[1] 杨永强,刘洋,宋长辉.金属零件3D打印技术现状及研究进展[J].机电工程技术,2013,42(4):1-7.
[2] Zadpoor AA, Hedayati R. Analytical relationships for prediction of the mechanical properties of additively manufactured porous biomaterials[J].J Biomed Mater Res A,2016,104(12):3164-3174.
[3] GB-T.228.1-2010.金属材料拉伸试验第1部分:室温实验方法[S].北京:中国标准出版社,2008.
[4] GB-T.13810-2007.外科植入物用钛及钛合金加工材[S].北京:中国标准出版社,2007.
[5] O'Brien CM, Holmes B,Faucett S,et al.Three-dimensional printing of nanomaterial scaffolds for complex tissue regeneration[J].Tissue Eng Part B Rev, 2015,21(1):103-114.
[6] Levine JP, Patel A, Saadeh PB, et al. Computer-aided design and manufacturing in craniomaxillofacial surgery:The new state of the art[J]. J Craniofac Surg, 2012,23:288-293.
[7] Poh PSP, Chhaya MP, Wunner FM, et al. Polylactides in additive biomanufacturing[J]. Adv Drug Deliv Rev,2016,107:228-246.
[8] Horn TJ, Harrysson OL. Overview of current additive manufacturing technologies and selected applications[J]. Sci Prog,2012,95:255-282.
[9] Alhnan MA, Okwuosa TC, Sadia M, et al. Emergence of 3D printeddosage forms:opportunities and challenges[J]. Pharm Res, 2016, 33:1817-1832.
[10] Mulford JS, Sina B, Mackay N. Three-dimensional printing in orthopaedic surgery:review of current and future applications[J]. ANZ J Surg,2016, 86:648-653.
[11] Chen ST, Chang CJ, Su WC, et al. 3-D titanium mesh reconstruction of defective skull after frontal craniectomy in traumatic brain injury[J]. Injury, 2015,46:80-85.
[12] Malhotra K, Sharma A, Giraddi G, et al. Versatility of titanium 3D plate in comparison with conventional titanium miniplate fixation for the management of mandibular fracture[J]. J Maxillofac Oral Surg, 2012,11:284-290.
[13] Chen JY, Zhang ZG, Chen XH, et al. Design and manufacture of customized dental implants by using reverse engineering and selective laser melting technology[J].J Prosthet Dent, 2014,112(5):1088-1095.
[14] GB-T.3620.1-2007.钛及钛合金牌号和化学成分[S].北京:中国标准出版社,2007.
[15] 陈治清.口腔材料学[M].2版,北京:人民卫生出版社,2001:19-69,153.
[16] Shah FA, Snis A, Matic A, et al. 3D printed Ti6Al4V implant surface promotes bone maturation and retains a higher density of less aged psteocytes at the bone-implant interface[J]. Acta Biomater, 2016,30:357-367. |