Zhang G D,Zhao Y F,Xue F,et al.Life prediction of high temperature welded component by skeletal point rupture stress[J].Advanced Materials Research,2010(118-120):156-160.
[2]
杜鹏远.大型高压三通热压成形新工艺研究[D].秦皇岛:燕山大学,2011. Du Pengyuan.Study on new technology of hot-pressing forming for high pressure T-Tube[D].Qinhuangdao:Yanshan University,2011(in Chinese).
[3]
Zhang G D,Zhao Y F,Xue F,et al.Creep-fatigue interaction damage model and its application in modified 9Cr-1Mo steel[J].Nuclear Engineering and Design,2011,241(12):4856-4861.
[4]
张国栋,薛飞,王兆希,等.P91钢蠕变——疲劳交互作用下断裂特性研究[J].机械强度,2012,34(6):886-891. Zhang Guodong,Xue Fei,Wang Zhaoxi,et al.Investigation of fracture performance for P91 steel under creep-fatigue interaction[J].Journal of Mechanical Strength,2012,34(6):886-891(in Chinese).
[5]
束国刚,赵彦芬,薛飞,等.P91钢蠕变损伤试验研究与数值模拟[J].中国电机工程学报,2010,30(23):103-107. Shu Guogang,Zhao Yanfen,Xue Fei,et al.Experiment research and numerical simulation of creep damage performance for T91 steel[J].Proceedings of the CSEE,2010,30(23):103-107(in Chinese).
[6]
姚兵印,周荣灿,范长信,等.P92 钢中拉弗斯相的尺寸测量及其长大规律的动力学模拟计算[J].中国电机工程学报,2010,30(8):94-100. Yao Bingyin,Zhou Rongcan,Fan Changxin,et al.Measuring Laves phase particle size and thermodynamic calculating its growth and coarsening behavior in P92 steels[J].Proceedings of the CSEE,2010,30(8):94-100(in Chinese).
Hyde T H,Becker A A,Sun W,et al.Finite-element creep damage analyses of P91 pipes[J].International Journal of Pressure Vessels and Piping,2006,83(11-12):853-863.
[9]
Hyde T H,Sun W,Williams J A.Life estimation of pressurised pipe bends using steady-state creep reference rupture stresses[J].International Journal of Pressure Vessels and Piping,2002,79(12):799-805.
[10]
Hyde T H,Sun W.Effect of bending load on creep failure behavior of a pressurised thick walled CrMoV pipe weldment[J].International Journal of Pressure Vessels and Piping,2002,79(5):331-339.
[11]
张国栋,周昌玉.焊接接头残余应力及蠕变损伤的有限元模拟[J].金属学报,2008,44(7):848-852. Zhang Guodong,Zhou Changyu.Finite Element Simulations of Welding Residual Stress and Creep Damage for Welded Joint[J].ACTA Metallurgica Sinica,2008,44(7):848-852(in Chinese).
[12]
Yang X H,Li N,Jin Z H,Wang T J.A continuous low cycle fatigue damage model and its application in engineering materials[J].Internal Journal of Fatigue,1997,19(10):687-692.
[13]
Wang T J.Unified CDM model and local criterion for ductile fracture-I:Unified CDM model ductile fracture[J].Engineering Fracture Mechanics,1992,41(1)177-183.
[14]
Jing J P,Sun Y,Xia S B,et al.A continuum damage mechanics model on low cycle fatigue life assessment of steam turbine rotor[J].International Journal of Pressure Vessels and Piping,2001,78(1):59-64.
[15]
Goswami T,Hanninen H.Dwell effects on high temperature fatigue behavior.Part I[J].Materials and Design,2001,22(3):199-215.
[16]
Kim C S,Kwun S I,Park I K.Characterization of creep-fatigue in ferritic 9Cr-1Mo-V-Nb steel using ultrasonic velocity[J].Journal of Nuclear Materials,2008,377(3):496-500.
[17]
Fan Z C,Chen X D,Chen L,et al.A CDM-based study of fatigue-creep interaction behavior[J].International Journal of Pressure Vessels and Piping,2009,86(9):628-632.
[18]
Jing J P,Meng G,Sun Y,et al.An effective continuum damage mechanics model for creep-fatigue life assessment of a steam turbine rotor[J].International Journal of Pressure Vessels and Piping,2003,80(6):389-396.
[19]
Lee H Y,Lee S H,Kim J B,et al.Creep-fatigue damage for a structure with dissimilar metal welds of modified 9Cr-1Mo steel and 316 stain steel[J].International Journal of Fatigue,2007,29(9-11):1868-1879.
[20]
Fournier B,Sauzay M,Caes C,et al.High temperature creep-fatigue-oxidation interactions in 9-12%Cr martensitic steels[J].Journal of Nuclear Materials,2009,(386-388):418-421.
[21]
Bhaduri A K,Venkadesan S,Rodriguez P.Transition metal joints for steam generators-an overview[J].International Journal of Pressure Vessels and Piping,1994,58(3):251-265.
