通过调节激光功率实现激光粉末床熔融 Ti-6.5Al-2Zr-1Mo-1V 合金的强度-电导率协同效应

Jiachen Zhou, Baoxian Su, Binbin Wang, Liangshun Luo, Tong Liu, Yanan Wang, Liang Wang, Yanqing Su, Jingjie Guo, Hengzhi Fu
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摘要

一般来说,通过激光粉末床熔融(L-PBF)制造的 Ti-6.5Al-2Zr-1Mo-1V (TA15) 部件具有高强度和低延展性的特点。在此,我们报告了一种通过调节激光功率来提高 L-PBF TA15 合金综合机械性能的新方法。使用最佳激光功率加工的样品呈现出宽窄交替的先β晶粒(PBGs)网格结构,其内部由完全马氏体微观结构组成。本文详细讨论了在低功率和高功率激光下加工样品的微观结构变化,阐明了微观结构与机械性能之间的关系。较薄的马氏体有助于提高强度,而均匀的微观结构则可改善延展性。这些发现为在钛合金的 L-PBF 增材制造中控制微观结构和实现强度-延展性协同作用提供了宝贵的见解。
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Achieving strength-ductility synergy of laser powder bed fusion Ti–6.5Al–2Zr–1Mo–1V alloy by regulating laser power
In general, the Ti–6.5Al–2Zr–1Mo–1V (TA15) components fabricated via laser powder bed fusion (L-PBF) exhibit high strength and low ductility. Herein, we report a novel approach to enhance the comprehensive mechanical properties of L-PBF TA15 alloy by adjusting the laser power. Samples processed using the optimal laser power exhibit a grid structure of alternating wide and narrow prior-β grains (PBGs), the inside of which is composed of a fully martensitic microstructure. The paper discusses in detail the alterations in the microstructure of samples processed at both low and high laser powers, clarifying the relationship between microstructure and mechanical properties. Thinner martensite contributes to higher strength, while a homogenous microstructure improves ductility. These findings provide valuable insights for controlling microstructure and achieving strength-ductility synergy in L-PBF additive manufacturing of titanium alloys.
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