin, Polymer, 44, 101–114, 2003
65.
W.X. Zukas, Torsional braid analysis of the aromatic amine cure of epoxy resins, Journal of Applied Polymer Science, 53, 429–440, 1994
66.
G. Wisanrakkit and J.K. Gillham, Continuous heating transformation (CHT) cure diagram of an aromatic amine/epoxy system at constant heating rates, Journal of Applied Polymer Science, 42, 2453–2463, 1991
67.
N. Fang, C. Sun, X. Zhang, Diffusion-limited photopolymerization in scanning micro-stereolithography, Applied Physics A, 79, 1839–1842, 2004
68.
B.A. Osinski, Alpha-T-T and T-T-alpha-T diagrams as a new element in comprehensive modeling of thermoset processing, Polymer, 34, 752–758, 1993
69.
P. Pang and J.K. Gillham, Anomalous behavior of cured epoxy resins: density at room temperature versus time and temperature of cure, Journal of Applied Polymer Science, 37, 1969–1991, 1989
70.
J.D. Ferry, Viscoelastic properties of polymers, Wiley, New York, 1980
71.
S.L. Simon and J.K. Gillham, Conversion-temperature-property diagram for a liquid dicyanate ester/high-Tg polycyanurate thermosetting system, Journal of Applied Polymer Science, 51, 1741–1752, 1994
72.
J.P. Fouassier, Photoinitiation, photopolymerization, and photocuring-fundamentals and applications, Hanser, Munich, 1996
73.
C. Decker, New developments in UV-curable acrylic monomers, in Radiation curing in polymer science and technology, Vol. III: Polymerisation mechanisms, Edited by J. P. Fouassier and J. F. Rabek, Elsevier Science Publishers, London, 1993
74.
Y.M. Huang, S. Kuriyama, C.P. Jiang, Fundamental study and theoretical analysis in a constrained-surface stereolithography system, International Journal of Advanced Manufacturing Technology, 24, 361–369, 2004
75.
D.T. Pham, C. Ji, A study of recoating in stereolithography, Proceedings of the Institution of Mechanichal Engineers, Part C – Journal of Mechanical Engineering Science, 217, 105–117, 2003
76.
D.T. Pham, S.S. Dimov, R.S. Gault, Part orientation in stereolithography, International Journal of Advanced Manufacturing Technology, 15, 674–682, 1999
77.
P. Lan, S. Chou, L. Chen, D. Gemmill, Determination of fabrication orientations for rapid prototyping with stereolithography apparatus, Computer-Aided Design, 29, 53–62, 1997
78.
H.C. Kim, S.H. Lee, Reduction of post-processing for stereolithography systems by fabrication-direction optimization, Computer-Aided Design, 37, 711–725, 2005
79.
J. Giannatsis, V. Dedoussis, Decision support tool for selecting fabrication parameters in stereolithography, International Journal of Advanced Manufacturing Technology, 33, 706–718, 2007
80.
K. Chockalingam, N. Jawahar, U. Chandrasekar, K.N. Ramanathan, Establishment of process model for part strength in stereolithography, Journal of Materials Processing Technology, 208, 348–365, 2008
81.
F. Holzer, G. Fadel, Design of a 3-degrees of freedom platform for the stereolithography apparatus, Rapid Prototyping Journal, 8, 100–115, 2002
82.
B. Luan, X.Y. Liu, J. Nagata, W.J. Cheong, Residual stress analysis – an important consideration for coating of stereolithographic polymers, Surface and Coatings Technology, 192, 323–330, 2005
83.
Z. Zhou, D. Li, Z. Zhang, Rapid fabrication of metal-coated composite stereolithography parts, Proceedings of the Institution of Mechanichal Engineers, Part C – Journal of Process Mechanical Engineering, 221, 1431–1440, 2007
84.
D.C. Watts, A.S. Marouf, A.M. Al-Hindi, Photo-polymerization shrinkage-stress kinetics in resin composites: methods development, Dental Materials, 19, 1–11, 2003
85.
I. Pomerantz, S. Gilad, Y. Dollberg, B. Ben-Ezra, Y. Sheinman, G. Barequet, M. Katz, Three dimensional modeling apparatus, US Pat. 5519816, 1996
86.
