激光与光电子学进展, 2019, 56 (10): 100004, 网络出版: 2019-07-04
激光增材制造产品缺陷及其处理技术研究现状 下载: 2030次
Research Status of Defects and Defect Treatment Technology for Laser Additive Manufactured Products
图 & 表
图 3. 不同扫描速度下经抛光腐蚀后316L-nHA复合材料的显微组织形貌。 (a) 316L SS,250 mm·s-1;(b) 316L-5nHA,250 mm·s-1;(c) 316L-10nHA,250 mm·s-1;(d) 316L-5nHA,300 mm·s-1;(e) 316L-5nHA,400 mm·s-1;(f) 316L-10nHA,350 mm·s-1
Fig. 3. Microstructural morphologies of 316L-nHA composites polished and corroded at different scanning velocities. (a) 316L SS, 250 mm·s-1; (b) 316L-5nHA, 250 mm·s-1; (c) 316L-10nHA, 250 mm·s-1; (d) 316L-5nHA, 300 mm·s-1; (e) 316L-5nHA, 400 mm·s-1; (f) 316L-10nHA, 350 mm·s-1
表 1钛合金TC4的力学性能
Table1. Mechanical properties of titanium alloy TC4
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姚燕生, 汪俊, 陈庆波, 丁晨, 唐建平, 葛张森. 激光增材制造产品缺陷及其处理技术研究现状[J]. 激光与光电子学进展, 2019, 56(10): 100004. Yansheng Yao, Jun Wang, Qingbo Chen, Chen Ding, Jianping Tang, Zhangsen Ge. Research Status of Defects and Defect Treatment Technology for Laser Additive Manufactured Products[J]. Laser & Optoelectronics Progress, 2019, 56(10): 100004.