西安交通大学航天航空学院导师教师师资介绍简介-郁汶山

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基本信息 - 郁汶山基本信息
郁汶山
副教授，博士生导师
工程力学系副主任

联系方式
E-mail: wenshan at mail.xjtu.edu.cn
Office: 教一楼东417

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类别/站点
申胜平教授团队

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教育经历
2006.9-2010.6，西安交通大学，固体力学，博士
2003.9-2006.6，兰州理工大学，工程力学，硕士
1999.9-2003.6，兰州理工大学，机械设计，学士

工作经历
2015.3-至今，西安交通大学，副教授
2013.1-2015.1，麻省理工学院 (MIT), Dept of Material Science and Engineering, Post-doctoral Reseach Associate
2010.11-2013.1，University of North Texas (UNT),Dept of Material Science and Engineering,Post-doctoral Reseach Associate

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Teaching - 郁汶山讲授课程
本科生课程：
《Engineering Mechanics - Statics》（本科-留学生）
《并行算法与程序设计》（本科）
《机械工程基础》（本科-秋季）
《力学与工程》（本科-春季、秋季）
《力学分析软件概率》（本科-春季、秋季）
研究生课程：
《Mechanical Behavior of Materials & Micro-scale Simulation 》（研究生，留学生-春季）
《材料的微尺度模拟》（研究生-春季）

Research - 郁汶山团队名称
imech:gr.xjtu.edu.cn/web/sshen/2

招生信息
热忱欢迎有数理、力学、材料相关背景人员加入本团队！！
gr.xjtu.edu.cn/web/sshen/2
gr.xjtu.edu.cn/web/xliang226

科研项目
主持国家自然基金项目2项
省部级项目7项
参与国家自然基金重点项目1项。

主持人
作者还未对该模块添加任何内容.