E. Andrzejewska, Photopolymerization kinetics of multifunctional monomers, Progress in Polymer Science, 26, 605–665, 2001
87.
D. Colombani, Chain-growth control in free radical polymerization, Progress in Polymer Science, 22, 1649–1720, 1997
88.
T. Corrales, F. Catalina, C. Peinado, N.S. Allen, Free radical macrophotoinitiators: an overview on recent advances, Journal of Photochemistry and Photobiology A: Chemistry, 159, 103–114, 2003
89.
C. Decker and B. Elzaouk, Laser-induced crosslinking polymerization of acrylic photoresists, Journal of Applied Polymer Science, 65, 833–844, 1997
90.
O. Dufaud, S. Corbel, Oxygen diffusion in ceramic suspensions for stereolithography, Chemical Engineering Journal, 92, 55–62, 2003
91.
J.V. Crivello, K. Dietliker, Photoinitiators for free radical, cationic and anionic photopolymerization, Wiley, New York, 1998
92.
J.V. Crivello, The discovery and development of onium salt cationic photoinitiators, Journal of Polymer Science: Part A: Polymer Chemistry, 37, 4241–4254, 1999
93.
V. Sipani, A.B. Scranton, Dark-cure studies of cationic photopolymerizations of epoxides: characterization of the active center lifetime and kinetic rate constants, Journal of Polymer Science: Part A: Polymer Chemistry, 41, 2064–2072, 2003
94.
M. Shirai, K. Mitsukura, H. Okamura, Chain propagation in UV curing of di(meth)acrylates, Chemistry of Materials, 20, 1971–1976, 2008
95.
C. Decker, C. Bianchi, D. Decker, F. Morel, Photoinitiated polymerization of vinyl ether-based systems, Progress in Organic Coatings, 42, 253–266, 2001
96.
C. R. Chatwin, M. Farsari, S. Huang, M.I. Heywood, R.C.D. Young, P.M. Birch, F. Claret-Tournier, J.D. Richardson, Characterisation of epoxy resins for microstereolithographic rapid prototyping, International Journal of Advanced Manufacturing Technology, 15, 281–286, 1999
97.
M. Bjpai, V. Shukla, A. Kumar, Film performance and UV curing of epoxy acrylate resins, Progress in Organic Coatings, 44, 271–278, 2002
98.
C. Decker, High-speed curing by laser irradiation, Nuclear Instruments and Methods in Physics Research B, 151, 22–28, 1999
99.
F. Boey, S.K. Rath, A.K. Ng, M.J.M. Abadie, Cationic UV cure kinetics for multifunctional epoxies, Journal of Applied Polymer Science, 86, 518–525, 2002
100.
C.E. Carcione, A. Greco, A. Maffezzoli, Photopolymerization kinetics of an epoxy based resin for stereolithography, Journal of Thermal Analysis and Calorimetry, 72, 687–693, 2003
101.
A.L. Jardini, R.M. Filho, M.A.F. Scarparo, S.R. Andrade, L.F.M. Moura, Infrared laser stereolithography: prototype construction using special combination of compounds and laser parameters in localised curing process, International Journal of Materials and Product Technology, 21, 241–254, 2004
102.
A.L.M. Jardini, R.F. Maciel, M.A.F. Scarparo, S.R. Andrade, L.F.M. Moura, Advances in stereolithography: a new experimental technique in the production of a three-dimensional plastic model with an infrared laser, Journal of Applied Polymer Science, 92, 2387–2394, 2004
103.
M.A.F. Scarparo, A. Kiel, Z. Zhiyao, C.A. Ferrari, Q.J. Chen, J.H. Miller and S.D. Allen, Study of resin based materials using CO2 laser stereolithography, Polymer, 38, 2175–2181, 1997
104.
M.L. Barros, M.A.F. Scarparo, A. Kiel, E. Gerck, J.J. Hurtak, Stereolithography with thermosensitive resins using CO2 laser, Journal of Applied Polymer Science, 54, 1575–1578, 1994
105.
A.L. Jardini, R.Maciel, M.A. Scarparo, S.R. Andrade, L.F. Moura, The development in infrared stereolithography using thermosensitive polymers, Advanced Research in Virtual and Rapid Prototyping, Proceedings of the 1st International Conference on Advanced Research in Virtual and Rapid Prototyping, Edited by P.J. Bartolo et al, Polytechnic Institute of Leiria, 2003
106.
