北航计算机砀山人,从保强 Baoqiang CONG

主持及参与科研项目：

国防科技创新特区项目; XXXX电弧增材电源及工艺成形控制方法;项目负责人; 2019.03-2020.06

北京市自然基金项目(3182020);超音频双脉冲调制VPTIG电弧及熔池动态行为;项目负责人; 2018.01-2019.12

中国焊接学会焊接创新平台项目;中厚板铝合金非约束变极性TIG电弧小孔深熔焊接技术;项目负责人; 2019.11-2021.10

先进焊接与连接国家重点实验室开放课题;铝合金中厚板小孔深熔焊接技术;项目负责人; 2018.01-2019.12

主持本科教改项目：

热制造课程群实验教学内容设计(校级重点教改项目；2016-2018)

《热制造科学与工程》课程群教学团队(“凡舟”课程教学团队资助项目；2017-2019)

基于电弧熔丝增材制造的多学科融合研究型教学实验改革(校级重点教改项目；2019—)

近5年代表性学术论文：

[1]  R.J. Ouyang, B.Q. Cong, M.X. Yang, B.J. Qi. Effect of pulse frequency  on hardness characteristics of Al-Cu alloy HPVP-GTAW welds. China  Welding, 2015, 24(1): 62-67

[2] Cong  Baoqiang, Ding Jialuo, Stewart Williams. Effect of arc mode in cold metal  transfer process on porosity of additively manufactured Al-6.3%Cu alloy. International  Journal of Advanced Manufacturing Technology, 2015, 76(9-12):  1593-1606(ESI高被引论文/前沿论文)

[3] Cong  Baoqiang, Ouyang Ruijie, Qi Bojin, Ding Jialuo. Influence of cold metal  transfer process and its heat input on weld bead geometry and porosity of  aluminum-copper welds. Rare Metals Materials and Engineering,  2016, 45(3): 0606-0611

[4]从保强,孙红叶,齐铂金,等.Al-6.3Cu AC-GTAW电弧增材成形的气孔控制.稀有金属材料与工程, 2017,46(5): 1359-1364

[5]孙红叶,从保强,祁泽武,等.铝合金双丝VP-GTAW增材构件组织和性能.稀有金属材料与工程, 2017,46(8): 2203-2207

[6] Baoqiang  Cong, Zewu Qi, Bojin Qi , Hongye Sun, Gang Zhao, Jialuo Ding. A  comparative study of additive manufactured thin wall and block structure with  Al-6.3%Cu alloy using cold metal transfer process. Applied  Sciences-Basel, 2017, 7(3): 275

[7] Yipeng  Wang, Bojin Qi, Baoqiang Cong, Mingxuan Yang. Optimization of hybrid  ultrasonic frequency pulsed VP-GTAW process parameters on tensile properties  of AA 5456 alloy. Applied Sciences-Basel, 2017, 7(5): 485

[8] Yipeng  Wang, Bojin Qi, Baoqiang Cong, et al.Arc characteristics in double-pulsed  VP-GTAW for aluminum alloy.Journal of Materials  Processing Technology, 2017,249: 89-95

[9] Qiang Wang, Bojin Qi, Baoqiang Cong,  Mingxuan Yang.Output characteristic and arc length control of pulsed gas metal arc welding process.  Journal of Manufacturing Processes, 2017: 29:  427-437

[10] Zewu Qi , Baoqiang Cong,  Bojin Qi, et al. Microstructure and mechanical properties of double-wire +  arc additively manufactured Al-Cu-Mg alloys. Journal of Materials  Processing Technology, 2018, 255: 347-353

[11] Wang Yipeng, Qi Bojin, Cong  Baoqiang, Zhu Mingjie, Lin Sanbao. Keyhole welding of AA2219 aluminum  alloy with double-pulsed variable polarity gas tungsten arc welding, Journal  of Manufacturing Processes, 2018, 34: 179-186

[12] Wang Yipeng, Cong Baoqiang,  Qi Bojin, Yang Mingxuan, Lin Sanbao. Process characteristics and properties  of AA2219 aluminum alloy welded by double pulsed VPTIG welding, Journal  of Materials Processing Technology, 2019, 266: 255-263

[13] Qi Z, Qi B, Cong B, Zhang R.  Microstructure and mechanical properties of wire plus arc additively  manufactured Al-Mg-Si aluminum alloy, Materials Letters, 2018,  233: 348-350

[14] Qi Z, Cong B, Qi B, Zhao G,  Ding J. Properties of wire + arc additively manufactured 2024 aluminum alloy with  different solution treatment temperature, Materials Letters,  2018, 230: 275-278

[15]王义朋,齐铂金,从保强,王强,周阳. Al-Mg合金超高频脉冲VP-GTAW电流参数优化.稀有金属材料与工程, 2018, 47(11): 3522~3527

[16] ZW Qi , BJ Qi, BQ Cong, HY  Sun, G Zhao, JL Ding. Microstructure and mechanical properties of wire + arc additively manufactured 2024 aluminum alloy components: as-deposited and post heat-treated,  Journal of Manufacturing Processes, 2019, 40: 27-36

[17] Hao Zhong, Bojin Qi, Baoqiang  Cong, Zewu Qi, Hongye Sun. Microstructure and mechanical properties of  wire + arc additively manufactured 2050 Al-Li alloy wall deposits, Chinese  Journal of Mechanical Engineering, 2019, 32:92-98

[18] Z Zeng, BQ Cong, JP  Oliveira, WC Ke, N Schell, B Peng, ZW Qi, FG Ge, W Zhang, SS Ao. Wire and arc  additive manufacturing of a Ni-rich NiTi shape memory alloy: microstructure  and mechanical properties, Additive Manufacturing, 2020, 32:  101051

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