王林,男,1990年12月生,山东肥城人,中共党员,工学博士,副教授。主要研究领域为焊接过程检测/控制及数值模拟,如高速电弧焊接、等离子弧焊接、异种材料焊接与连接,电弧增材制造/3d打印等方面的工艺优化及改型、视觉检测、数值分析等。
教育/工作经历:
2021.12-至今, 中国矿业大学,材料与物理学院,副教授
2018.10-2021.12,山东大学,材料科学与工程学院,博士后
2013.09-2018.07,山东大学,材料科学与工程专业,博士
2009.09-2013.07,山东大学,材料成型及控制工程专业,本科
主持及参与的科研项目:
1) 国家自然科学基金青年项目,铝合金/镀锌钢磁控脉冲mig熔钎焊热源及熔池行为调控机理的研究,主持。
2) 中国博士后科学基金面上项目,外加磁场辅助铝合金/镀锌钢脉冲mig熔钎焊工艺研究,主持。
3) 国家自然科学基金面上项目,高速gmaw熔池流态的复合磁场调控及焊缝成形缺陷抑制机理的研究,参与。
4) 国家自然科学基金面上项目,高速gmaw熔池流态调控与驼峰焊道抑制机理的研究,参与。
5) 国家自然科学基金面上项目,超声复合等离子弧的热-力特性及其对熔池穿孔行为的影响机制,参与。
6) 山东省自然科学基金重大基础研究资助项目,基于熔池三维形态测控的gmaw高速焊接成形新工艺关键问题研究,参与。
代表性论文:
[1] wang l, chen j, wu c s. auxiliary energy-assisted arc welding processes and their modelling, sensing and control. science and technology of welding and joining, 2021, 26(5): 389-411. (sci)
[2] wang l, chen j, zhang s, wu c s. numerical simulation of coupled arc-droplet-weld pool behaviors during compound magnetic field assisted gas metal arc welding. aip advances, 2021, 11(6):65221. (sci)
[3] wang l, chen j, wu c s, et al. numerical analysis of arc and droplet behaviors in gas metal arc welding with external compound magnetic field. journal of materials processing technology, 2020, 282:116638. (sci)
[4] wang l, wu c, chen j, et al. experimental measurement of fluid flow in high-speed gmaw assisted by transverse magnetic field. journal of manufacturing processes, 2020, 56: 1193-1200. (sci)
[5] wang l, chen j, wu c s. numerical investigation on the effect of process parameters on arc and metal transfer in magnetically controlled gas metal arc welding. vacuum, 2020, 177:109391. (sci)
[6] wang l, zhang, c. wu c s. experimental study on controlled pulse keyholing plasma arc welding assisted by ultrasonic vibration. the international journal of advanced manufacturing technology, 2020, 107: 4995–5009. (sci)
[7] wang l, chen j, jiang c l, et al. numerical simulations of arc plasma under external magnetic field-assisted gas metal arc welding. aip advances, 2020, 10(6): 065030. (sci)
[8] wang l, chen j, fan x h, wu c s. influence of fluid flow on humping bead during high-speed gmaw. welding journal, 2019, 98 (11)315s-327s. (sci)
[9] wang l, wu c s, chen j, gao j q. influence of the external magnetic field on fluid flow, temperature profile and humping bead in high speed gas metal arc welding. international journal of heat and mass transfer, 2018, 116: 1282-1291. (sci)
[10] wang l, chen j, wu c s, gao j q. backward flowing molten metal in weld pool and its influence on humping bead in high-speed gmaw.journal of materials processing technology, 2016, 237: 342-350. (sci)
[11] wang l, wu c s, gao j q. suppression of humping bead in high speed gmaw with external magnetic field. science and technology of welding and joining, 2016, 21(2): 131-139. (sci)
[12] 王林, 武传松, 杨丰兆, 高进强. 外加磁场对高速 gmaw 电弧和熔池行为的主动调控效应. 机械工程学报, 2016, 52(2): 1-6. (ei)
[13] 王林, 高进强, 李琰. 抑制高速 gmaw 驼峰焊道的外加磁场数值分析. 焊接学报, 2016 (11): 109-112. (ei)
[14] wu c s, wang l, ren w j, et al. plasma arc welding: process, sensing, control and modeling. journal of manufacturing processes, 2014, 16(1): 74-85. (sci)
[15] tian s, wang l, wu cs, et al. influence of ultrasonic vibration on keyholing penetrating capability in plasma arc welding with controlled pulse waveform. welding in the world, 2021. (sci)
[16] chen j, han z, wang l, wu c s. influence of arc interactions on heat and mass transfer during a two-arc hybrid welding. international journal of heat and mass transfer, 2019, 148:119058. (sci)
凯发ag旗舰厅的联系方式:
地址:江苏省徐州市大学路1号,中国矿业大学南湖校区,材料与物理学院
邮箱:; sduwanglin@163.com
电话:18764039178 (微信)