P.J. Bartolo, G. Mitchell, Advanced photo-fabrication system for thermosetting materials, Proceedings of the PPS-19, Polymer Processing Society, Melburn, Australia, 2003
107.
P.J. Bartolo, G. Mitchell, A new photo-fabrication system through the use of multiple light effects within organic polymers, POLYCHAR-10 World Forum on Polymer Applications and Theory, Denton, USA, 2002
108.
E. Stratakis, A. Ranella, M. Farsari, C. Fotakis, Laser-based micro/nanoengineering for biological applications, Progress in Quantum Electronics, 33, 127–163, 2009
109.
Y.X. Yan, X.T. Tao, Y.H. Sun, G.B. Xu, C.K. Wang, J.X. Yang, X. Zhao, Y.Z. Wu, Y. Ren, M.H. Jiang, Two new asymmetrical two-photon photopolymerization initiators: synthesis, characterization and nonlinear optical properties, Optical Materials, 27, 1787–1792, 2005
110.
K.J. Schafer, J.H. Hales, M. Balu, K.D. Belfield, E.W. van Stryland, D.J. Hagan, Two-photon absorption cross-sections of common photo-initiators, Journal of Photochemistry and Photobiology A: Chemistry, 162, 497–502, 2004
111.
S. Kawata, H.B. Sun, Two-photon photopolymerization as a tool for making micro-devices, Applied Surface Science, 208–209, 153–158, 2003
112.
M. Miwa, S. Juodkazis, T. Kawakami, S. Matsuo, H. Misawa, Femtosecond two-photon stereo-lithography, Applied Physics A, 73, 561–566, 2001
113.
U. Stute, J. Serbin, C. Kulik, B.N. Chichkov, Three-dimensional nanostructures fabricated by two-photon polymerization of hybrid polymers, Advanced Research in Virtual and Rapid Prototyping, Proceedings of the 1st International Conference on Advanced Research in Virtual and Rapid Prototyping, Edited by P.J. Bartolo et al, Polytechnic Institute of Leiria, 2003
114.
K.S. Lee, D.Y. Yang, S.H. Park, R.H. Kim, Recent developments in the use of two-photon polymerization in precise 2D and 3D microfabrications, Polymers for Advanced Technologies, 17, 72–82, 2006
115.
T.W. Lim, S.H. Park, D.Y. Yang, Contour offset algorithm for precise patterning in two-photon polymerization, Microelectronic Engineering, 77, 382–388, 2005
116.
S. Wu, J. Serbin, M. Gu, Two-photon polymerisation for three-dimensional micro-fabrication, Journal of Photochemistry and Photobiology A: Chemistry, 181, 1–11, 2006
117.
M. Zhou, H.F. Yang, J.J. Kong, F. Yan, L. Cai, Study on the microfabrication technique by femtosecond laser two-photon photopolymerization, Journal of Materials Processing Technology, 200, 158–162, 2008
118.
K.D. Belfield, K.J. Schafer, Y.U. Liu, X.B. Ren, E.W Van Stryland, Multiphoton-absorbing organic materials for microfabrication, emerging optical applications and non-destructive three-dimensional imaging, Journal of Physical Organic Chemistry, 13, 837–849, 2000
119.
S. Schlie, A. Ngezahayo, A. Ovsianikov, T. Fabian, H.A. Kolb, H. Haferkamp, B.N. Chichkov, Three-dimensional cell growth on structures fabricated from ORMOCER by two-photon polymerization technique, Journal of Biomaterials Applications, 22, 275–287, 2007
120.
A. Doraiswamy, C. Jin, R.J. Narayan, P. Mageswaran, P. Mente, R. Modi, R. Auyeung, D.B. Chrisey, A. Ovsianikov, B. Chichkov, Two photon induced polymerization of organic-inorganic hybrid biomaterials for microstructured medical devices, Acta Biomaterialia, 2, 267–275, 2006
121.
D. Klosterman, R. Chartoff, T. Tong, M. Galaska, Electron-beam curing of a novel liquid crystal thermoset resin, Thermochimica Acta, 396, 199–210, 2003
122.
