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谢敏 工学博士学位

职称: 邮箱:xiemin1018@163.com 研究方向:金属增材制造 导师类型:
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谢敏,女,1993.10,籍贯安徽蚌埠,2021年7月硕博连读毕业于天津工业大学材料科学与工程学院;2021年9月-2023年11月博士后就职于上海交通大学材料科学与工程学院;2023年12月入职杭州电子科技大学材料与环境工程学院。长三角钢铁产业发展协会全国增材制造专家委员会青年专家组委员,2016年以来发表SCI论文19篇,相关研究成果发表在Journal of Materials Science and Technology、Journal of Materials Research and Technology、Journal of Alloys and Compounds、中国激光等国内外权威期刊上,获授权中国发明专利3项。

2016年7月本科毕业于安徽工业大学工商学院;2021年7月硕博连读毕业于天津工业大学材料科学与工程学院

2021.09-2023.11:上海交通大学 材料科学与工程学院 博士后

2023.12-至今:杭州电子科技大学 材料与环境工程学院 特聘副教授


金属基复合材料;磁性功能材料;激光增材制造;激光表面强化


纵向科研
横向科研
论文
[1].  Xie M, Fei Li, et al. (2023). Effect of laser energy density on microstructure and properties Cu-Fe-P immiscible alloys fabricated by laser selective melting: Heterogeneous and high strength and magnetic. Journal of Materials Research and Technology. 2023, 26: 2759-2969. (IF=6.4)
[2]. Xie M, Zhou S F,et al. (2022). Selective laser melting of bulk immiscible alloy with enhanced strength: Heterogeneous microstructure and deformation mechanisms, Journal of Materials Science and Technology, 104: 81-87. (IF=10.319)
[3]. Xie M, Li F, et al. (2022). Effect of Si element and TiB2 nucleating agent on microstructure and magnetic properties of Cu-based immiscible composites by laser melting deposition,Journal of Alloys and Compounds, 934: 167938. (IF=6.371)
[4]. Xie M, et al. (2022). Graphene nanoplatelets reinforced NiCu composite manufactured by laser melting deposition, Journal of Alloys and Compounds, 929: 167261. (IF=6.371)
[5]. Xie M, Zhou S F, et al. (2021). TiB2- and Fe2P with nanotwins-reinforced Cu-based immiscible composites fabricated by selective laser melting: Formation mechanism and wear behavior. Journal of Alloys and Compounds, 864: 158716. (IF=6.371)
[6]. Xie M, Zhou S F, et al. (2020). In-situ Fe2P reinforced bulk Cu-Fe immiscible alloy with nanotwinned Cu produced by selective laser melting. Journal of Alloys and Compounds, 838: 155592.(IF=6.371)
[7]. Xie M, Zhou S F., et al. (2020). Microstructure and properties of homogeneous Cu90Fe10 immiscible composites with nanotwins by laser powder deposition: Effect of spot size. Journal of Alloys and Compounds, 821: 153231. (IF=6.371)
[8]. Xie M, Zhou S F, et al. (2019). Enhanced corrosion resistance of Kirkendall-effect-induced hollow Fep-reinforced Cu-matrix immiscible alloys by laser powder deposition. Journal of Alloys and Compounds 779: 280-285. (IF=6.371)
[9]. Xie M, Dai X Q,  Zhou S F, et al. (2018). Formation mechanism and improved properties of Cu95Fe5 homogeneous immiscible composite coating by the combination of mechanical alloying and laser cladding. Journal of Alloys and Compounds, 740: 194-202. (IF=6.371)
[10].谢敏, 周圣丰, 等. (2019). 综论偏晶合金的制备技术: 外场下凝固、快速凝固及激光技术. 材料导报, 33 (2): 490-499. (IF=0.537)
[11].谢敏, 周圣丰, 等. (2018). 激光熔覆自组装Cu92Fe8偏晶复合涂层的相分离特征与性能. 中国激光,  45 (7): 0702010. (IF=1.963)
]12].Dai X Q, Xie M, Zhou S F, et al. (2018). Formation and properties of a self-assembled Cu-Fe-Ni-Cr-Si immiscible composite by laser induction hybrid cladding. Journal of Alloys and Compounds, 742: 910-917. (IF=6.371)
[13].Zhou S F, Dai X Q, Xie M, et al. (2018). Phase separation and properties of Cu-Fe-Cr-Si-C immiscible nanocomposite by laser induction hybrid cladding. Journal of Alloys and Compounds, 741: 482-488. (IF=6.371)
[14].Zhao S Z, Zhou S F, Xie M, et al. (2019). Phase separation and enhanced wear resistance of Cu88Fe12 immiscible coating prepared by laser cladding. Journal of Materials Research and Technology 8 (2): 2001-2010. (IF=5.954)


著作
[1]. 周圣丰,戴晓琴,谢敏. (2019) 一种激光选区熔化成形中空富铁颗粒增强铜基偏晶合金的方法. CN 108080636 B. (授权)
[2]. 周圣丰,戴晓琴,谢敏. (2019) 一种激光选区熔化成形大尺寸高性能偏晶合金的方法. CN 107900341 B. (授权)
[3]. 周圣丰,谢敏,王小健. (2019) 一种激光选区熔化成形块体纳米孪晶铜基复合材料的方法. 201910670548.X. (授权)


[1]. 2021.03:天津工业大学“校级优秀毕业生”
[2]. 2020.12:天津市“市级优秀学生”
[3]. 2020.12:博士“国家奖学金”


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