姓名:闫飞
出生年月:1984年9月
职称:副教授,硕导
邮箱:fyan001@whut.edu.cn
研究方向:汽车轻量化技术;激光焊接与增材制造技术
教育背景
2011.09-2015.06 华中科技大学 材料加工工程 博士
2007.09-2010.05 合肥工业大学 材料加工工程 硕士
2003.09-2007.06 河南科技大学 材料成型与控制工程 本科
学术/工作经历
2024.10-至今 武汉理工大学汽车工程学院 副教授、硕导
2016.3-2024.9武汉理工大学汽车工程学院 讲师、硕导
2015.7-2016.2中国科学院合肥物质研究院 助理研究员
2010.7-2011.8安徽柳工起重机有限公司 设计员
项目情况
主要从事激光加工技术研究,主持国家自然科学基金(面上)1项,湖北省自科基金2项,国家重点实验室开放基金2项以及多项企业合作课题。另外,参与国家自科基金、国家重点研发项目等纵/横向课题多项。
[1] 国家自然科学基金面上项目,基于能-质时空协控的钛合金激光-磁场复合深熔焊接头成形机理与性能研究, 2024.01-2027.12项目负责人
[2]湖北省自然科学基金,基于磁控冶金的钛铝合金激光选区熔化增材制造技术基础研究, 2022.12-2024.11项目负责人
[3]企业合作项目,《无痕中空滤棒稳态成型技术的研究》包1(成型机理研究),2022.8-2023.12,项目负责人
[4]湖北省自然科学基金,磁场辅助铝/钢异种材料激光熔钎焊界面过渡层反应机理与调控研究, 2019.01-2020.12 项目负责人
[5]宿迁市宿城区重点研发项目,铜钢异种合金摆动激光焊接成形机理研究, 2019.11-2020.10 项目负责人
[6]国家重点实验室开放基金,稀土元素作用下钢/铝异种合金接头强化机理与方法, 2017.01-2018.12 项目负责人
代表性学术成果
以一作或通讯作者在中国激光、焊接学报、mater charact、j mater process technol、 mater sci eng a、j mater res technol、opt laser technol等国内外重要期刊上发表学术论文40余篇。申请/授权发明专利多项。
[1]yan f, zhang m, chen h, et al. morphology, microstructure and mechanical property of laser brazing of galvanized steel in a flange butted configuration. optics & laser technology, 2024, 177: 111202.
[2] li f, ding j, yan f*, et al. investigation of laser beam welding on lap joints of al/steel dissimilar materials subjected to alternating magnetic field. optik, 2023: 170372.
[3]yan f, qin y, tang b, et al. effects of beam oscillation on microstructural characteristics and mechanical properties in laser welded steel-copper joints. optics & laser technology, 2022, 148: 107739.
[4] hu c, yan f*, xu y, et al. effect of alternating magnetic field on microstructure and performance for dissimilar welding-brazing of galvanized steel to 6061 aluminum alloy in an overlapping configuration. optics & laser technology, 2022, 155: 108423.
[5]闫飞*,周一凡,唐本刊,等.基于磁控冶金的铝/钢异种金属焊接特性.焊接学报, 2022, 43(5): 98-103.
[6]张良,闫飞*. gh909合金激光焊接接头的微观组织特征.中国激光, 2022, 49(8): 0802004.
[7]yan f, zhang k, yang b, et al. interface characteristics and reaction mechanism of steel/al welds produced by magnetic field assisted laser welding-brazing. optics & laser technology, 2021, 138: 106843.
[8] hu c, yan f*, zhu z, et al. effects on microstructural refinement of mechanical properties in steel‑copper joints laser welded with alternating magnetic field augmentation. materials characterization, 2021, 175: 111059.
[9]yan f, luo y, wang c. a study of multi-layer multi-pass laser depositing with 316l stainless steel wire[j]. journal of mechanical science and technology, 2021, 35(4): 1681-1687.
[10] li j, cai y, yan f*, et al. porosity and liquation cracking of dissimilar nd: yag laser welding of sus304 stainless steel to t2 copper. optics and laser technology, 2020, 122: 105881.
[11]yan f, wang x, chai f, et al. improvement of microstructure and performance for steel/al welds produced by magnetic field assisted laser welding. optics and laser technology, 2019, 113: 164-170.
[12]yan f, fang x, chen l, et al. microstructure evolution and phase transition at the interface of steel/al dissimilar alloys during nd: yag laser welding. optics and laser technology, 2018, 108: 193-201.
[13]yan f, liu s, hu c, et al. liquation cracking behavior and control in the heat affected zone of gh909 alloy during nd: yag laser welding. journal of materials processing technology, 2017, 244: 44-50.
[14]yan f, hu c, zhang x, et al. influence of heat input on haz liquation cracking in laser welded gh909 alloy. optics and laser technology, 2017, 92: 44-51.
[15] zhao j, …, zhou m, yan f*. the effect of alpha phase on flow softening and deformation of ti–10v–2fe–3al. materials science and technology, 2017, 33(16): 1993-2003.
[16]yan f, li r, li j, et al. the effect of aging heat treatment on microstructure and mechanical properties of laser welded joints of alloy gh909. materials science and engineering: a, 2014, 598: 62-67.
[17]yan f, gu y, wang y, et al. study on the interaction mechanism between laser and rock during perforation. optics and laser technology, 2013, 54: 303-308.
[18]yan f, wang g, wang c, et al. microstructures and properties of laser welding joint of super-eutectic za alloy. materials & design, 2013, 43: 25-30.
[19]yan f, wang c, wang y, et al. a study of the mechanism of laser welding defects in low thermal expansion superalloy gh909. materials characterization, 2013, 78: 21-30.
招生专业
机械工程(含车辆工程、汽车电子工程、汽车运用工程)
车辆工程(专业型)
动力工程及工程热物理