J.S. Ullett, T. Benson-Tolle, J.W. Schultz, R.P. Chartoff, Thermal-expansion and fracture toughness properties of parts made from liquid crystal stereolithography resins, Materials and Design, 20, 91–97, 1999
123.
V. Shibaev, A. Bobrovsky and N. Boiko, Photoactive liquid crystalline polymer systems with light-controllable structure and optical properties, Progress in Polymer Science, 28, 729–836, 2003
124.
D.J. Broer, G.N. Mol, J.A.M.M. van Haaren, J. Lub, Photo-induced diffusion in polymerizing chiral-nematic media, Advanced Materials, 11, 573–578, 1999
125.
S. Kurihara, A. Sakamoto, T. Nonaka, Liquid-crystalline polymer networks: effect of cross-linking on the stability of macroscopic molecular orientation, Macromolecules, 32, 3150–3153, 1999
126.
P. Oswald, P. Pieranski, Nematic and cholesteric liquid crystals: concepts and physical properties illustrated by experiments, CRC Press, Boca Raton, 2005
127.
J.S. Ullett, J.W. Schultz, R.P. Chartoff, Novel liquid crystal resins for stereolithography, Rapid Prototyping Journal, 6, 8–17, 2000
128.
D.J. Broer, G.N. Mol, G. Challa, In-situ photopolymerization of oriented liquid-crystalline acrylates, Makromoleculare Chemie, 192, 59–74,1991
129.
O. Dufaud, H. Le Gall, S. Corbel, Application of stereolithography to chemical engineering – from macro to micro, Chemical Engineering Research and Design, 83(A2), 133–138, 2005
130.
X. Zhang, X.N. Jiang, C. Sun, Micro-stereolithography of polymeric and ceramic microstructures, Sensors and Actuators, 77, 149–156, 1999
131.
M. Wozniak, T. Graule, Y. Hazan, D. Kata, J. Lis, Highly loaded UV curable nanosilica dispersions for rapid prototyping applications, Journal of the European Ceramic Society, 29, 2259–2265, 2009
132.
Y. Hazan, J. Heinecke, A. Weber, T. Graule, High solids loading ceramic colloidal dispersions in UV curable media via comb-polyelectrolyte surfactants, Journal of Colloid and Interface Science, 337, 66–74, 2009
133.
C. Hinczewski, S. Corbel, T. Charier, Ceramic suspensions suitable for stereolithography, Journal of the European Ceramic Society, 18, 583–590, 1998
134.
A. Bertsch, S. Jiguet, P. Renaud, Microfabrication of ceramic components by microstereolithography, Journal of Micromechanics and Microengineering, 14, 197–203, 2004
135.
C. Sun, X. Zhang, Experimental and numerical investigations on microstereolithography of ceramics, Journal of Applied Physics, 92, 4796–4802, 2002
136.
M. Fersini, F. Montagna, A. Licciulli, A. Maffezzoli, Rapid prototyping of amorphous silica through laser stereolithography, Virtual and Rapid Manufacturing – Advanced Research in Virtual and Rapid Prototyping, Edited by P.J. Bartolo et al, Taylor&Francis, London, 2008
137.
C. Sun and X. Zhang, The influences of the material properties on ceramic micro-stereolithography, Sensors and Actuators A, 101, 364–370, 2002
138.
O. Dufaud, P. Marchal and S. Corbel, Rheological properties of PZT suspensions for stereolithography, Journal of the European Ceramic Society, 22, 2081–2092, 2002
139.
C. Hinczewski, S. Corbel, T. Chartier, Stereolithography for the fabrication of ceramic three-dimensional parts, Rapid Prototyping Journal, 4, 104–111, 1998
140.
C. Provin and S. Monneret, Complex ceramic-polymer composite microparts made by microstereolithography, IEEE Transactions on Electronics Packaging Manufacturing, 25, 59–63, 2002
141.
F. Doreau, C. Chaput, T. Chartier, Stereolithography for manufacturing ceramic parts, Advanced Engineering Materials, 2, 493–496, 2000
142.
R.A. Levy, T.G. Chu, J.W. Holloran, S.E. Feinberg, S. Hollister, CT-generated porous hydroxyapatite orbital floor prosthesis as a prototype bioimplant, American Journal of Neuroradiology, 18, 1522–1525, 1997
143.
