张春国
近期热点
资料介绍
个人简历
1982年生于山东临沂。教授、博士生导师。先后入选长安大学首批拔尖博士培养计划(2011)、长安大学首批卓越科研提升计划(2015)、陕西省百篇优秀博士学位论文(2016)、陕西省青年科技新星(2016)、长安大学首批“长安学者”青年学者(2018)、陕西省创新人才推进计划——中青年科技创新领军人才(2018)等人才支持计划。担任国家自然科学基金机械学科、力学学科及材料学科的函评专家,兼任Int J Fatigue, Eng Fract Mech, Mater Design, J Mater Process Tech等9个国际知名SCI期刊特邀审稿专家研究领域
1. 高强合金结构的疲劳可靠性及焊接非均质区寿命预测2. 缓冲层增寿及超载延寿理论3. 非线弹性断裂力学近期论文
[1] Chunguo Zhang, X Hu, Tim Sercombe, Qingbin Li, Zhimin Wu, Pengmin Lu. Prediction of ceramic fracture with normal distribution pertinent to grain size. Acta Mater 2018, 145: 41-48.[2] Chunguo Zhang, X Hu, Zhimin Wu, Qingbin Li. Influence of grain size on granite strength and toughness with reliability specified by normal distribution. Theor Appl Fract Mec 2018, 96: 534-544.[3] Chunguo Zhang*, Weizhen Song, Qitao Wang, Wen Liu. Influence of pre-stress magnitude on fatigue crack growth behavior of Al-alloy. Materials 2018, 11: 1267 – 1278.[4] Cuiping Ren, Qunqi Wu, Chunguo Zhang*, Shengzhong Zhang. A normal distribution-based methodology for analysis of fatal accidents in land hazardous material transportation. Int J Env Res Pub He 2018, 15: 1437-1448.[5] Chunguo Zhang*, Beibei Lei, Rongwei Liu, Fengfeng Huo. Trends of fatigue crack growth in 2024 Al-alloy after a single tensile overload. Mater Tehnol2018.[6] Chunguo Zhang*, Shuangge Yang, Shuai Luan, Jizhuang Hui, Wen Liu, Cuiping Ren. Positive effect of indentation on fatigue crack growth of mild steel. J Phys - Conf Series 1074 (2018) 012037.[7] A.V. Radchenko, P.A. Radchenko, S.P. Batuev, C.G. Zhang. Implementation of Johnson-Cook model in EFES program software. AIP Conf Proceed 2027, 030178 (2018)[8] Chunguo Zhang*, Cuiping Ren, Beibei Lei, X Hu, Pengmin Lu. Effect of post-weld heat-treatment on the fatigue and fracture mechanisms of weld-repaired Bisplate80 with or without a buffer layer. J Mater Eng Perform 2017, 26: 2742-53.[9] Cuiping Ren, Chunguo Zhang*, Qunqi Wu. Research on the value of road freight big data in government statistics. Amer Soc Civil Eng 2017: 339-345.[10] Chunguo Zhang*, Jizhuang Hui, Pengmin Lu, X Hu, Jia Liang. Effects of heterogeneity and load amplitude on fatigue rate prediction of a welded joint. Adv Mech Eng 2016, 8: 1-8.[11] Chunguo Zhang*, Pengmin Lu, X Hu,.Residual stress and softening in welded high-strength low-alloy steel with a buffering layer. J Mater Process Tech 2014, 214: 229-37.[12] Chunguo Zhang*, Pengmin Lu, X Hu, Xuding Song. Residual stress-induced deformation and fatigue crack growth in weld-repaired high-strength low-alloy steel with soft buffer layer. Mater Sci Eng A 2013, 564: 147-57.[13] Chunguo Zhang*, X Hu, Pengmin Lu, Gaiping Zhang. Tensile overload-induced plastic deformation and fatigue behavior in weld-repaired high-strength low-alloy steel. J Mater Process Tech 2013, 213: 2005-14.[14] Chunguo Zhang*, Pengmin Lu, Junhong Li. Effect of buffer layer thickness on fatigue and residual stress of weldedhigh-strength low-alloy. Adv Mater Res 2013, 820: 110-113.[15] Chunguo Zhang*, X Hu, Pengmin Lu. Fatigue and hardness effects of a thin buffer layer on the heat affected zone of a weld repaired Bisplate80.J Mater Process Tech 2012, 212: 393-401.[16] Chunguo Zhang, Songxu Ding, Pengmin Lu*, XHu. Effect of microstructure onmechanical properties in weld-repaired high strength low alloy steel.Mater Design 2012, 36: 233-42.[17] Chunguo Zhang, Jingzhou Yang, XHu,Pengmin Lu*,Maomao Zhao. Microstructure characteristics and fatigue properties of welded HSLA with and without buffer layer. Mater Sci Eng A2012, 546: 169-79.[18] Chunguo Zhang*, Pengmin Lu, X Hu, Xuding Song. Effect of buffer layer and notch locationon fatigue behavior in welded high-strength low-alloy. J Mater Process Tech 2012, 212:2091-101.[19] Chunguo Zhang, Stefan van der Vyer, X Hu, Pengmin Lu. Fatigue crack growth behaviour in weld-repaired high strength low alloy steel.Eng Fract Mech 2011, 78: 1862-75.[20] Chunguo Zhang, Stefan van der Vyer, X Hu. Fatigue behaviour of weld-repaired high strength low alloy steel.Adv Mater Res 2011, 275: 39-42. 相关热点