奖项成果
奖项名称 获奖年份 奖项类型 奖项等级 申报部门
纳尺度固体变形与破坏的连续介质理论 2016省部级科技成果奖一等奖西安交通大学、清华大学
共有1条记录 共有1页面 每页面显示 条记录 页索引: 1 链接到第 页面
专利
名称 申请号 专利类型 申请日期
一种热栅格扫描热波无损薄膜厚度检测方法 CN20191032394.0发明 2019.01.01
一种热栅格扫描热成像无损检测方法 CN201910325240.1发明 2019.01.01
热喷涂实验用多功能组合夹具 CN201521013763.6发明 2015.01.01
一种大气等离子喷涂热障涂层表面的新型激光处理方法 ZL201210520934.9发明 2014.12.24
一种热障涂层双轴强度测试方法 ZL201310027087.7发明 2014.02.10
热障涂层部件电磁涡流热成像无损检测系统及检测方法 CN201210436106.7发明 2012.11.05
一种高温透平叶片冷却系统 CN201210437643.3发明 2012.11.05
一种测试热障涂层强度的双轴拉伸试件 CN201210378015.2发明 2012.10.08
一种高隔热抗烧结热障涂层的增韧方法 CN201210435928.3发明 2012.10.05
一种热障涂层系统 CN201110308546.X发明 2011.01.01
共有10条记录 共有1页面 每页面显示 条记录 页索引: 1 链接到第 页面
论文期刊
论文标题 作者 发表/完成日期 期刊名称
Effect of Temperature-Dependent Properties on Cyclic Plasticity of Bond Coat in Thermal Barrier Systems Luo Chuan Su, Jian Guo Li, Wei Xu Zhang, Tie Jun Wang2013-02-20Key Engineering Materials
Local stress evolution in thermal barrier coating system during isothermal growth of irregular oxide layer Yongle Sun, Jianguo Li, Weixu Zhang, TJ Wang2013-02-15Surface and Coatings Technology
Effect of periodic surface cracks on the interfacial fracture of thermal barrier coating system XL Fan, R Xu, WX Zhang, TJ Wang2012-10-01Applied Surface Science
The effect of thermally grown oxide on multiple surface cracking in air plasma sprayed thermal barrier coating system XL Fan, WX Zhang, TJ Wang, Q Sun2012-09-15Surface and Coatings Technology
双层管道热力失效分析 张伟旭, 苏罗川, 孙永乐, 秦庆华, 王铁军2011-12-30中国科协第 235 次青年科学家论坛——极端复杂测试环境下实验力学的挑战与应对
The surface cracking behavior in air plasma sprayed thermal barrier coating system incorporating interface roughness effect WX Zhang, XL Fan, TJ Wang2011-11-01Applied Surface Science
The surface effect on the strain energy release rate of buckling delamination in thin film–substrate systems Tong Qing Lu, Wei Xu Zhang, TJ Wang2011-09-30International Journal of Engineering Science
Investigation on periodic cracking of elastic film/substrate system by the extended finite element method Xueling Fan, Weixu Zhang, Tiejun Wang, Guiwu Liu, Jinghua Zhang2011-05-15Applied Surface Science
Thermal Cycling Induced Crack Nucleation and Propagation in Thermal Barrier Coating System Yong Le Sun, Wei Xu Zhang, Man Tian, Tie Jun Wang2011-04-30Key Engineering Materials
Numerical Analysis of Elastoplastic Behavior of Foams with Ellipsoidal Pores Zhi Min Xu, Wei Xu Zhang, Tie Jun Wang2011-04-30Key Engineering Materials
Surface stress effect in mechanics of nanostructured materials Jianxiang Wang, Zhuping Huang, Huiling Duan, Shouwen Yu, Xiqiao Feng, Gangfeng W2011-02-28Acta Mechanica Solida Sinica
Deformation of closed-cell foams incorporating the effect of inner gas pressure Zhi Min Xu, Wei Xu Zhang, TJ Wang2010-09-01International Journal of Applied Mechanics
Effect of surface/interface stress on the plastic deformation of nanoporous materials and nanocomposites WX Zhang, TJ Wang, X Chen2010-07-31International Journal of Plasticity
Effect of inner gas pressure on the elastoplastic behavior of porous materials: a second-order moment micromechanics model Weixu Zhang, Zhimin Xu, Tie Jun Wang, Xi Chen2009-07-31International Journal of Plasticity
Effect of surface stress on the asymmetric yield strength of nanowires Weixu Zhang, Tiejun Wang, Xi Chen2008-06-15Journal of Applied Physics
Interphase effect on the strengthening behavior of particle-reinforced metal matrix composites WX Zhang, LX Li, TJ Wang2007-12-31Computational Materials Science
Numerical analysis of the transverse strengthening behavior of fiber-reinforced metal matrix composites WX Zhang, TJ Wang, LX Li2007-05-31Computational materials science
Effect of surface energy on the yield strength of nanoporous materials WX Zhang, TJ Wang2007-02-05Applied Physics Letters
玻璃态聚合物银纹化过程的数值模拟 王建国, 张伟旭, 王铁军2004-12-01应用力学学报
3D numerical analysis for the inelastic deformation of rubber particle modified polymers Tie Jun Wang, Wei Xu Zhang, Kikuo Kishimoto, Mitsuo Notomi2004-04-01Key Engineering Materials
共有40条记录 共有2页面 每页面显示 条记录 页索引: 1   2 首页   上一页   链接到第 页面
版权所有:西安交通大学 站点设计:网络信息中心 陕ICP备05001571号 联系电话:82668579 82668902 QQ群号:496666580
欢迎您访问我们的网站,您是第 位访客
推荐分辨率1024*768以上 推荐浏览器IE7 Firefox 以上