[1] C WATAHA J. Alloys for prosthodontic restorations. Journal of Prosthetic Dentistry, 87, 351-363(2002).
[2] H MÖLLER. Dental gold alloys and contact allergy. Contact Dermatitis, 47, 63-66(2002).
[3] D UPADHYAY, A PANCHAL M, S DUBEY R et al. Corrosion of alloys used in dentistry: a review. Materials Science & Engineering A, 432, 1-11(2006).
[4] W CHEN Y, J MOUSSI, L DRURY J et al. Zirconia in biomedical applications. Expert. Rev. Med. Devices, 13, 945-963(2016).
[5] F ZARONE, S RUSSO, R SORRENTINO. From porcelain-fused- to-metal to zirconia: clinical and experimental considerations. Dental Materials, 27, 83-96(2011).
[6] R STRUB J, D REKOW E, S WITKOWSKI. Computer-aided design and fabrication of dental restorations: current systems and future possibilities. Journal of the American Dental Association, 137, 1289-1296(2006).
[7] Z CHEN, Z LI, J LI et al. 3D printing of ceramics: a review. Journal of the European Ceramic Society, 39, 661-687(2019).
[8] A RASAKI S, D XIONG, S XIONG et al. Photopolymerization- based additive manufacturing of ceramics: a systematic review. Journal of Advanced Ceramics, 10, 442-471(2021).
[9] X FU, B ZOU, H XING et al. Effect of printing strategies on forming accuracy and mechanical properties of ZrO2 parts fabricated by SLA technology. Ceramics International, 45, 17630-17637(2019).
[10] H XING, B ZOU, S LI et al. Study on surface quality, precision and mechanical properties of 3D printed ZrO2 ceramic components by laser scanning stereolithography. Ceramics International, 43, 16340-16347(2017).
[11] W WANG, C QIAN, Y ADILIJIANG et al. Study of zirconia crowns fabricated by stereolithography method. Chinese Journal of Prosthodontics, 19, 7-11(2018).
[12] J SUN, J BINNER, J BAI. Effect of surface treatment on the dispersion of nano zirconia particles in non-aqueous suspensions for stereolithography. Journal of the European Ceramic Society, 39, 1660-1667(2018).
[13] Z CHEN, D LI, W ZHOU et al. Curing characteristics of ceramic stereolithography for an aqueous-based silica suspension. Proceedings of the Institution of Mechanical Engineers Part B-Journal of Engineering Manufacture, 224, 641-651(2010).
[14] Z CHEN, D LI, W ZHOU. Process parameters appraisal of fabricating ceramic parts based on stereolithography using the Taguchi method. Proceedings of the Institution of Mechanical Engineers Part B-Journal of Engineering Manufacture, 226, 1249-1258(2012).
[16] H LEE I, W CHO D. Micro-stereolithography photopolymer solidification patterns for various laser beam exposure conditions. International Journal of Advanced Manufacturing Technology, 22, 410-416(2003).
[17] G XU, W ZHAO, B LU. Fabrication of microstructures using high-resolution stereolithography system. Journal of Mechanical Engineering, 9, 86-89(2005).
[18] Z LU, S JIANG, K ZHANG. Fundamental research on debinding and sintering of submicron pillar arrays made by ceramic micro powder injection molding. Journal of Netshape Forming Engineering, 2015, 33-36.
[19] M PFAFFINGER, G MITTERAMSKOGLER, R GMEINER et al. Thermal debinding of ceramic-filled photopolymers. Materials Science Forum, 826, 75-81(2015).