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魏海莲

发布日期:2024-08-23 作者: 来源: 点击:

姓名:魏海莲

所在系所:金属材料系

职称:讲师/博士

邮箱:whl0403@126.com

课题组主页:

教育背景

2006-2010年 安徽工业大学获工学学士学位

2010-2015 北京科技大学获工学博士学位

工作履历

2015年至今 安徽工业大学材料科学与工程学院

讲授课程

《材料力学性能》金属材料热处理》、《金属材料热处理课程设计》等课程。

研究领域

高性能钢铁材料设计及工艺优化

钢铁材料的热变形行为

材料基因工程与机器学习、数值模拟

学术成果

主持国家自然科学青年基金项目1项、安徽省自然科学青年基金项目1项,参与国家自然科学基金项目3项,获北京科技大学优秀博士学位论文荣誉称号

代表性论文

以第一作者在Steel Research InternationalIronmaking & SteelmakingMaterials Science and Engineering AMaterials and Design金属学报等国内期刊上发表学术论文17篇。

[1] Hailian Wei, Yong Cai, Haodong Peng, et al. Investigation of the hot deformation behavior of 22Cr-25Ni austenitic Heat-Resistant steel by combining constitutive model and processing map. Steel Research International, 2024, 2400015.

[2] Hailian Wei, Shuai Li, Xiaoju Deng, et al. Influence of carbon on thermal deformation behaviour and deformation/diffusion mechanism of V-microalloyed steel by physical constitutive analysis, Ironmaking & Steelmaking, 2024, 51(1): 90-103.

[3] 魏海莲, 邓笑举, 蔡勇, . 新型 Fe-22Cr-25Ni 奥氏体耐热钢的热变形和动态再结晶行为. 锻压技术, 2024, 49(6):233-244.

[4] Hailian Wei, Xiaoju Deng, Shuangshuang Chen, et al. Study on hot flow behaviors and deformation/diffusion mechanisms of V and V‐Ti microalloyed steels by physical constitutive modelling, Steel Research International, 2023, 94(7): 2200847.

[5] Hailian Wei, Xiaoju Deng, Hongwei Zhou, et al. A comparative study on hot deformation behaviors of niobium microalloyed low carbon and medium carbon steels by physical constitutive analysis. Steel Research International, 2022, 93(9): 2100784 .

[6] Hailian Wei, Hongbo Pan, Hongwei Zhou. Physical and Apparent Arrhenius Constitutive models of a Nb–Ti Microalloyed C–Mn–Al High Strength Steel: A Comparative Study. Transactions of the Indian Institute of Metals, 2022, 75(2): 327-336 .

[7] 魏海莲, 周红伟, 潘红波. 微合金化高强钢的热变形行为及物理本构方程研究. 锻压技术, 2022, 47(5): 220-228.

[8] 魏海莲,邓笑举,潘红波, . 基于蠕变理论的钒和铌微合金化中碳钢的物理本构方程. 塑性工程学报, 2022, 29(9): 207-215.

[9] Hailian Wei, Guoquan Liu, Xiang Xiao, et al. Dynamic recrystallization behavior of a medium carbon vanadium microalloyed steel. Materials Science and Engineering A, 2013, 573: 215-221.

[10] Hailian Wei, Guoquan Liu. Effect of Nb and C on the hot flow behavior of Nb microalloyed steels. Materials and Design, 2014, 56: 437-444.

[11] Hailian Wei, Guoquan Liu, Haitao Zhao, et al. Effect of carbon content on hot deformation behaviors of vanadium microalloyed steels. Materials Science and Engineering A, 2014, 596: 112-120.

[12] Hailian Wei, Guoquan Liu, Minghe Zhang. Physically based constitutive analysis to predict flow stress of medium carbon and vanadium microalloyed steels. Materials Science and Engineering A, 2014, 602: 127-133.

[13] Hailian Wei, Guoquan Liu, Xiang Xiao, et al.Characterization of hot deformation behavior of a new microalloyed C-Mn-Al high-strength steel. Materials Science and Engineering A, 2013,564:140-146.

[14] Hailian Wei, Guoquan Liu, Haitao Zhao, et al. Hot deformation behavior of two C-Mn-Si based and C-Mn-Al based microalloyed high-strength steels: a comparative study. Materials and Design, 2013, 50: 484-490.

[15] 魏海莲,刘国权,肖翔,.表观的和基于物理的35Mn2钢奥氏体热变形本构分析.金属学报, 2013, 49: 731-738.

[16] 魏海莲,刘国权.基于本构分析的中碳钒微合金钢热变形行为.材料科学与工艺, 2014, 22(3): 62-68.

[17] 魏海莲,刘国权,肖翔,.新型微合金化C-Mn-Al高强度钢的热变形行为.北京科技大学学报, 2014, 36(1): 49-56.