学历

博士

职称

讲师

出生年月

1984.10

导师类别

联系方式

wangwk11@163.com

教育背景

2006.9-2010.6本科   兰州理工大学    材料成型及控制工程     

2010.9-2013.6硕士   兰州理工大学    材料加工工程          

2015.9-2020.9博士   西安交通大学    材料科学与工程             

工作经历

2020.12-至今世界杯买球十大平台讲师

主讲课程

科研方向

焊接结构的力学行为

承担项目

主持甘肃省自然科学基金、校青年基金各一项

成果及荣誉

[1]          Wang WK, Liu Y, Zhang QB, Zhang LJ, Zhang JX*. Microstructure and local   mechanical properties of a dissimilar metal welded joint with buttering layer   in steam turbine rotor [J]. Materials Science & Engineering:  A.   2019, 747: 244-254. (SCI)

[2]      Wang WK, Dong ZQ, Xu ZZ,   Zhu B, Zhang XF, Zhong J, Zhang JX*. Local strain hardening behavior in a   dissimilar metal welded joint with buttering layer of ultra-supercritical   turbine rotor [J]. Materials Science & Engineering: A.2020, 785: 139379.   (SCI)

[3]      Wang WK, Liu Y, Guo Y,Xu ZZ   , Zhong J, Zhang JX*.High cycle fatigue and fracture behaviors of   CrMoV-NiCrMoV dissimilar rotor welded joint at 280 ℃ [J].Materials   Science & Engineering: A. 2020, 786: 139473. (SCI)

[4]      Wang WK, Zhang JX*, Zhong   J.Comparative evaluation of LCF behavior of dissimilar steels and welds in an   ultra-supercritical turbine rotor at 280 ℃ [J].International Journal of   Fatigue. 2020, 139: 105771. (SCI)

[5]        Wang WK, Xu ZZ, Zhu B, Zhang XF, Zhong J, Zhang JX*. High cycle fatigue behavior of a dissimilar metal welded   joint in ultra-supercritical steam turbine rotor [J]. Materials Research   Express. 2020, 341: 102-110. (SCI)

[6]      Wang WK, Zhang JX. Microstructure and mechanical properties in dissimilar   welded joints of the thick-walked steam turbine rotor steel [C]. 70th   International Conference of Welding (IIW). Shanghai, 2017, C: 444-451.   (国际会议)

[7]        Long   J, Zhang LJ, Zhang QB, Wang WK, et al. Microstuctural characteristics and low cycle fatigue properties at   230°C of different weld zone materials from a 100 mm thick dissimilar weld of   ultra-supercritical rotor steel [J]. International Journal of Fatigue. 2020,   130: 105248.   (SCI)

[8]      Xu ZZ, Dong ZQ, Yu   ZH, Wang WK, et al. Relationships   between microhardness, microstructure, and grain orientation in laser-welded   joints with different welding speeds for Ti6Al4V titanium alloy [J].   Transactions of Nonferrous Metals Society of China, 2020, 30: 1277-1289.(SCI)

[9]      Li KM, Huang ZF,   Wang SF, Shen Y, Wang WK, et al. Effect of oxidation time on the short   time oxidation behavior and tribological performance of bulk Fe2B [J]. Materials   Research Express. 2019, 6: 106506. (SCI)

[10]  Dong ZQ, Xu ZZ,Wang WK,   et al. Numerical Simulation and Experimental Confirmation of a Bimetallic   Pipe Forming Process [J]. Materials. 2020, 13: 03561. (SCI)

[11]  朱波，王文科，郭洋等．12Cr/30Cr2Ni4MoV异种转子钢焊接接头微区冲击韧性研究[J].机械工程学报[J].2021，57(02)：53-61.   (EI)

[12]     Xu ZZ, Zhang JX, Wang   WK,Sun PP.Low-cycle fatigue properties of Ti6Al4V laser-weldedjoints   based on a local strain approach. Journal of Materials Engineering and   Performance[J]. 2021, 30: 2772-2780. (SCI)

[13]     熊建坤，尚春强，吴海峰，王文科，曹天兰，张建勋．12Cr/30Cr2Ni4MoV 异质接头低周疲劳性能[J].焊接学报.2021，42(02)：16-23. (EI)