1.Yongjie Liu, Fulin Liu, Ruixiang He, Qingyuan Wang, Chong Wang, Chao He, Khan Muhammad Kashif, Yao Chen. Mechanical behaviors of electron beam welded titanium alloy up to very high cycle fatigue under different process conditions.Mater. Sci. Eng. A,2021,802,140685. ( IF=4.652,Q1,一区) 2.Yongjie Liu, Yao Chen, Chao He, Fulin Liu, Kun Yang, Lang Li, Hong Zhang,Chong Wang, Qingyuan Wang. Vacuum retarding and air accelerating effect on the high-cycle andvery-high-cycle fatigue behavior of a ZK60 magnesium alloy.Mater. Design, 2021,198: 109310. ( IF=6.289,Q1,一区) 3.Hong Zhang, Quanyi Wang, Xiufang Gong, Tianjian Wang, Wei Zhang, Ke Chen, Chong Wang,Yongjie Liu(通讯),Qingyuan Wang. Dependence on temperature of compression behavior and deformation mechanisms of nickel-based single crystal CMSX-4.J.Alloy.Comp., 2021,866:158878.( IF=4.65,Q1,二区) 4.Xiaodong Zhang, Tianjian Wang, Xiufang Gong, Qingsong Li,Yongjie Liu, Quanyi Wang, Hong Zhang, Qingyuan Wang. Low cycle fatigue properties, damage mechanism, life prediction and microstructure of MarBN steel: Influence of temperature.Int. J. Fatigue, 2021,144:106070. 5.Shun-Peng Zhu,Jin-Chao He,Ding Liao, Qingyuan Wang,Yongjie Liu(通讯). The effect of notch size on critical distance and fatigue life predictions.Mater. Design, 2020,196: 109095. ( IF=6.289,Q1,一区) 6.Fulin Liu, Chao He,Yao Chen,Hong Zhang, Qingyuan Wang,Yongjie Liu(通讯). Effects of defects on tensile and fatigue behaviors of selective laser melted titanium alloy in very high cycle regime.Int. J. Fatigue, 2020,140. ( IF=4.369,Q1,一区) 7.Hong Zhang, Peidong Li, Xiufang Gong, Tianjian Wang, Lang Lia,Yongjie Liu(通讯), Qingyuan Wang*. Tensile properties, strain rate sensitivity and failure mechanism of single crystal superalloys CMSX-4.Mater. Sci. Eng. A,2020,782:139105. ( IF=4.652,Q1,一区) 8.Yao Chen, Ruofan Zhang,Chao He,Fulin Liu, KunYang,Chong Wang,Qingyuan Wang,Yongjie Liu(通讯).Effect of texture and banded structure on the crack initiation mechanism of a friction stir welded magnesium alloy joint in very high cycle fatigue regime.Int. J. Fatigue, 2020, 136:105617 . ( IF=4.369,Q1,一区) 9.Yao Chen, Chao He, Fulin Liu, Chong Wang, Qing Xie, Qingyuan Wang,Yongjie Liu(通讯). Effect of microstructure inhomogeneity and crack initiation environment on the very high cycle fatigue behavior of a magnesium alloy.Int. J. Fatigue, 2020,131,1-9. ( IF=4.369,Q1,一区) 10.Xue Li,Ruofan Zhang,Xiangyu Wang,Yongjie Liu,Chong Wang,Hong Zhang,Lang Li,Chao He,QingyuanWang. Effect of high temperature on crack initiation of super austenitic stainless steel 654SMO in very high cycle fatigue.Mater. Design,, 2020, 193:1-8. ( IF=6.289,Q1,一区) 11.Quanyi Wang, Qingyuan Wang, Xiufang Gong, Tianjian Wang, Wei Zhang, Lang Li,Yongjie Liu, Chao He, Chong Wang, Hong Zhang*. A comparative study of low cycle fatigue behavior and microstructure of Cr-based steel at room and high temperatures.Mater. Design, 2020, 195:109000.( IF=6.289,Q1,一区) 12.Lang Li, Long Shi, Qingyuan Wang,Yongjie Liu,Jiangfeng Dong, Hong Zhang, Guomin Zhang.A review on the recovery of fire-damaged concrete with post-fire-curing.Constr. Build. Mater.,2020,237:1-17. ( IF=4.419,Q1,一区) 13.Yao Chen, Chao He , Kun Yang , Hong Zhang , Chong Wang , Qingyuan Wang,Yongjie Liu(通讯). Effects of microstructural inhomogeneities and micro-defects on tensile and very high cycle fatigue behaviors of the friction stir welded ZK60 magnesium alloy joint.Int. J. Fatigue, 2019,122,218-227. ( IF=4.369,Q1,一区) 