个人简历
赵鹏康,男,2016年博士毕业于西北工业大学材料学院,2016年6月进入3044am永利集团3044noc工作,相继受聘为讲师、副教授,2023年03月至2024年03月任日本大阪大学接合科学研究所访问学者,国际共同研究员。
工作经历
1. 2023-03至2024-03,大阪大学,访问学者,合作导师:麻宁绪 教授
2. 2016-09至2020-12,永利集团,机械工程博士后,合作导师:李淑娟 教授
3. 2016-06至今, 永利集团,3044am永利集团3044noc,讲师
教学工作
主要承担课程《现代制造系统》、《智能制造系统与集成》和《人工智能技术基础》本科教学工作。
研究方向
1. 金属材料摩擦焊接头组织性能调控机制研究;
2. 钛合金材料组织性能关系调控机制研究;
3. 金属材料电弧增材过程控制及成形机理研究。
科研项目
[1] 国家自然科学基金,面上项目,梯度束状NbC/Fe非均匀构型钢基复合材料的界面调控与强韧化机理,2023-01至2026-12;
[2] 国家自然科学基金,青年项目,壁板零件喷丸渐进成形中应力场演化机制及增量预测方法,2019-01至2021-12;
[3] 航空科学基金,电脉冲热处理调控高强韧钛合金线性摩擦焊接头组织演变机理研究,2023-03-01至2025-02-28;
[4] 国家留学基金(China Scholarship Council, CSC),日本大阪大学访问学者,钛合金线性摩擦焊接头微观组织和力学性能关系研究,2023-03至2024-03;
[5] 中国博士后科学基金,面上项目,电弧增材制造铝合金凝固组织演变及硬化机理研究,2017-05至2019-05;
[6] 陕西省自然科学基金,面上项目,异种钛合金线性摩擦焊接头微观组织演变及断裂韧性关系研究,2021-01至2022-12;
[7] 教育部重点实验室基金,异种钛合金线性摩擦焊接头组织调控及断裂机理研究,2023-01至2024-12;
[8] 陕西省教育厅自然科学基金,电弧增材制备成形工艺研究,2017-06至2018-12;
[9] 陕西省西安市碑林区项目,电脉冲热/非热效应构筑钛合金摩擦焊接头双组态组织关键技术研究,2024-01-01至2025-12-31;
[10] 陕西省西安市碑林区项目,异种钛合金线性摩擦焊高韧性连接关键技术研究,2021-01至2022-12,结题;
[11] 江苏省科技副总项目,异种钛合金摩擦焊接头断裂机理问题研究,2021-05至2023-05;
[12] 永利集团博士启动基金,多层单道电弧增材制造成形组织性能研究,2016-10至2020-10.
学术论文
[1] Pengkang Zhao, Yingxin Hu, Peihao Geng, Bo Shen, Liang Yuan, Juntao Zou, Ninshu Ma, Effective toughening of dissimilar Ti alloy friction welded joint by combining electropulsing thermal and athermal effects, Materials Science & Engineering A, 909 (2024) 146864. (WOS: 001259738300001, SCI 一区TOP)
[2] Peihao Geng, Hong Ma, Pengkang Zhao*, Ninshu Ma, Miura Takuya, Hidetoshi Fujii, Effect of tool revolutionary pitch on heat transfer and material flow in Al/steel friction stir lap welding, Journal of Materials Processing Tech., 325 (2024) 118306. (WOS: 001172530100001, SCI二区TOP)
[3] X. Xiao, D.S. Wu, H. Komen, L. Meng, W. Zhang, P.K. Zhao, et al. Influencing mechanisms of melt behavior on metal vapor characteristic and columnar grain formation in wire-arc directed energy deposition of titanium alloy, Additive Manufacturing, 82 (2024) 104029. (WOS: 001185379400001, SCI 一区TOP)
[4] Pengkang Zhao, Yifan Tao, Haiyan Chen*, et al., Texture characteristics and fracture mechanism of linear friction welded joints of dissimilar titanium alloys after annealing, Materials Science & Engineering A, 866 (2023) 144709. (WOS: 000976861600001, SCI一区TOP)
[5] Qiaoling Chu, Yi Li, Qilu Cao, Min Zhang, Jihong Li, Pengkang Zhao, et al. Microstructure and Mechanical Properties of Ti/Cu/Fe Dissimilar Joints, Journal of Materials Engineering and Performance, 32 (2023) 4846-4859.
