Microstructure Evolution and Dynamic Mechanical Properties of Laser Additive Manufacturing Ti-6Al-4V Under High Strain Rate

Q4 Engineering Journal of Beijing Institute of Technology (English Edition) Pub Date : 2020-12-30 DOI:10.15918/J.JBIT1004-0579.20064

Tao Wang, Lei Zhu, Changhong Wang, Ming-Yue Liu, Wang Ning, Lingchao Qin, Wang Hao, Jianbo Lei, Jie Tang, Jun Wu

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引用次数: 1

Abstract

The dynamic mechanical properties of the Ti-6Al-4V (TC4) alloy prepared by laser additive manufacturing (LAM-TC4) under the high strain rate (HSR) are proposed. The dynamic compression experiments of LAM-TC4 are conducted with the split Hopkinson pressure bar (SHPB) equipment. The results show that as the strain rate increases, the widths of the adiabatic shear band (ASB), the micro-hardness, the degree of grain refinement near the ASB, and the dislocation density of grains grow gradually. Moreover, the increase of dislocation density of grains is the root factor in enhancing the yield strength of LAM-TC4. Meanwhile, the heat produced from the distortion and dislocations of grains promotes the heat softening effect favorable for the recrystallization of grains, resulting in the grain refinement of ASB. Furthermore, the contrastive analysis between LAM-TC4 and TC4 prepared by forging (F-TC4) indicates that under the HSR, the yield strength of LAM-TC4 is higher than that of F-TC4.

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高应变速率下激光增材制造Ti-6Al-4V的组织演变及动态力学性能

研究了激光增材制造Ti-6Al-4V (TC4)合金(LAM-TC4)在高应变速率下的动态力学性能。采用分离式霍普金森压杆(SHPB)设备对LAM-TC4进行了动态压缩实验。结果表明:随着应变速率的增大，绝热剪切带宽度、显微硬度、绝热剪切带附近晶粒细化程度和晶粒位错密度逐渐增大;晶粒位错密度的增加是LAM-TC4屈服强度提高的根本因素。同时，晶粒变形和位错产生的热量促进了有利于晶粒再结晶的热软化作用，使ASB的晶粒细化。此外，LAM-TC4与锻制TC4 (F-TC4)的对比分析表明，在高温下，LAM-TC4的屈服强度高于F-TC4。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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