[1]中時新聞網,科思創展示3D列印矯正型鞋墊 Retrieved 2022/02/28 from: https://www.chinatimes.com/realtimenews/20191024001653-260412?chdtv.
[2]鉅亨網,「印」出來的活塞敢用嗎?保時捷不只敢用 還多榨出30匹馬力 Retrieved 2022/02/28 from: https://news.cnyes.com/news/id/4507735.
[3]The Future of Battlefield Damage Repair. Retrieved 2022/02/28 from: https://www.saab.com/markets/india/gripen-for-india/technology/the-future-of-battlefield-damage-repair.
[4]Hideo Kodama. "A Scheme for Three-Dimensional Display by Automatic Fabrication of Three-Dimensional Model." IEICE TRANSACTIONS on Electronics (Japanese Edition) J64-C (4) (1981) 237-241.
[5]Hideo Kodama. "Automatic method for fabricating a three-dimensional plastic model with photo-hardening polymer." Review of Scientific Instruments 52 (11) (1981) 1770-1773.
[6]ASTM Committee F42 on Additive Manufacturing Technologies, and ASTM Committee F42 on Additive Manufacturing Technologies. Subcommittee F42. 91 on Terminology. Standard terminology for additive manufacturing technologies. ASTM International, 2012.
[7]Hon, K. K. B., L. Li, and I. M. Hutchings. "Direct writing technology—Advances and developments," CIRP Annals-Manufacturing Technology 57 (2) (2008) 601-620.
[8]Zhu, Zhongqi, et al. " Additive manufacturing of thin electrolyte layers via inkjet printing of highly-stable ceramic inks." Journal of Advanced Ceramics 10 (2) (2021) 279–290.
[9]Aghnia IlmiahNurhudan, et al. " Additive manufacturing of metallic based on extrusion process: A review." Journal of Manufacturing Processes 66 (2021) 228–237.
[10]He, Qinglong, et al. "Additive manufacturing of dense zirconia ceramics by fused deposition modeling via screw extrusion." Journal of the European Ceramic Society 41 (2021) 1033–1040.
[11]Wu, Dongjiang, et al. "Direct additive manufacturing of melt growth Al2O3-ZrO2 functionally graded ceramics by laser directed energy deposition." Journal of the European Ceramic Society 42 (2022) 2957–2973.
[12]Wu, Dongjiang, et al. "Effect and mechanism of ZrO2 doping on the cracking behavior of melt-grown Al2O3 ceramics prepared by directed laser deposition." International Journal of Applied Ceramic Technology 17 (1) (2020) 227–238.
[13]Klosterman, Donald A., et al. "Structural Composites via Laminated Object Manufacturing (LOM)." 1996 International Solid Freeform Fabrication Symposium. 1996.
[14]Zhang, Geng, et al. "Organic mesh template-based laminated object manufacturing to fabricate ceramics with regular micron scaled pore structures." Journal of the European Ceramic Society 41 (2021) 2790–2795.
[15]Ming, Li, et al. "Metal Binder Jetting Additive Manufacturing: A Literature Review." ASME. J. Manuf. Sci. 142 (9) (2020) 090801.
[16]Hanh My Bui, et al. "Development of a manufacturing process for Binder Jet 3D printed porous Al2O3 supports used in heterogeneous catalysis." Additive Manufacturing 50 (2022) 102498.
[17]Ali N.Alagha, et al. " Additive manufacturing of shape memory alloys: A review with emphasis on powder bed systems." Materials & Design 204 (2021) 109654.
[18]Zheng, Wen, et al. "Fabrication of high-performance silica-based ceramic cores through selective laser sintering combined with vacuum infiltration." Additive Manufacturing 48 (2021) 102396.
[19]Hull, Charles W. "Method of and apparatus for production of three dimensional objects by stereolithography." U.S. Patent No. 5,236,637. 17 Aug. 1993.
[20]Kang, Jin-Ho, et al. " Mechanical and biological evaluation of lattice structured hydroxyapatite scaffolds produced via stereolithography additive manufacturing." Materials & Design 214 (2022) 110372.
[21]Wang, Jia-Chang. "A novel fabrication method of high strength alumina ceramic parts based on solvent-based slurry stereolithography and sintering." International Journal of Precision Engineering and Manufacturing 14 (3) (2013) 485-491.
[22]李耿芳,溶劑型漿料法之光硬化快速原型系統開發,碩士論文,國立臺北科技大學機電整合研究所,臺北,2010。[23]游信樺,溶劑型漿料法光成型設備鋪料槽內鋪層系統開發,碩士論文,國立臺北科技大學機電整合研究所,臺北,2012。[24]戴明杉,溶劑型漿料法光硬化積層製造系統之迴轉式鋪料開發,碩士論文,國立臺北科技大學機電整合研究所,臺北,2013。[25]李柏賢,高輸出溶劑型漿料法光成型系統開發,碩士論文,國立臺北科技大學製造科技研究所,臺北,2015。[26]吳孟霖,高使用率迴轉式鋪料溶劑型漿料法光聚合固化系統開發,碩士論文,國立臺北科技大學製造科技研究所,臺北,2018。[27]黃柏諺,溶劑型漿料之高效率光聚合成型積層製造系統開發,碩士論文,國立臺北科技大學製造科技研究所,臺北,2019。[28]蘇玄桓,多尺度級孔隙陶瓷光固化 3D 列印技術開發,碩士論文,國立臺北科技大學機電整合研究所,臺北,2020。[29]張家誠,生產型迴轉式鋪料溶劑型漿料法光聚合固化系統開發,碩士論文,國立臺北科技大學機電整合研究所,臺北,2021。[30]林義展,使用回收添加物之複合材料光聚合固化積層製造系統開發,碩士論文,國立臺北科技大學製造科技研究所,臺北,2021。