疲劳小裂纹理论及其应用
Review of Small-crack Theory and Its Applications
摘 要
疲劳小裂纹扩展行为是结构耐久性和损伤容限设计中关心的重要问题.着重对疲劳小裂纹扩展的微观机制、解析描述进行了分析和讨论:并评述了疲劳小裂纹理论在全寿命预测、耐久性分析和裂纹形成/扩展分界等方面的应用.
微观机制
裂纹扩展速率
small-crack theory
microstructural effects
crack growth rate
Abstract
Fatigue small crack growth behavior is an important issue in structural durability and damage tolerance design.Small-crack theory is reviewed in this paper.Microstructural effects in small crack growth and analytical description of small crack growth rate are emphatically analyzed.Also the applications of small-crack theory to total fatigue life prediction,durability analysis,and crack initiation/propagation demarcation are briefly discussed.
中图分类号 V215 V250
所属栏目
基金项目 国防“十一五”重点预研资助项目(513270501);空军工程大学工程学院博士基金资助项目(BC0505,BC06008)
收稿日期 2007/1/25
修改稿日期 2007/3/27
网络出版日期
作者单位点击查看
备注李锋(1979-),男,河北安平人,博士研究生.
引用该论文: LI Feng,HE Yu-ting,FAN Chao-hua,LI Hong-peng,CUI Rong-hong. Review of Small-crack Theory and Its Applications[J]. Materials for mechancial engineering, 2007, 31(11): 6~9
李锋,何宇廷,范超华,李鸿鹏,崔荣洪. 疲劳小裂纹理论及其应用[J]. 机械工程材料, 2007, 31(11): 6~9
被引情况:
【1】秦承华,叶申,张显程,涂善东, "晶粒尺寸对GH4169镍基合金疲劳小裂纹扩展的影响",机械工程材料 40, 11-15(2016)
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参考文献
【1】Wu X R,Newman J C,Zhao W,et al.Small crack growth and fatigue life predictions for high-strength aluminium alloys[J].Fatigue and Fracture of Engineering Materials and Structures,1998,21:1289-1306.
【2】Schijve J.Four lectures on fatigue crack growth[J].Engineering Fracture Mechanics,1979,11:167-221.
【3】郭万林,傅祥炯.论疲劳短裂纹[J].航空学报,1990,11(8):383-386.
【4】肖方红.基于小裂纹扩展的疲劳全寿命计算方法研究[D].西安:西北工业大学,2001.
【5】Newman J C Jr.The merging of fatigue and fracture mechanics concepts:a historical perspective[J].Progress in Aerospace Sciences,1998,34:347-390.
【6】吴志学,孙训方.缺口试样疲劳短裂纹行为研究[J].应用力学学报,1998,15(3):72-77.
【7】Abel O O.A new unified phenomenological model for fatigue crack initiation,short crack propagation,long crack propagation and closure effects[D].Stanford University,1987.
【8】龙国胜,郦正能,何庆芝,等.高强度铝合金小裂纹疲劳扩展规律研究[J].北京航空航天大学学报,1996,22(3):274-278.
【9】吴志学,孙训方.疲劳短裂纹形成和扩展物理模型[J].西南交通大学学报,1997,32(6):593-597.
【10】Hussain K.Short fatigue crack behaviour and analytical models:a review[J].Engineering Fracture Mechanics,1997,58(4):327-354.
【11】Potirniche G P,Daniewicz S R.Analysis of crack tip plasticity for microstructurally small cracks using crystal plasticity theory[J].Engineering Fracture Mechanics,2003,70:1623-1643.
【12】Potirniche G P,Daniewicz S R.Finite element modeling of microstructurally small cracks using single crystal plasticity[J].International Journal of Fatigue,2003,25:877-884.
【13】Potirniche G P,Daniewicz S R,Newman J C Jr.Simulating small crack growth behaviour using crystal plasticity theory and finite element analysis[J].Fatigue and Fracture of Engineering Materials and Structures,2004,27:59-71.