[6] Pengkang Zhao*, Yifan Tao, Kui Fang, Meiling Guo, Qiaoling Chu, Jun Tao, Qilong Yuan, Yan Li, Microstructure, texture, and compressive properties of TC11/TC17 linear friction welded joint at elevated temperatures, Materials Science & Engineering A, 854 (2022) 143880. (WOS: 000874971300001, SCI一区TOP)
[7] Chu Q.L., Xia T., Zhao P.K., Zhang M., Zheng J.M., Yan F.X., Cheng, P., Interfacial investigation of explosion-welded Al/steel plate: The microstructure, mechanical properties and residual stresses, Materials Science & Engineering A, 833 (2022) 142525. (SCI 一区TOP)
[8] Chu Q.L., Xia T., Zhang L., Zhao P.K., Zhang M., Zheng J.M., Yan F.X., Cheng P., Yan C., Structure-Property Correlation in Weld Metals and Interface Regions of Titanium/Steel Dissimilar Joints, Journal of Materials Engineering and Performance, 2022, DOI10.1007/s11665-022-06693-9. (SCI)
[9] Wang L., Gao L.H., Shen J., Zhang Y.P., Liu G., Zhao P.K., Zhang G.J., Eutectic Composition Design, Microstructure, and Room Temperature Mechanical Property of NiAl-Cr-Ta Three-Phase Alloy, Metallurgical and Materials Transactions A, 53 (2022) 1479-1485. (SCI)
[10] Guo M.L., Wang C., Yang Z.C.*, Xu Z.T., Yang M.S., Zhao P.K., Zhou Y., Li P.Y., Wang Q.D., Li Y., Controllable and scalable fabrication of superhydrophobic hierarchical structures for water energy harvesting, electronics, 11 (2022) 1651, (WOS:000803533000001) https://doi.org/10.3390/electronics11101651.
[11] Xiao, XD; Zhang, BL; Qiao, D; Li, Y; Zhao, RF; Zhao, PK, On Variable Scale Evolution of Stress and Strain of TA2 Titanium Plate in Combined Hammering, Coatings, 12 (2022) 1974, DOI10.3390/coatings12121974
[12] Chu, QL; Li, Y; Cao, QL; Zhang, M; Zhao, PK; Yan, FX; Luo, HL; Wang, XD; Yan, C. Microstructure and mechanical properties of Cu/steel dissimilar joints, International Journal of Pressure Vessels and Piping, 200 (2022) 104828, DOI10.1016/j.ijpvp.2022.104828
[13] Q.L. Chu, Q.L. Cao, M. Zhang, J.M. Zheng, P.K. Zhao, F.X. Yan, P. Cheng, C. Yan, H.L. Luo, Microstructure and mechanical properties investigation of explosively welded titanium/copper/steel trimetallic plate, Materials Characterization 192 (2022) 112250. DOI10.1016/j.matchar.2022.112250
[14] R.F. Zhao, R.Z. Pan, W.C. Gao, D.Y. Zhang, X.D. Xiao, P.K. Zhao, X.H. Zhu, Finite Element Analysis of Crack Propagation in Precise Separation Process of Tubing Eccentric Loading Fatigue Fracture, Applied Sciences-Basel 12 (2022) 5111. DOI10.3390/app12105111