14.Fulin Liu,Hong Zhang ,Hanqing Liu,Yao Chen,Khan Muhammad Kashif,Qingyuan Wang,Yongjie Liu(通讯). Influence of Welded Pores on Very Long-Life Fatigue Failure of the Electron Beam Welding Joint of TC17 Titanium Alloy.Materials,2019, 12(11), 1825. ( IF=3.057,Q1,三区) 15.Liu HQ,Wang HM,Zhang Z,Liu YJ,Huang ZY,Wang QY,Chen Q. Tensile and fatigue behavior of electron beam welded TC17 titanium alloy joint.Int. J. Fatigue,2019,128:105210. ( IF=4.369,Q1,一区) 16.Liu H,Wang HM,Zhang Z,Huang ZY,Liu YJ,Wang QY,Chen Q. Enhancing the mechanical properties of electron beam welded TC17 titanium alloy joint by post-weld heat treatment.J. Alloys. Comp.,2019,810:1-9.(IF=4.65,Q1,二区) 17.Chao He, Yujuan Wu, Liming Peng, Ning Su, Qiang Chen, Shucheng Yuan,Yongjie Liu, Qingyuan Wang. Effect of microstructure on small fatigue crack initiation and early propagation behavior in Mg-10Gd-3Y-0.3Zr alloy.Int. J. Fatigue, 2019,119,311-319. ( IF=4.369,Q1,一区) 18.Kun Yang, Bin Zhong, Qi Huang, Chao He, Zhi Yong Huang, Qingyuan Wang,Yong-Jie Liu(通讯). Stress ratio effect on notched fatigue behavior of a Ti-8Al-1Mo-1V alloy in the very high cycle fatigue regime.Int. J. Fatigue, 2018, 116(1):80-89. ( IF=4.369,Q1,一区) 19.C. HE, K. YANG,Y. LIU(通讯), Q. WANG*, M. CAI. Improvement of very high cycle fatigue properties in an AA7075 friction stir welded joint by ultrasonic peening treatment.Fatigue Fract. Mater. Struct. Eng., 2017,40(3):460-468. ( IF=3.031,Q1,二区) 20.Kun Yang, Chao He, Qi Huang, Zhi Yong Huang, Cong Wang, Qingyuan Wang*,Yongjie Liu(通讯). Very high cycle fatigue behaviors of a turbine engine blade alloy at various stress ratios.Int. J. Fatigue, 2017, 99(1):35-43. ( IF=4.369,Q1,一区) |
1.王宠,王清远,刘永杰,王多贤,王多宣,何博.一种材料表面改性装置及改性方法.专利号:ZL 201611128460.8,授权公告日:2019-04-23. 2.王清远,李久楷,刘永杰,张宏,谢少雄,侯方.汽轮机转子超高周疲劳疲劳强度与疲劳寿命评估方法.专利号:ZL 201610486983.3,授权公告日:2019-04-09. 3.张宏,王清远,刘永杰,王宠,李浪.基于Abaqus平台疲劳损伤与寿命评估方法.专利号:ZL 201910507043.1,授权公告日: 2020-01-07. 4.王清远,刘永杰,李久楷.一种低温超声振动疲劳实验系统.专利号:ZL 201510995499.9, ,授权公告日:2018-07-31. 5.王清远,田仁慧,刘永杰.微动摩擦超声振动超长寿命疲劳试验装置.专利号:ZL201110328563.X,授权公告日:2015-10-21. 6.王清远,张宏,李久楷,刘永杰.材料热加工全流程热力流微观组织多物理场数值计算方法.专利号:ZL 201610585461.9,授权公告日:2019-06-07. 7.刘永杰,杨昆,王清远,李久楷,何超,王聪.一种应用于超声加速疲劳试验的生理环境模拟装置..申请号:201610580048.3,申请日:2016-7-22. 8.张宏,王清远,刘永杰,王宠,李浪.基于晶体塑性焊接工艺模型的损伤与疲劳寿命评估方法.申请号:201910507813.2,申请日:2019-06-12 9.张宏,王清远,刘永杰,王宠,李浪.面心立方材料疲劳过程晶体塑性本构模型建立方法.申请号:201910507805.8,申请日:2019-06-12 10.张宏,王清远,刘永杰,王宠,李浪.微观-宏观尺度钣金成形工艺模型的损伤与疲劳寿命评估方法.申请号:201910507041.2,申请日:2019-06-12. 11.李浪,王清远,刘永杰,董江峰.一种非接触式多尺度裂纹识别方法.申请号:201910389444.1,申请日:2019-05-10 12.王宠,邓海鳞,王清远,刘永杰,黄志勇,范海冬.一种超声共振多轴弯曲疲劳实验装置.申请号:201910184754.X,申请日:2019-03-12. 13.李浪,王清远,董江峰,刘永杰.一种获得混凝土中骨料-砂浆粘结强度变化情况的方法.申请号:201910438032.2,申请日:2019-05-24. 14.王清远,张宏,李久楷,刘永杰.摩擦焊工艺热力流微观组织多物理场数值计算方法.申请号:201610586477.1,申请日:2016-07-25. 15.刘永杰,王清远,李久楷,何超,崔仕明.超声加速振动超长寿命腐蚀疲劳实验装置.专利号:ZL 201420157130.1,授权公告日:2014-07-30.(实用新型) 16.刘永杰,杨昆,王清远,李久楷,何超,王聪,应用于超声加速疲劳试验的生理环境模拟装置,中国专利,专利号:ZL 201620774739.2.授权公告日:2017-2-22.(实用新型) 17.王清远,刘永杰,田仁慧.薄片超声弯曲振动疲劳加速试验装置.专利号:ZL 201120412120.4,授权公告日:2012-06-27.(实用新型) 18.王清远,刘永杰,田仁慧.高温超声振动超长寿命疲劳试验装置.专利号:ZL 201120412119.1,授权公告日:2012-05-30.(实用新型) 19.王清远,田仁慧,刘永杰.微动摩擦超声振动超长寿命疲劳试验装置.专利号:ZL 201120412118.7,授权公告日:2012-05-30.(实用新型) 20.王清远,李久楷,刘永杰.基于感应加热的高温超长寿命疲劳实验系统.专利号:ZL 201320477008.8,授权公告日:2013-12-25.(实用新型) 21.王清远,李久楷,刘永杰.高温旋转弯曲疲劳裂纹扩展测量装置.专利号:ZL 201320479400.6,授权公告日:2013-12-18.(实用新型) 22.邓海鳞,王宠,王清远,刘永杰,蒋文涛,黄志勇.一种用于多轴疲劳试验的装置.专利号:ZL 201920309824.5,授权公告日:2019-08-27.(实用新型) |