【14】丁传富,吴学仁.疲劳小裂纹的断裂力学参数及试验方法的研究进展[J].航空学报,1996,17(6):640-647.
【15】吴学仁,刘建中.基于小裂纹理论的航空材料疲劳全寿命预测[J].航空学报,2006,27(2):219-226.
【16】丁传富,刘建中,胡本润,等.金属材料疲劳小裂纹扩展速率试验方法编制说明[J].材料工程,2001,3:40-43.
【17】Hertzberg R W,Newton C H,Jaccard R.Crack closure:correlation and confusion.Mechanics of fatigue crack closure[M].Philadelphia:ASTM STP,1988:139-148.
【18】Chen D L,Weiss B,Stickler R.Contribution of the cyclic loading portion below the opening load to fatigue crack growth[J].Materials Science and Engineering A,1996,208:181-187.
【19】Donald J K,Paris P C.An evaluation of effective stress intensity range estimation procedures on two aluminum alloys[J].International Journal of Fatigue,1999,21:S47-S57.
【20】Paris P C,Tada H,Donald J K.Service load fatigue damage-a historical perspective[J].International Journal of Fatigue,1999,21:S35-S46.
【21】Kujawski D.Correlation of long-and physically short-cracks growth in aluminum alloys[J].Engineering Fracture Mechanics,2001,68:1357-1369.
【22】Sadananda K,Vasudevan A K.Short crack growth and internal stresses[J].International Journal of Fatigue,1997,19:S99-S108.
【23】Vasudevan A K,Sadananda K,Glinka G.Critical parameters for fatigue damage[J].International Journal of Fatigue,2001,23:S39-S53.
【24】Lukas P,Kunz L.Small cracks-nucleation,growth and implication to fatigue life[J].International Journal of Fatigue,2003,25:855-862.
【25】Newman J C Jr,Phillips E P,Everett R A Jr.Fatigue analyses under constant-and variable-amplitude loading using small-crack theory[R].NASA/TM-1999-209329,1999.
【26】Newman J C Jr,Phillips E P,Swain M H.Fatigue-life prediction methodology using small-crack theory[J].International Journal of Fatigue,1999,21:109-119.
【27】李航月.残余压应力场中二维和三维疲劳短裂纹的扩展[D].西安:西安交通大学,1997.
【28】陈勃,吴学仁,刘建中.基于小裂纹扩展的耐久性分析和经济寿命预测方法[J].机械强度,2004,26(S):246-249.
【29】Schijve J.Fatigue of structures and materials in the 20th century and the state of the art[J].Materials Science,2003,39(3):307-332.
【30】Shang D,Yao W,Wang D.A new approach to the determination of fatigue crack initiation size[J].International Journal of Fatigue,1998,20(9):683-687.
【31】吕文阁.疲劳短裂纹形成和扩展的划分定义探讨[J].机械工程材料,1999,23(6):18-19.
【2】Schijve J.Four lectures on fatigue crack growth[J].Engineering Fracture Mechanics,1979,11:167-221.
【3】郭万林,傅祥炯.论疲劳短裂纹[J].航空学报,1990,11(8):383-386.
【4】肖方红.基于小裂纹扩展的疲劳全寿命计算方法研究[D].西安:西北工业大学,2001.
【5】Newman J C Jr.The merging of fatigue and fracture mechanics concepts:a historical perspective[J].Progress in Aerospace Sciences,1998,34:347-390.
【6】吴志学,孙训方.缺口试样疲劳短裂纹行为研究[J].应用力学学报,1998,15(3):72-77.
【7】Abel O O.A new unified phenomenological model for fatigue crack initiation,short crack propagation,long crack propagation and closure effects[D].Stanford University,1987.
