WANG Wenxian

WANG Wenxian

Professor & Doctoral Supervisor

Research Direction （研究方向）

Advanced Material Preparation and Processing

♦ Fabrication of metal matrix (magnesium, aluminum alloy, new stainless steel) composite materials and the study of interface behavior;

♦ Welding structure strength, fatigue fracture evaluation method evaluation behavior;

♦ Advanced materials by laser welding and surface modification technology;

♦ 3D printing molding technology of metal materials.

Publication

Awards

♦ One of the First Prize for Natural Science;

♦ One of the Second Prize technological invents;

♦ One of the Second Prize of teaching achievement prize in Shanxi Province;

♦ Two of the Third Prize of teaching achievement prize in Shanxi Province.

Research grants

♦ Grant record as Principal Investigator (PI) since 2000:

Number of external grants as PI = 24

♦ 6 grants from National Natural Science Foundation

♦ One grant from National Air Foundation

♦ 4 grants from National Natural Science Foundation in Shanxi province

♦ One grant from Research Project Supported by Shanxi Scholarship Council of China

♦ One grant from Technical Difficulties in Shanxi province

♦ One grant from Post-Doctoral Science Fund

♦ 15 grants from joint-school project

Publications and Patents

♦ Totally more than 180 publications;

♦ More than 80 SCI/EI publications;

♦ More than 30 patents.

Books

Four text-books for higher education as Editor-in-Chie for Staff.

Papers

[1] Tingting Zhang, Wenxian Wang*, Wei Zhang, et al. Interfacial microstructure evolution and deformation mechanism in an explosively welded Al/Mg alloy plate. Journal of Materials Science. (2019) 54:9155-9167.

[2] Ruifeng Liu, Wenxian Wang*, Hongsheng Chen, et al. Comparative study of recrystallization behavior and nanoindentation properties of micro-/nano-bimodal size B4C particle-reinforced aluminium matrix composites under T6 and electropulsing  treatment. Journal of Alloys and Compounds. (2019) 788:1056-1065.

[3] Runhua Yao, Peng Dong, Wenxian Wang*, et al. Microstructure and shape memory effect of laser welded Nitinol wires. Materials Letters. (2019) 238: 1-5.

[4] Hongsheng Chen, Wenxian Wang*, Huihui Nie, et al. Microstructure evolution and mechanical properties of B4C/6061Al neutron absorber composite sheets fabricated by powder metallurgy. Journal of Alloys and Compounds. (2018) 730: 342-351.

[5] Zexin Chang, Wenxian Wang*, Yaqiong Ge, et al. Microstructure and mechanical properties of Ni-Cr-Si-B-Fe composite coating fabricated through laser additive manufacturing. Journal of Alloys and Compounds. (2018) 747: 401-407.

[6] Yuli Li, Wenxian Wang*, Jun Zhou, et al. Hot deformation behaviors and processing maps of B4C/Al6061 neutron absorber composites. Materials Characterization. (2017) 124: 107-116.

[7] Yuli Li, Wenxian Wang*, Jun Zhou, et al. Fatigue Crack Growth and Fracture of 30 wt% B4C/6061Al Composites. Fatigue & Fatigue of Engineering Materials & structures. (2017) 00: 1-11.

[8] Zexin Chang, Wenxian Wang*, Yaqiong Ge, et al. Preparing Zr65Al7.5Ni10Cu17.5 bulk metallic glasses based on point-line-face-body theory. Applied Optics. (2016) 55: 3787-3793.

[9] Zhaohan Zhang, Zhibin Wang, Wenxian Wang*, et al. Microstructure evolution in heat affected zone of T4003 ferritic stainless steel. Materials and Design. (2015) 68: 114-120.

[10] Nan Zhang, Wenxian Wang*, Xiaoqing Cao, et al. The effect of annealing on the interface microstructure and mechanical characteristics of AZ31B/AA6061 composite plates fabricated by explosive welding. Materials and Design. (2015) 65: 1100-1109.

[11] Yingqi Li, Zeqin Cui, Wenxian Wang*, et al. Formation of linked nanostructure-textured mound-shaped microstructures on stainless steel surface via femtosecond laser ablation. (2015) 324:775–783.

[12] Yu Gan, Wenxian Wang*, Zeqin Cui, et al. Numerical and experimental study of the temperature field evolution of Mg alloy during high power diode laser surface melting. (2015) 126: 739-743.

Patents

[1] Peng Zhang, Jing Li, Wenxian Wang, et al. Preparation method of aluminum base gadolinium oxide neutron absorbing plate. ZL201711246116, 2019.03.01.

[2] Huayun Du, Hongsheng Chen, Wenxian Wang, et al. Copper-magnesium-copper three-layer composite cylindrical part and forming technology thereof. ZL 201810031497, 2019.02.15.

[3] Wenxian Wang, Zexin Chang, Yaqiong Ge, et al. Preparation method of nickel-based bulk amorphous alloys. ZL 201710636397, 2018.08.21.

[4] Hongsheng Chen, Wenxian Wang, Yuyang Zhang, et al. Preparation method of fiber reinforced boron aluminum shielding composite material. ZL201710583500, 2018.12.11.

[5] Hongsheng Chen, Wenxian Wang, Yuyang Zhang, et al. Method for preparing aluminium-based layered neutron shielding plate with gradient boron carbide content. ZL201710230708, 2018.08.21.

Major Selection（招生专业）

Materials Science and Engineering.

Contact （联系方式）

E-mail：wwx960@126.com; wangwenxian@tyut.edu.cn

Phone：0351-6010076

Address: College of Materials Science & Engineering

 Taiyuan University of Technology

 79 West Yingze St. Taiyuan, 030024, Shanxi, P. R. China.