康慧君

(教授)

 博士生导师  硕士生导师
学位:博士
性别:男
毕业院校:哈尔滨工业大学
所在单位:材料科学与工程学院
电子邮箱:kanghuijun@dlut.edu.cn

论文成果

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Role of layered structure in ductility improvement of layered Ti-Al metal composite

发表时间:2019-03-12 点击次数:

论文名称:Role of layered structure in ductility improvement of layered Ti-Al metal composite
论文类型:期刊论文
发表刊物:ACTA MATERIALIA
收录刊物:SCIE
卷号:153
页面范围:235-249
ISSN号:1359-6454
关键字:Layered structure; Plastic deformation; Strain partitioning; Crack propagation
摘要:Layered Ti-Al metal composite (LMC) was designed and fabricated by hot-rolling and annealing of pure Ti and Al sheets. The as-prepared composite exhibits high tensile ductility, being superior to any individual Ti or Al sheets. The stress/strain evolution and fracture behavior of the LMC were analyzed by in-situ observations during the tensile deformation. Three deformation stages of LMC were clearly observed by neutron diffraction: elastic stage, elastic-plastic stage and plastic stage. It is found that stress partitioning at the elastic-plastic deformation stage improves the strain balance of LMC, but leads to an internal stress accumulated at the interface. Additionally, a strain-transfer from Ti to adjacent Al layers relieves the strain localization of Ti layers in LMC, which improves the ductility of Ti. Both stress partitioning and strain localization of Ti layers facilitate the nucleation of cracks at a low macro strain. However, the crack propagation is constrained by layered structure. In terms of the Al layers, the constrained micro-cracks relieve the stress concentration in Al layer and improve the ductility of Al layers, so that cracking indirectly affects the plastic deformation behavior of LMC, then improving its entire ductility. This work provides a new structural strategy towards simultaneously improving strength and ductility to develop high performance LMC by structural design. (C) 2018 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
发表时间:2018-07-01