论文类型：期刊论文
第一作者：Kaiwen Wei
通讯作者：Xiaoyan Zeng
合写作者：Gao Huang,Jinfeng Deng,Mengna Liu
发表刊物：Journal of Materials Processing Technology
收录刊物：SCI、EI
卷号：271
页面范围：368-376
发表时间：2019-09-01
影响因子：4.669
摘要：In this study, three different levels of laser energy inputs (Ev) were used for selective laser melting of Ti-5Al-2.5Sn alloy and the as-deposited tensile properties along the vertical direction with respect to deposition layers were found to be statistically identical to those along the horizontal direction for all the samples. Densification states, microstructures, and crystallographic orientation characteristics of the different samples, as well as their contributions to the isotropic properties were researched. The results first indicated that near spherical pores would form at the relatively high Ev (208 J/mm(3)) whereas lack-of-fusion defects would generate at the relatively low Ev (51 J/mm(3)). When the moderate Ev (167 J/mm(3)) was used, samples with very few defects could be fabricated. Then, it was seen that samples built at 51 and 167 J/mm(3) presented a martensite (alpha')-dominated microstructure in which the boundaries of columnar prior-beta were decorated by grain-boundary alpha (alpha(GB)). When Ev increased to 208 J/mm(3), a duplex microstructure composed of alpha' and massive alpha (alpha(M)) would form within prior-beta matrix of the as-deposited samples. An overall increasing trend in prior-beta's width with the increase of Ev was also identified. Afterwards, it was proved that there was no strong texture within all the samples and this was one cause of the isotropic properties. Besides, for samples built at 51 J/mm(3), the negative influence of lack-of-fusion on vertical properties cooperated with the adverse effect of large quantities of a GB on horizontal properties, promoting the obtainment of isotropic properties. For samples built at 167 J/mm(3), not only the high densification degree but also the significantly increase in prior-beta's width and the resultant decrease in alpha(GB) 's content helped to eliminate significant anisotropy. For samples built at 208 J/mm(3), both the near spherical pores which resulted in near-identical bearing areas on different sections and the absent of alpha(GB) contributed to the isotropic properties. This paper can provide some basis for the laser additive manufacturing of titanium products with isotropic properties.