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王林，男，1990年12月生，山東肥城人，中共黨員，工學(xué)博士，副教授。主要研究領(lǐng)域為焊接過(guò)程檢測/控制及數值模擬，如高速電弧焊接、等離子弧焊接、異種材料焊接與連接，電弧增材制造/3D打印等方面的工藝優(yōu)化及改型、視覺(jué)檢測、數值分析等。
教育/工作經(jīng)歷：
2021.12-至今，中國礦業(yè)大學(xué)，材料與物理學(xué)院，副教授
2018.10-2021.12，山東大學(xué)，材料科學(xué)與工程學(xué)院，博士后
2013.09-2018.07，山東大學(xué)，材料科學(xué)與工程專(zhuān)業(yè)，博士
2009.09-2013.07，山東大學(xué)，材料成型及控制工程專(zhuān)業(yè)，本科
主持及參與的科研項目：
1)  國家自然科學(xué)基金青年項目，鋁合金/鍍鋅鋼磁控脈沖MIG熔釬焊熱源及熔池行為調控機理的研究，主持。
2)  中國博士后科學(xué)基金面上項目，外加磁場(chǎng)輔助鋁合金/鍍鋅鋼脈沖MIG熔釬焊工藝研究，主持。
3)  國家自然科學(xué)基金面上項目，高速GMAW熔池流態(tài)的復合磁場(chǎng)調控及焊縫成形缺陷抑制機理的研究，參與。
4)  國家自然科學(xué)基金面上項目，高速GMAW熔池流態(tài)調控與駝峰焊道抑制機理的研究，參與。
5)  國家自然科學(xué)基金面上項目，超聲復合等離子弧的熱-力特性及其對熔池穿孔行為的影響機制，參與。
6)   山東省自然科學(xué)基金重大基礎研究資助項目，基于熔池三維形態(tài)測控的GMAW高速焊接成形新工藝關(guān)鍵問(wèn)題研究，參與。
代表性論文：
[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, 武傳松, 楊豐兆, 高進(jìn)強. 外加磁場(chǎng)對高速 GMAW 電弧和熔池行為的主動(dòng)調控效應. 機械工程學(xué)報, 2016, 52(2): 1-6. (EI)
[13] 王林, 高進(jìn)強, 李琰. 抑制高速 GMAW 駝峰焊道的外加磁場(chǎng)數值分析. 焊接學(xué)報, 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)