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蠕变疲劳交互作用下裂纹萌生的有限元模拟 被引量:7

Numerical simulation of crack initiation under creep-fatigue interaction in P92 steel
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摘要 通过结合初始应力应变场与连续损伤力学理论以及单元失效和裂纹萌生准则,构建了蠕变-疲劳交互作用下裂纹萌生的预测模型,将模型编写为UMAT耦合到ABAQUS有限元分析软件中,实现了初始无缺陷结构蠕变-疲劳交互作用下裂纹萌生的有限元模拟,并分析了影响裂纹萌生寿命的因素.通过与线性累计损伤理论对比发现,裂纹萌生位置蠕变损伤和疲劳损伤具有相互促进作用,蠕变疲劳的交互作用使裂纹萌生寿命减小;蠕变和疲劳载荷加载顺序对损伤的累积具有很大影响,模拟发现承受蠕变载荷的结构在承受后续循环载荷下总损伤值更大,裂纹萌生寿命更短. By combining the theory of continuum damage mechanics with initial stress and strain fields and criteria for element failure and crack initiation,a predictive model of crack initiation under creep-fatigue interaction was constructed. Based on the model,a user defined material subroutine( UMAT) was compiled and creep-fatigue damage accumulation was investigated by the finite element method using ABAQUS codes. Crack initiation was simulated in a structure without initial defects under a creepfatigue interaction. Factors affecting the time of crack initiation were investigated. In contrast to linear cumulative damage( LCD) theory,mutually promoting effects exist between creep damage and fatigue damage at crack initiation locations. Interaction between creep and fatigue shortens the time to crack initiation. The sequence of creep and fatigue loading greatly influences accumulation of damage at the crack initiation location.Cyclic loads cause larger damage after long periods of creep load compared with periods without creep load,hence time to crack initiation is shorter.
出处 《焊接学报》 EI CAS CSCD 北大核心 2016年第8期5-8,129,共4页 Transactions of The China Welding Institution
基金 国家自然科学基金资助项目(51475326)
关键词 蠕变疲劳交互 损伤 裂纹萌生 有限元模拟 creep-fatigue interaction damage crack initiation finite element simulation
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参考文献12

  • 1徐连勇,荆洪阳,周春亮,徐德录,韩钰.焊后热处理对P92钢管道焊接残余应力场的影响[J].焊接学报,2010,31(3):13-16. 被引量:24
  • 2徐连勇,荆洪阳,安俊超,徐德录,韩钰,陈玉成.P92钢焊接接头蠕变本构关系[J].焊接学报,2009,30(12):29-32. 被引量:5
  • 3马崇,荆洪阳,徐连勇,徐德录,陈玉成.P92钢Ⅳ型开裂的显微组织变化[J].焊接学报,2009,30(8):49-52. 被引量:9
  • 4Fournier B, Sauzay M, Caes C, et al. Creep-fatigue-oxidation interactions in a 9Cr-1Mo martensitic steel, Part I: Effect of ten- sile holding period on fatigue lifetime [ J ]. International Journal of Fatigue, 2008, 30(4) : 649 -662.
  • 5Wasmer K, Nikbin K M, Webster G A. Influence of reference stress formulae on creep and creep-fatigue crack initiation and growth prediction in plate components [ J ]. International Journal of Pressure Vessels and Piping, 2010, 87:447 -456.
  • 6Jing J P, Meng G, Sun Y, et al. An effective continuum damage mechanics model for creep-fatigue life assessment of a steam tur- bine rotor[ J]. International Journal of Pressure Vessels and Pip- ing, 2003, 80(6) : 389 -396.
  • 7Lemaitre J. Application of damage concepts to predict creep-fa- tigue failures[J]. Journal of Engineering Materials and Technolo- gy, 1979, 101(3): 284-292.
  • 8. Assessment procedure for the high temperature response of struc- tures[M]. Issue 3. Gloucester, UK: British Energy, 2003.
  • 9Kannan R, Srinivasan V S, Valsan M, et al. High temperature low cycle fatigue behaviour of 1:'92 tungsten added 9Cr steel[ Jl. Transactions of the Indian Institute of Metals, 2010, 63 (2 - 3 ) : 571 - 574.
  • 10Kannan R, Sankar V, Sandhya R, et al. Comparative evaluation of the low cycle fatigue behaviours of P91 and P92 steels [ J ]. Procedia Engineering, 2013, 55 : 149 - 153.

二级参考文献22

  • 1Allen D J, Harvey B, Brett S J. "FOURCRACK"-an investigation of the creep performance of advanced high alloy steel welds[ J]. International Journal of Pressure Vessels and Piping, 2007, 84(1 - 2): 104 - 113.
  • 2Manna G, Castello P, Harskamp F, et al. Testing of welded 2.25CrMo steel in hot high-pressure hydrogen under creep conditions [J]. Engineering Fracture Mechanics, 2007, 74(6) : 956 - 968.
  • 3Francis J A, Mazur W, Bhadeshia H K D H. Type IV cracking in ferritic power plant steels[J]. Materials Science and Technology, 2006, 22(12) : 1387 - 1395.
  • 4Shimpei Fujibayashi. Creep behaviour leading to Type IV cracking for service-extmsed 1.25Cr-0.SMo steel welds[J]. Engineering Fracture Mechanics, 2007, 74(6): 932-946.
  • 5Tezuka Hideshi, Sakurai Tezuka. A trigger of Type IV damage and a new heat treatment procedure to suppress it. Microstructural investigation of long-term ex-service Cr-Mo steel pipe elbows[J]. International Journal of Pressure Vessels and Piping, 2005, 82(3): 104- 113.
  • 6Tezuka Hideshi, Sakurai Takash. A trigger of type IV damage and a new heat treatment procedure to suppress it. Microstructural investigations of long-term ex-service Cr-Mo steel pipe elbows [J]. International Journal of Pressure Vessels and Piping, 2005, 82(3) : 165 - 174.
  • 7Allen D J, Harvey B, Brett S J. "FOURCRACK"-An investigation of the creep performance of advanced high alloy steel welds [J]. International Journal of Pressure Vessels and Piping, 2007, 84 ( 1 - 2 ) : 104- 113.
  • 8Manna G, Castello P, Harskamp F, etal Testing af welded 2.25CrMo steel in hot high-pressure hydrogen under creep conditions[J]. Engineering Fracture Mechanics, 2007, 74(6) : 956 - 968.
  • 9Francis J A, Mazur W, Bhadeshia H K D H. Type IV cracking in ferritic power plant steels[J]. Materials Science and Technology, 2006, 22(12) : 1387 - 1395.
  • 10Fujibayashi Shimpei, Kawano Koji, Komamura Takayuki, et al. Creep behavior of 2.25Cr-lMo steel shield metal are weldment[J]. ISIJ Intemational, 2004, 44(3): 581- 590.

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