【8】龙国胜,郦正能,何庆芝,等.高强度铝合金小裂纹疲劳扩展规律研究[J].北京航空航天大学学报,1996,22(3):274-278.
【9】吴志学,孙训方.疲劳短裂纹形成和扩展物理模型[J].西南交通大学学报,1997,32(6):593-597.
【10】Hussain K.Short fatigue crack behaviour and analytical models:a review[J].Engineering Fracture Mechanics,1997,58(4):327-354.
【11】Potirniche G P,Daniewicz S R.Analysis of crack tip plasticity for microstructurally small cracks using crystal plasticity theory[J].Engineering Fracture Mechanics,2003,70:1623-1643.
【12】Potirniche G P,Daniewicz S R.Finite element modeling of microstructurally small cracks using single crystal plasticity[J].International Journal of Fatigue,2003,25:877-884.
【13】Potirniche G P,Daniewicz S R,Newman J C Jr.Simulating small crack growth behaviour using crystal plasticity theory and finite element analysis[J].Fatigue and Fracture of Engineering Materials and Structures,2004,27:59-71.
【14】丁传富,吴学仁.疲劳小裂纹的断裂力学参数及试验方法的研究进展[J].航空学报,1996,17(6):640-647.
【15】吴学仁,刘建中.基于小裂纹理论的航空材料疲劳全寿命预测[J].航空学报,2006,27(2):219-226.
【16】丁传富,刘建中,胡本润,等.金属材料疲劳小裂纹扩展速率试验方法编制说明[J].材料工程,2001,3:40-43.
【17】Hertzberg R W,Newton C H,Jaccard R.Crack closure:correlation and confusion.Mechanics of fatigue crack closure[M].Philadelphia:ASTM STP,1988:139-148.
【18】Chen D L,Weiss B,Stickler R.Contribution of the cyclic loading portion below the opening load to fatigue crack growth[J].Materials Science and Engineering A,1996,208:181-187.
【19】Donald J K,Paris P C.An evaluation of effective stress intensity range estimation procedures on two aluminum alloys[J].International Journal of Fatigue,1999,21:S47-S57.
【20】Paris P C,Tada H,Donald J K.Service load fatigue damage-a historical perspective[J].International Journal of Fatigue,1999,21:S35-S46.
【21】Kujawski D.Correlation of long-and physically short-cracks growth in aluminum alloys[J].Engineering Fracture Mechanics,2001,68:1357-1369.
【22】Sadananda K,Vasudevan A K.Short crack growth and internal stresses[J].International Journal of Fatigue,1997,19:S99-S108.
【23】Vasudevan A K,Sadananda K,Glinka G.Critical parameters for fatigue damage[J].International Journal of Fatigue,2001,23:S39-S53.
【24】Lukas P,Kunz L.Small cracks-nucleation,growth and implication to fatigue life[J].International Journal of Fatigue,2003,25:855-862.
【25】Newman J C Jr,Phillips E P,Everett R A Jr.Fatigue analyses under constant-and variable-amplitude loading using small-crack theory[R].NASA/TM-1999-209329,1999.
【26】Newman J C Jr,Phillips E P,Swain M H.Fatigue-life prediction methodology using small-crack theory[J].International Journal of Fatigue,1999,21:109-119.
【27】李航月.残余压应力场中二维和三维疲劳短裂纹的扩展[D].西安:西安交通大学,1997.
【28】陈勃,吴学仁,刘建中.基于小裂纹扩展的耐久性分析和经济寿命预测方法[J].机械强度,2004,26(S):246-249.
【29】Schijve J.Fatigue of structures and materials in the 20th century and the state of the art[J].Materials Science,2003,39(3):307-332.
【30】Shang D,Yao W,Wang D.A new approach to the determination of fatigue crack initiation size[J].International Journal of Fatigue,1998,20(9):683-687.
【31】吕文阁.疲劳短裂纹形成和扩展的划分定义探讨[J].机械工程材料,1999,23(6):18-19.
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