研究领域
材料微尺度力学、界面力学
金属、陶瓷晶界、界面；高熵合金的力学行为

辐照损伤材料力学行为
金属合金、陶瓷辐照损伤机理和力学行为

力-化学耦合
金属氧化

Publications - 郁汶山Publications
2020:
1. Yihan Wu, Wenshan Yu*, Shengping Shen*. Strain hardening and embrittlement of Al crystal with a surface oxidized void, Mechanics of Materials. 2020,148: 103531.
2. Gaosheng Yan, Wenshan Yu*, Shengping Shen*. Oxidation protection of enamel coated Ni based superalloys: Microstructure, and interfacial reaction. Corrosion Science, 2020,173:108760.
3. Qunfeng Liu, Wenshan Yu*, Hao Luo, Xiang Ren, Shengping Shen, Tuning thermal resistance of SiC crystal/amorphous layered nanostructures via changing layer thickness. Computational material Science. 2020, 184:109868
4. 郁汶山*，张磊，申胜平*，单晶铜中的类层错四面体稳定性. 固体力学. 2020.
5. Dato Li*, Yan Li, Wenshan Yu*, Binghua Wang, Pengmin Lu, Shengping Shen. A novel evaluation of fracture toughness for random fibrous material. Composite structure . 2020, 243: 112179.
6. Datao Li*, Yan Li, Wenshan Yu*, Temperature Dependence of the Fracture Toughness JC of Random Fibrous Material. Applied Science. 2020, 10, 941; doi:10.3390/app**
7. Datao li, Wenshan Yu*, Wei Xia*, Qinzhi Fang, Shengping Shen. Porosity Effects on Mechanical Properties of 3D Random Fibrous Materials at Elevated Temperatures. Acta Mechanica Solida Sinica . 2020, 33:14-30.
2019:
1. Gaosheng Yan, Wenshan Yu, Shengping Shen*. High-temperature nanoindentation for temperature-dependent mechanical behavior of enamel coating. Surface and Coatings Technology. 2019,374:541-548
2. Lei Zhang, YihangWu, Wenshan Yu*, Shengping Shen*. Response of < 110 > symmetric tilt grain boundary in titanium nitride under shear. Engineering Analysis with Boundary Elements. 2019, 105: 231–241
3. Yihan Wu, Wenshan Yu*, Shengping Shen*. Strain-modulated early stage oxidation of Fe films. Journal of applied Physics, 2019,125: 245305.
4. Hailong Wang, Wenshan Yu, Shengping Shen*. Chemo-mechanical coupling effect in the high-temperature oxidation of metal materials: A review. Science China Technological Sciences, 2019, 62(8): 1246-1254.
5. Jianfeng Lu, Xu Liang*, Wenshan Yu; Shuling Hu, Shengping Shen. Temperature dependence of flexoelectric coefficient for bulk polymer polyvinylidene fluoride, Journal of Physics D: Applied Physics. 52 (2019) 075302:1-5
6. Liang Wang,Wenshan Yu*,Shengping Shen*. Revisiting the structures and energies of silicon <110> symmetric tilt grain boundaries. Journal of Material Reseach. 2019, 34(06):1-13
7. LeiZhang,Liang Wang,Wenshan Yu*,Shengping Shen*,Tao Fu. Structure and shear response of <001> tilt grain boundary in titanium nitride. Ceramics International, 45 (2019) 5531-5546
2018:
1. Lianping Wu, Wenshan Yu*, Shuling Hu, Shengping Shen*. Size-dependent stability of stacking fault tetrahedron in coherent twin boundary bicrystal: comparisons among Al, Ni, Cu and Ag. Computational Materials Science ,2018 155 :256-265
2. Datao Li,Wenshan Yu*, Wei Xia, Qinzhi Fang, Shengping Shen*. High-temperature short-range compressive responses and contact effect of ultrahigh porosity 3D random fibrous materials.Journal of the American Ceramic Society: 2018; doi:10.1111/jace.15806
3. Wenyuan Liu,Wenshan Yu*, Shengping Shen*. Chemomechanical analysis for interfacial reactions between c-TiAl alloy and glass-ceramic coating in micro/nano scale.Journal of the American Ceramic Society. 2018.15778
4. Lianping Wu,Wenshan Yu*, Shuling Hu, Shengping Shen*. Radiation response of nanotwinned Cu under multiple-collision cascades.Journal of Nuclear Materials505 (2018) 183-192
5. Lianping Wu,Wenshan Yu*, Shuling Hu, Shengping Shen*. Shear response of grain boundary bicrystals with a stacking faulttetrahedron.Computational Materials Science2018,147:137–144
6. Datao Li,Wenshan Yu*, Wei Xia, Qinzhi Fang, Shengping Shen*.Investigations on fracture toughness and fracture surface energy of 3D random fibrous materials at elevated temperatures.Engineering Fracture Mechanics, 190 (2018) 288–298
7. Datao Li,Wenshan Yu, Wei Xia, Qinzhi Fang, Shengping Shen*. Fracture toughness of random fibrous materials with ultrahigh porosity at elevated temperatures.Journal of the American Ceramic Society: 2018;101:1323–1332
8. Junpu Wang, Wenzhi Wang, Chao Zhang,Wenshan Yu^*. The electro- mechanical behavior of conductive filler reinforced polymer composite undergone large deformation: A combined numerical-analytical study.Composites Part B. 2018,133: 185-192.
