Wang Wenquan

Date:2023-04-03 Author: Editor}:材料外事 ClickTimes:

Gender: male

Title: Professor

Department: Materials Processing Engineering

Mobile: 13604404468

Emailwwq@jlu.edu.cn

Research fieldJoining and surface modification of materials

Lectures: (1) The Principle of Materials Forming; (2) Thermal Spray and Welding

Education background:

(1) Bachelor, Welding Technique and Equipment, Jilin University of Technology, 1990-1994

(2) Master, Materials Processing and Engineering, Jilin University, 1998-2001

(3) Doctor, Materials Processing and Engineering, Jilin University, 2001-2005

Employment background:

(1) Lecturer, Department of Materials Science and Engineering, Jilin University of Technology, 1994-2000

(2) Faculty member, School of Materials Science and Engineering, Jilin University, 2001-Now

(3)  Visiting Scholar, Pusan University, Korean, 4, 2007-10,2007

(4) Visiting Scholar, Institute of Surface Engineering, Aachen University, Germany

Partial Research projects

(1) Laser welding technique and its optimization of stainless steel body structures for rail vehicles (No.: 201122010100), 1, 2012-12,2012

(2) Development and application of new materials for mold repairing by plasma spray, (No.20100328), 9, 2010-9, 2012

(3) Microstructures and properties of nanostructured ceramic coatings prepared by plasma spray, (No.20080503), 9, 2008-9, 2010

(4) MIG welding comparison of aluminum alloys used by rail vehicles, 5, 2015-6, 2016

(5) Development and application of metal parts prepared by laser 3D printing, 9, 2017-8, 2019.

Partial published papers:

[1] W.Q. Wang, W.B. Gong, K. Ma, D.Q. Sun, Comparison of microstructures and thermal insulation capability of plasma sprayed nanostructured and traditional YPSZ coatings, Materials Science and Technology, 2011(11): 35-38 (SCI)

[2] Wenquan Wang, Chunsheng Wang, Fuxing Tan. FEM analysis of RSW and LBW implementation on side wall penal assembly of stainless steel railway vehiclesAdvanced Materials Research , 2012,6:958-961(EI)

[3] Wang Wenquan, Ma Kai, Sun Daqian, Kang Chungyun. Characteristics of Nd: YAG laser welded 600MPa grade TRIP steel, China Welding, 2010, 19:11-15. (EI)

[4] Wang Wenquan, Sun Daqian, Kang Chungyun. Macrostructural and microstructural features of 1000MPa grade TRIP steel joint by CO2 laser welding, China Welding, 2008, 17:1-7. (EI)

[5] W.Q. Wang, D.Q. Sun, W.B. Gong, Z.Z. Xuan. Microstructure and Properties of Plasma sprayed nanoceramic thermal barrier coating. Aeronautical manufacturing technology, 2004, 9(253): 220-224. 

[6] Daqian Sun, Wenquan Wang, Zhaozhi Xuan, Yeu Xu and Zhenfeng Zhou. Effect of alloying elements on microstructure and erosion resistance of Fe-C-Cr weld surfacing layer. J. Mater. Sci. Technol., 2003, 19(4): 351—356. SCI

[7] Sun DaqianWang wenquanXuan ZhaozhiRen zhenan.  Effects of alloy elements on microstructures and crack resistance of Fe-C-Cr weld surfacing layer. China Welding, 2003, 11, 12(2): 92-97. (EI)

[8] Sun DaqianWang wenquanXuan zhaozhiGong wenbiao. Microstrucral features and properties of plasma sprayed YPSZ/NiCrAlY thermal barrier coating (TBC). China Welding, 2004, 11, 13(2): 91-96.EI

[9] D. Q. Sun, W. Q. Wang, Z. Z. Xuan and Z. A. Ren. Transformation characteristics, microstructure and mechanical properties of austempered ductile iron weld. Materials Science and Technology, 2006Vol22, No.12.

[10] W. Q. Wang, C. K. Sha, D. Q. Sun, X.Y.Gu. Microstructural feature, thermal shock resistance and isothermal oxidation resistance of nanostructured zirconia coating. Materials Science and Engineering A, 424 (2006)1-5.

[11] W. Q. Wang, B.S.Lu, S.M. Huang, Microstructures and properties of Ni25 and Fe304 repairing layers prepared by plasma surfacing, Applied Mechanics and Materials, 2012.12.357-360.

[12] Wenquan Wang, Shiming Huang, Qun You. Characteristics of CO2 laser Welded TRIP Steel Sheet. Advanced Materials Research, 2011:3764-3767.

[13] Xu Hongyong, Wang Wenquan, Huang Shiming, Microstructures and Properties of Ni Based Wear Resistant layers reinforced by TiC generated from In Situ plasma spray welding, Acta Metallurgical Sinica, 2016, (5):1423-1431.

[14] Wenquan Wang, Wenmo Li, Hongyong Xu. Microstructures and Properties of Plasma Sprayed Ni Based Coatings Reinforced by TiN/C1-xNxTi Generated from In-Situ Solid-Gas ReactionMaterials 2017, 10(7), 785.

[15] Gui-Xun Sun, Yue Jiang, Xiao-Ru Zhang , Shi-Cheng Sun, Zhong-Hao Jiang, Wen-Quan Wang, Jian-She LianStrain rate and cold rolling dependence of tensile strength and ductility in high nitrogen nickel-free austenitic stainless steelChin. Phys. B Vol. 26, No. 9 (2017) Corresponding author

[16] Cao, M., Zhao, L., Wu, L.B., Wang, W.Q. Tribological properties of new Cu-Al/MoS2 solid lubricant coatings using magnetron sputter deposition. Coatings, 2018, 8(4), 134.3.

[17] Microstructures and properties of friction stir welded Al-Cu lap joints[C]. Materials Science Forum.

[18] Effects of dopants Ti and Al on microstructure, mechanical and tribological behaviors of ZnO/MoS2 coating deposited by magnetron co-sputtering AIP Advance, No.: 9 (4)102-109, 2019.04.

[19] Wang, WQ ; Liu, L ; Zhang, XG; Shi, ZMMicrostructures and mechanical properties of Ni60 alloy fabricated by laser metal depositionMATERIALS RESEARCH EXPRESSVol.: 7, No.: 12020,1.

[20] Xin LiWeida Xin Zhen’an RenYanxin WangWenquan WangCorresponding author, Aluminum nitride layers prepared by nitrogen arc discharge on Al-Si alloy substrate Journal of Materials Processing Tech.20208,20.

[21] Wenquan WangSuyu Wang , Xinge Zhang, Fei Chen , Yuxin Xu, Yingtao TianProcess parameter optimization for selective laser melting of Inconel 718 super alloy and the effects of subsequent heat treatment on the microstructural evolution and mechanical propertiesJournal of Manufacturing ProcessesVolume 64, April 2021, Pages 530-543


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