[15] Pengkang Zhao, Chen Wei, Xudong Xiao, Qiaoling Chu, Jianping Niu, Meiling Guo, Chuanchen Zhang, Shujuan Li*, Min Zhang*, Thermal deformation mechanism of TC11/TC17 linear friction welded joint during isothermal compression, Materials Characterization, 178 (2021) 111319. (WOS: 000677525900001, SCI一区TOP)
[16] Pengkang Zhao*, Chen Wei, Yan Li, Jun Tao, Chuanchen Zhang, Xudong Xiao, Min Zhang, Effect of heat treatment on the microstructure, microhardness and impact toughness of TC11 and TC17 linear friction welded joint, Materials Science & Engineering A, 803 (2021) 140496. (WOS: 000612652100002, SCI一区TOP)
[17] Chu Q.L., Xia T., Zhang L., Zhao P.K., Zhang M., Zheng J.M., Yan F.X., Cheng P., Yan C., Interfacial microstructure and mechanical properties of titanium steel dissimilar joining, Material Letter, 307 (2021) 131069. (SCI)
[18] Guo M.L., Yang L., Yang Z.C., Zhang D.Y., Wang Q.D., Li P.Y., Zhao P.K., Yang M.S., Li Y., Tribological behaviors of oxygen-doped carbon coatings deposited by ion-irradiation-assisted growth, Surface & Coatings Technology, 425 (2021) 127689. (SCI)
[19] 赵鹏康*, 唐成, 杨明顺, 景张帅, 李言, TIG增材成形5356铝合金温度场数值模拟分析, 兵器材料科学与工程, 44 (2021) 71-77. (CSCD)
[20] Zhao Pengkang*, Fang Kui, Tang Cheng, Niu Jianping, Guo Meiling, Effect of interlayer cooling time on the temperature field of 5356-TIG wire arc additive manufacturing, China Welding, 30 (2021) 17-24.
[21] 肖旭东, 李勇, 乔丹, 赵鹏康, 李鹏阳, 李言, 金属材料表面自纳米化技术研究进展, 塑性工程学报, 28 (2021) 9-18.
[22] Pengkang Zhao*, Li Fu, Numerical and Experimental Investigation on Power Input during Linear Friction Welding Between TC11 and TC17 Alloys, Journal of Materials Engineering and Performance, 29 (2020) 2061-2072. (WOS: 000520916700003)
[23] 赵鹏康, 唐成, 蒲尊严, 李言, 李淑娟, TIG电弧增材制造5356铝合金微观组织与拉伸性能, 焊接学报, 41 (2020) 65-70. (EI: 20203809185620)
[24] 赵鹏康*, 蒲尊严, 杨笑宇, 李言, 李淑娟, 电流方式对5356-TIG增材制造组织性能的影响, 兵器材料科学与工程, 43 (2020) 47-51. (CSCD)
[25] Xiao X.D., Li Y., Sun Y., Zhao P.K., Gao G.Q., Prediction of Peen Forming Stress and Curvature with Dynamic Response of Compressively Prestressed Target, Journal of Materials Engineering and Performance, 29 (2020) 2079-3091. (WOS: 000539480200002)
[26] Z.Y. Yuan, B. Zhang, G.G. Yang, Z.C. Yang, A.F. Tang, S.J. Li, Y. Li, P.K. Zhao, Y.J. Wang, Multi-Scale Modeling of Curing Residual Stresses in Composite with Random Fiber Distribution into Consideration, Applied Composite Materials 26 (2019) 983-999.
