江荣
-
教授
博士生导师
- 招生学科专业:
动力工程及工程热物理 -- 【招收博士、硕士研究生】 -- 能源与动力学院
航空宇航科学与技术 -- 【招收硕士研究生】 -- 能源与动力学院
能源动力 -- 【招收博士、硕士研究生】 -- 能源与动力学院
- 毕业院校:University of Southampton
- 学历:南安普顿大学
- 学位:哲学博士学位
- 所在单位:能源与动力学院
- 联系方式:17826026721
rjiang@nuaa.edu.cn
- 电子邮箱:6af5406331247afac70f3470316ce5dc621af297a07e4e3a9632c4911a4adb5f57a19b94da0a4a800795a14d13b5349a2b968040677b42a31faca77bb0bc05353275144f68d83c464e764ff948d08fec5e298c90662a2ed70f8214f45b55f75f4bb298d6bf297e8deb2ef5add7917e7130a021a4fdd2dc8fe3a9cf80e8888051
访问量:
-
[1] 江荣,江荣,嵇大伟,石豪闯,胡绪腾,宋迎东,.Effects of thermal exposure on high-cycle-fatigue behaviours in Ni-based superalloy GH4169:Materials Science and Technology,2019
-
[2] R. Jiang,Y. Ma,B. Chen,X. Hao,S. Li,K. Liu.Micro-segregation and Precipitation of Alloy 690 during Isothermal Solidification: the Role of Nitro:Journal of Materials Science & Technology,28:446-452
-
[3] S. Everitt,R. Jiang,N. Gao,M.J. Starink,J.W. Brooks,P.A.S. Reed.Comparison of fatigue crack propagation behaviour in two gas turbine disc alloys under creep–fatigu:Materials Science and Technology,29:781-787
-
[4] R. Jiang,,S. Everitt,M. Lewandowski,N. Gao,P.A.S. Reed.Grain size effects in a Ni-based turbine disc alloy in the time and cycle dependent crack growth reg:International Journal of Fatigue,62:217-227
-
[5] F. Farukh,,L. Zhao,R. Jiang,P. Reed,D. Proprentne,B. Shollock.Fatigue crack growth in a nickel-based superalloy at elevated temperature - experimental studies, vi:Mechanics of Advanced Materials and Modern Processes,1:1-13
-
[6] R. Jiang,,S. Everitt,N. Gao,K. Soady,J.W. Brooks,P.A.S. Reed.Influence of oxidation on fatigue crack initiation and propagation in turbine disc alloy N18:International Journal of Fatigue,75:89-99
-
[7] R. Jiang,,N. Gao,P.A.S. Reed.Influence of orientation-dependent grain boundary oxidation on fatigue cracking behaviour in an adva:Journal of Materials Science,50:4379-4386
-
[8] R. Jiang,,N. Karpasitis,N. Gao,P.A.S. Reed.Effects of microstructures on fatigue crack initiation and short crack propagation at room temperatu:Materials Science and Engineering: A,641:148-159
-
[9] F. Farukh,,L.G. Zhao,R. Jiang,P. Reed,D. Proprentner,B.A. Shollock.Realistic microstructure-based modelling of cyclic deformation and crack growth using crystal plasti:Computational Materials Science,111:395-405
-
[10] R. Jiang,P.A.S. Reed.Critical Assessment 21: oxygen-assisted fatigue crack propagation in turbine disc superalloys:Materials Science and Technology,32:401-406
-
[11] R. Jiang,,D. J. Bul,D. Proprentner,B. Shollock,P. A. S. Reed.Effects of oxygen-related damage on dwell-fatigue crack propagation in a P/M Ni-based superalloy: fr:International Jouranl of fatigue,99:175-186
-
[12] R. Jiang,,F. Pierron,S. Octaviani,P.A.S. Reed.Characterisation of strain localisation processes during fatigue crack initiation and early crack pr:Materials Science and Engineering A,699:128-144
-
[13] X. T. Hu,,L. Zhu,R. Jiang,Y. D. Song,S. D. Qu.Small fatigue crack growth behavior of titanium alloy TC4 at different stress ratios:Fatigue and Fracture of Engineering Materials and Structures,2018,42:339-351
-
[14] 江荣,江荣,Proprentner, D.,Callisti, M.,Shollock, B.,胡绪腾,宋迎东,Reed, P. A. S..Role of oxygen in enhanced fatigue cracking in a PM Ni-based superalloy: Stress assisted grain bound:CORROSION SCIENCE,2018
-
[15] 江荣,江荣,Bull, D. J.,Evangelou, A.,Harte, A.,Pierron, F.,Sinclair, I.,Preuss, M.,胡绪腾,Reed, P. A. S..Strain accumulation and fatigue crack initiation at pores and carbides in a SX superalloy at room te:INTERNATIONAL JOURNAL OF FATIGUE,2018
-
[16] Junling Hou,Hong Zuo,Qun Li,Rong Jiang,Liguo Zhao.M-integral analysis for cracks in a viscoplastic material with extended finite element method:Engineering Fracture Mechanics,2018(200):294-311
-
[17] R. J. Kashinga,L.G. Zhao,V. V. Silberschmidt,R. Jiang,P. A. S. Reed.A diffusion-based approach for modelling crack tip behaviour under fatigue-oxidation conditions:International Journal of Fracture,2018,213((2)):157-170
-
[18] Lei Zhu,Xuteng Hu,Rong Jiang,Yingdong Song,Shoudao Qu.Experimental investigation of small fatigue crack growth due to foreign object damage in titanium al:Materials Science and Engineering A(739):214-224