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  • 副教授 博士生导师 硕士生导师
  • 入职时间:2015-09-08
  • 所在单位:材料科学与工程学院
  • 学历:博士研究生毕业
  • 办公地点:校本部化学楼120
  • 性别:
  • 联系方式:yonghao.gao@outlook.com
  • 学位:博士学位
  • 在职信息:在职
  • 毕业院校:University of Sheffield
论文成果
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Bulk nanocrystalline high-strength magnesium alloys prepared via rotary swaging
  • 点击次数:
  • 影响因子:8.203
  • DOI码:10.1016/j.actamat.2020.09.024
  • 发表刊物:Acta Materialia
  • 摘要:Being lightweight, energy-efficient and environmentally benign, magnesium alloys present great potential for various industrial applications. However, they possess relatively low mechanical properties and need to be strengthened. During the last decade, significant effort has been directed towards preparation of strong nanocrystalline (NC) Mg alloys, although because of the limited plasticity inherent to HCP metals, the grain size of Mg was rarely refined below 1000 nm and the yield strength seldom exceeded 500 MPa. Here, by means of a conventional industrial method of rotary swaging, we prepared bulk NC Mg-Gd-Y-Zr alloys with an average grain size of 80 nm and a dimension of 03 mm x 1000 mm. The further-aged NC Mg alloy exhibits the yield strength of 650 MPa and the ultimate tensile strength of 710 MPa, the highest such values published for bulk Mg alloys. Fracture surface observation suggested a ductile intergranular fracture in the NC Mg alloys. The high strength are attributed to nano-grain, intra-granular Gd rich clustering, inter-granular solutes segregation, 13, precipitation, dislocation and solution strengthening contributions, among which the nano-grain strengthening is dominant. The nano-grain formation results from the large number of mechanical twins, deformation bands and stacking faults induced by the high strain rate of swaging. Our work advances the industrial-scale production of bulk NC Mg alloys by exploring a simple and low-cost fabrication technique.
  • 合写作者:Xueyi Guo, Zhiyong Chen, Shunong Jiang, Ningning Liang, Bo Zhang, Gang Sha, Lingling Tang, Yonghao Gao, Bei Tang
  • 第一作者:Yingchun Wan
  • 论文类型:期刊论文
  • 通讯作者:Yonghao Zhao, Chuming Liu
  • 论文编号:WOS:000580631600024
  • 学科门类:工学
  • 一级学科:材料科学与工程
  • 文献类型:J
  • 卷号:200
  • 页面范围:274-286
  • ISSN号:1359-6454
  • 是否译文:
  • 发表时间:2020-11-01
  • 收录刊物:SCI、EI