[27] Pengkang Zhao, Li Fu*, Hanyan Chen, Low cycle fatigue properties of linear friction welded joint of TC11 and TC17 titanium alloys, Journal of Alloys and Compounds, 675 (2016) 248-256. (WOS: 000373614400034, SCI一区TOP)
[28] Pengkang Zhao, Li Fu*, Strain hardening behavior of linear friction welded joints between TC11 and TC17 dissimilar titanium alloys, Materials Science & Engineering A, 621 (2015) 149-156. (WOS: 000347590600019)
[29] Zhao Pengkang*, Fu Li, Zhang Tiancang, Zhong Dechao, Wang Peiyan, Stress-strain characteristics of linear friction welding of TC11 and TC17 alloys, China Welding, 24 (2015) 1-5. (EI: 20152701007936)
[30] Pengkang Zhao*, Li Fu, Dechao Zhong, Numerical simulation of transient temperature and axial deformation during linear friction welding between TC11 and TC17 titanium alloys, Computational Materials Science, 92 (2014) 325-333. (WOS: 000340048100043)
发明专利
[1] 赵鹏康, 胡映鑫, 申博, 洪振宇, 郝方圆, 袁启龙, 张敏, 李言; 高韧性钛合金线性摩擦焊接头的电脉冲强韧化处理方法, 2024-4-30, 中国, 专利号: 2024105343336.
[2] 赵鹏康, 胡映鑫, 张敏, 赵亦凡, 潘必达, 张垚君, 陈皓彤, 李言; 基于电脉冲调控钛合金摩擦焊接头组织的方法, 2023-6-13, 中国, 专利号: 2023106987478.
[3] 赵鹏康, 张敏, 张开展; 一种基于TIG增材制造提高铝合金各向强韧性的工艺优化方法, 2023-6-9, 中国, 专利号: ZL2023106844949.
[4] 赵鹏康, 陶一凡, 胡映鑫, 申博, 褚巧玲, 郭美玲, 袁启龙, 张敏, 李淑娟, 李言; TC11与TC17异种钛合金线性摩擦焊接头断裂韧性的优化方法, 2022-12-28, 中国, 专利号: ZL2022116852716.
[5] 赵鹏康, 方魁, 陶一凡, 焦岩, 褚巧玲, 肖旭东, 杨明顺, 李言; 一种带有智能清洗装置的鱼缸, 2022-8-16, 中国, 专利号: ZL2021111133632.
[6] 赵鹏康, 陶一凡, 方魁, 胡映鑫, 褚巧玲, 郭美玲, 袁启龙, 杨明顺; TC21钛合金线性摩擦焊接头力学性能优化方法, 2022-6-17, 中国, 专利号: ZL2021114299004.
[7] 赵鹏康, 方魁, 肖旭东, 杨明顺, 李继红, 张敏; 一种基于热力耦合条件的钛合金摩擦焊接头优化方法, 2022-4-12, 中国, 专利号: ZL2020115806001.
[8] 赵鹏康, 唐成, 魏晨, 肖旭东, 褚巧玲, 郑建明, 李淑娟, 张敏; 一种优化异种钛合金线性摩擦焊接头显微硬度的热处理方法, 2021-12-17, 中国, 专利号: ZL2020107425313.
[9] 赵鹏康, 魏晨, 唐成, 肖旭东, 褚巧玲, 李继红, 李言, 郑建明; 一种提高钛合金线性摩擦焊接头冲击韧性的热处理方法, 2021-12-17, 中国, 专利号: ZL2020107425328.
学术兼职
[1] 2022.08-2026.08,中国机械工程学会焊接分会青年委员;
[2] 2022.08-2026.08,中国机械工程学会焊接分会第十一届委员会压力焊专业委员;
[3] 2022.08-2026.08,陕西省焊接学会委员;
[4] 2023.11-2025.11,《焊管》期刊第一届青年编委;
[5] Materials Science and Engineering A, Materials Characterization, Journal of Alloys and Compounds等SCI期刊评审专家。
荣誉与获奖
[1] 2022年,永利集团“科研先进个人”荣誉;
[2] 2022年,永利集团“师德优秀教师”荣誉;
[3] 2021年,获得“陕西省课程思政示范课程和教学团队”荣誉;
[4] 2021年,荣获“江苏省科技副总”人才称号;
[5] 2016年,3044am永利集团3044noc“先进个人”称号。