J. Gaspar, P.J. Bartolo, F.M. Duarte, Cure and rheological analysis of reinforced resins for stereolithography, Materials Science Forum, 587–588, 563–567, 2008
144.
P.J. Bartolo, J. Gaspar, Metal filled resin for stereolithography metal part, CIRP Annals – Manufacturing Technology, 57, 235–238, 2008
145.
R. Sindelar, P. Buhler, F. Niebling, A. Otto, P. Greil, Solid freeform fabrication of ceramic parts from filler loaded preceramic polymers, Proceedings of the Solid Free Form Fabrication Conference, Austin, USA, 2002
146.
J. Gaspar, P.J. Bartolo, Metallic stereolithography, Proceedings of the 9th Biennial ASME Conference on Engineering Systems Design and Analysis, Haifa, Israel, 2008
147.
F.P.W. Melchels, J. Feijen, D.W. Grijpma, A review on stereolithography and its applications in biomedical engineering, Biomaterials, 6121–6130, 2010
148.
K. Arcaute, B. Mann, R. Wicker, Stereolithography of spatially controlled multi-material bioactive poly(ethylene glycol) scaffolds, Acta Biomaterialia, 6, 1047–1054, 2010
149.
C. Heller, M. Schwentenwein, G. Russmueller, F. Varga, J. Stampfl, R. Liska, Vinyl esters: low cytotoxicity monomers for the fabrication of biocompatible 3D scaffolds by lithography based additive manufacturing, Journal of Polymer Science: Part A: Polymer Chemistry, 47, 6941–6954, 2009
150.
M. Schuster, C. Turecek, G. Weigel, R. Saf, J. Stampfl, F. Varga, R. Liska, Gelatin-based photopolymers for bone replacement materials, Journal of Polymer Science: Part A: Polymer Chemistry, 47, 7078–7089, 2009
151.
S. Lu, K.S. Anseth, Photopolymerization of multilaminated poly(HEMA) hydrogels for controlled release, Journal of Controlled Release, 57, 291–300, 1999
152.
J.W. Lee, G.S. Ahn, D.S. Kim, D.-W. Cho, Development of nano- and microscale composite 3D scaffolds using PPF/DEF-HA and micro-stereolithography, Microelectronic Engineering, 86, 1465–1467, 2009
153.
M. Schuster, C. Turecek, F. Varga, H. Lichtenegger, J. Stampfl, R. Liska, 3D-shaping of biodegradable photopolymers for hard tissue replacement, Applied Surface Science, 254, 1131–1134, 2007
154.
P.J. Bartolo, C.K. Chua, H.A. Almeida, S.M. Chou, A.S.C. Lim, Biomanufacturing for tissue engineering: present and future trends, Virtual and Physical Prototyping, 4, 203–216, 2009
155.
N.E. Fedorovich, M.H. Oudshroon, D. Geemen, W.E. Hennink, J. Alblas, W.J.A. Dhert, The effect of photopolymerization on stem cells embedded in hydrogels, Biomaterials, 30, 344–353, 2009
156.
J. Jansen, F.P.W. Melchels, D.W. Grijpma, J. Feijen, Fumaric acid monoethyl ester-functionalized poly(D,L-lactide)/N-vinyl-2-pyrrolidone resins for the preparation of tissue engineering scaffolds by stereolithography, Biomacomolecules, 10, 214-220, 2009
157.
K.W. Lee, S.F. Wang, B.C. Fox, E.I. Ritman, M.J. Yaszemski, L.C. Lu, Poly(propylene fumarate) bone tissue engineering scaffold fabrication using stereolithography: effects of resin formulations and laser parameters, Biomacromolecules, 8, 1077–1084, 2007
158.
V.A. Liu and S.N. Bhatia, Three-dimensional patterning of hydrogels containing living cells, Biomedical Microdevices, 4, 257–266, 2002
Metadata
Title
Stereolithographic Processes
Author
Paulo Jorge Bártolo
Copyright Year
2011
Publisher
Springer US
Book
Stereolithography

Print ISBN: 978-0-387-92903-3

Electronic ISBN: 978-0-387-92904-0

Copyright Year: 2011

DOI
https://doi.org/10.1007/978-0-387-92904-0_1

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