| 姓名 | 毛文奇 | 性别 | 男 |
出生年月 | 1993年3月 | 政治面貌 | 群众 | |
职称 | 副教授 | 职务 | 无 | |
办公电话 | 无 | |||
主要研究方向
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所在团队情况 王强教授团队(冶金与材料过程外场控制),材料电磁过程研究教育部重点实验室 | ||||
学习经历 2018 – 2021: 京都大学, 材料科学与工程专业, 博士 2016 – 2018: 京都大学, 材料科学与工程专业, 硕士 2011 – 2015: 浙江大学, 材料科学与工程专业, 学士 | ||||
工作经历 2021–2024:日本原子能研究开发机构,物质和生命科学实验设施,博士后研究员 2024–至今:东北大学,冶金学院,副教授 | ||||
讲授课程 | ||||
人才培养情况 每年计划招2-3名研究生,欢迎材料、冶金的学生报考硕士研究生。 | ||||
科研项目 | ||||
论文及著作 在Acta Materialia、Journal of Materials Science & Technology、Scripta Materialia等领域内权威期刊发表学术论文16篇。 相关代表性论文(*为通讯作者): [1]W Mao, S Gao, W Gong, et al. Quantitatively evaluating respective contribution of austenite and deformation-induced martensite to flow stress, plastic strain, and strain hardening rate in tensile deformed, Acta Materialia, 2023, 256: 119139 [2]W Mao, W Gong, et al. In situ neutron diffraction revealing the achievement of excellent combination of strength and ductility in metastable austenitic steel by grain refinement. Journal of Materials Science & Technology, 2023, 176: 69-82 [3]W Mao, S Gao, W Gong, et al. Quantitatively evaluating the huge Lüders band deformation in an ultrafine grain stainless steel by combining in situ neutron diffraction and digital image correlation analysis. Scripta Materialia, 2023, 235:115642 [4]W Mao, S Gao, Y Bai, et al. Effective grain size refinement of an Fe-24Ni-0.3 C metastable austenitic steel by a modified two-step cold rolling and annealing process utilizing the deformation-induced martensitic transformation and its reverse transformation. Journal of Materials Research and Technology, 2022, 17: 2690-2700. [5]W Mao, W Gong, T Kawasaki, et al. Effect of deformation-induced martensitic transformation on nonuniform deformation of metastable austenitic steel. Materials Science and Engineering: A, 2022, 837: 142758. [6]B Zhang, S Xin, M Huang, W Mao *, et al. Grain size independence of cryogenic strain recovery behavior in high-Zr β-Ti alloy. Materials Science and Engineering: A, 2024, 890:145898 [7]N Tsuji, S Ogata, H Inui, I Tanaka, S Gao, W Mao, et al. Strategy for managing both high strength and large ductility in structural materials–sequential nucleation of different deformation modes based on a concept of plaston. Scripta Materialia, 2020, 181: 35-42. [8]B Guo, W Mao, Y Chong, et al. Unexpected dynamic transformation from α phase to β phase in zirconium alloy revealed by in-situ neutron diffraction during high temperature deformation. Acta Materialia, 2023, 242: 118427. [9]B Zhang, M Huang, Y Chong, W Mao, et al. Achieving large super-elasticity through changing relative easiness of deformation modes in Ti-Nb-Mo alloy by ultra-grain refinement. Materials Research Letters, 2021, 9(5): 223-230. [10] S Hwang, M Park, Y Bai, A Shibata, W Mao, et al. Mesoscopic nature of serration behavior in high-Mn austenitic steel. Acta Materialia, 2021, 205: 116543. | ||||
获奖情况 | ||||
社会兼职 | ||||
个人寄语 昔言求是,实启尔求真。 | ||||
