Effect of Strain Rate on Microstructure and Mechanical Properties of TC18 Thick Plate by Electron Beam Welding

IF 0.6 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
Han Wen , Fu Li , Chen Haiyan
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引用次数: 2

Abstract

Influence of the strain rate on microstructures, tensile properties and strain hardening behavior of the electron beam welded joint of TC18 titanium alloy under optimized welding parameters was investigated with three slices (top, middle and bottom). The results show that the welding leads to significant microstructural changes across the joint. The microstructure of fusion zone is composed of coarsened β phase and secondary α-phase. Compared with the base metal, the joint slices along the thickness exhibits a lower strength and plasticity but a further higher hardening capacity. The strength and ductility of the bottom slices are higher than those of the middle and top slices. The maximum yield strength and ultimate tensile strength of the welding slices reach 83% of those of the base metal at the strain rate of 1×10−2 s−1 . The hardening capacity of welding slices decreases with increasing of the strain rate. Tensile fracture occurs in the weld zone. The fracture process of the top slice is cleavage fracture. However, the middle and bottom slices are quasi-cleavage crack.

应变速率对TC18厚板电子束焊接组织和力学性能的影响
研究了优化焊接参数下应变速率对TC18钛合金电子束焊接接头显微组织、拉伸性能和应变硬化行为的影响。结果表明,焊接导致了接头的显微组织发生了显著变化。熔合区组织由粗化的β相和次生α-相组成。与母材相比,接头片沿厚度方向的强度和塑性较低,但硬化能力较高。底部薄片的强度和延性高于中间和顶部薄片。当应变速率为1×10−2 s−1时,焊接片的最大屈服强度和极限抗拉强度达到母材的83%。焊接片的硬化能力随应变速率的增大而降低。焊接区发生拉伸断裂。顶片断裂过程为解理断裂。而中间和底部切片为准解理裂纹。
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来源期刊
稀有金属材料与工程
稀有金属材料与工程 工程技术-材料科学:综合
CiteScore
1.30
自引率
57.10%
发文量
17973
审稿时长
4.2 months
期刊介绍:
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