2017:
1. 赵东伟,郁汶山^*,申胜平^*.含氢原子缺陷晶界剪切行为.力学学报. 2017, 47(3): 605-615.
2. Feng Deng, Qian Deng^*,Wenshan Yu, Shengping Shen^*. Mixed Finite Elements for Flexoelectric Solids.Journal of Applied Mechanics. 2017, 84:081004.
3. Liang Wang,Wenshan Yu^*, Shengping Shen^*. Fracture of β-SiC bulk with a void of different shapes under different loading modes.Engineering Fracture Mechanics.2017, 181:29–37.
4. Datao Li, Wei Xia,Wenshan Yu, Qinzhi Fang, Shengping Shen^*. Investigations on the compressive behavior of 3D random fibrous materials at elevated temperatures.Ceramics International. 2017, 43:5195–5203.
5. Datao Li, Wei Xia, Qinzhi Fang,Wenshan Yu, Shengping Shen^*. Experimental and numerical investigations on the tensile behavior of 3D random fibrous materials at elevated temperature.Composite Structures. 2017,160:292–299.
6. Lianping Wu,Wenshan Yu^*, Shengping Shen^*. Stability of stacking fault tetrahedron in twin boundary bicrystal copper under shear.International Journal of Plasticity. 2017,97:246-258.
7. Liang Wang, Qunfeng Liu^∗,Wenshan Yu, Shengping Shen.Shear response of β-SiC bulk dependent on temperature and strain rate.Acta Mechanica Solida Sinica. 2017, 30:137–144.
8. Wenshan Yu^*, Lianping Wu^*, Shengping Shen^*. Adhesion properties of Cu(111)/α-quartz (0001) interfaces: A molecular dynamics study.Material Science and Engineering A. 2017,695:239-248.
9. Wenshan Yu^*, Zhiqiang Wang^*, Shengping Shen. Edge dislocations interacting with a ∑11 symmetrical grain boundary in copper upon mixed loading: A quasicontinuum method study.Computational Material Science. 2017,137:162-170.
10. Wenshan Yu^*, Shengping Shen^*, Yilun Liu, Weizhong Han, Pseudo-elasticity and hardening of symmetric non-coherent twin boundary in copper.Acta Materialia. 2017,124:30-36.
2016:
1. Wenshan Yu^*, Shengping Shen^*, Point defect interacting with grain boundaries undergone the plastic deformation.International Journal of Plasticity, 2016, 85:93-109.
2. Wenshan Yu^*, Shengping Shen^*, Qunfeng Liu. Point defect interacting with ∑3 asymmetric grain boundaries.Computational Material Science, 2016,118:47-55.
2015 and before:
1. Wenshan Yu^*, M.J. Demkowicz. Non-coherent Cu grain boundaries driven by continuous vacancy loading.Journal of material science, 2015, 50:4047-4065.
2. WenshanYu, Zhiqiang Wang^*. “Positive” and “Negative” edge lattice dislocations simultaneously interacting with Σ11 GB during nanoindentation.Computational Material Science, 2014, 87:150-159.
3. WenshanYu, Zhiqiang Wang^*. Interactions between edge lattice dislocations and Σ11 symmetrical tilt grain boundary: comparisons among several FCC metals and interatomic potentials.Philosophical Magazine, 2014, 94(20):2224-2246.
4. Wenshan Yu, Zhiqiang Wang^*. Interactions between edge lattice dislocations and Σ11 symmetrical tilt grain boundary in copper: a quasicontinuum method study.Acta Materialia, 2012, 06:5010-5021.
5. WenshanYu, Shengping Shen^*. Initial dislocation topologies of Nanoindentation into copper (001) film with a nanocavity.Engineering Fracture Mechanics, 2010, 77(16):3329-3340.
6. WenshanYu, Shengping Shen^*. Multiscale study on the tensile fracture of Al-terminated Cu(111)/a-Al₂O₃(0001) interface .Computational Materials Science. 2010, 48:228-240.
7. WenshanYu, Shengping Shen^*. Effects of small indenter size and its position on incipient yield loading during nanoindentation.Materials Science and Engineering A. 2009, 526:211-218.
8. WenshanYu, Shengping Shen^*. Multiscale analysis of the effects of nanocavity on nanoindentation.Computational Materials Science. 2009, 46:425-430.
9. 郁汶山,李世荣^*,钮鹏.升温场下嵌入形状记忆合计圆板的自由振动.振动工程学报. 2007, 20(3): 243-248.
10. Shirong Li^*,Wenshan Yu, Romesh C Batra, Free vibration of thermally pre/post-buckled circular plates embedded with shape memory alloy.Journal of Thermal Stresses. 2010, 33(2):79-96.
11. 李世荣^*,郁汶山.弹性地基圆板的热过屈曲与屈曲临界载荷的模态跃迁.工程力学.2007, 24(5): 63-66.
12. Shirong Li^*,Wenshan Yu, Liangliang Fan, Free vibration of composite annular plates embedded with SMA fibers in the circumferential direction,Key Engineering Materials. 2007, 353/358; PART 2, 1306-1309.
13. Shirong Li^*,Wenshan Yu,Nonlinear Bending of Composite Circular Plates with Embedded Shape Memory Alloy Fibers,Advanced Materials Research, 2008, 33-37, 501-506.
14. 李世荣^*,郁汶山.嵌入形状记忆合金复合材料圆板的弯曲变形.力学与实践. 2008, 30(1): 27-30.