[1] ELBER W. Fatigue crack closure under cyclic tension[J]. Engineering Fracture Mechanics,1970,2(1):37-45.
[2] RANS C,ALDERLIESTEN R,BENEDICTUS R. Misinterpreting the results:How similitude can improve our understanding of fatigue delamination growth[J]. Composites Science and Technology,2011,71(2):230-238.
[3] RITCHIE R O,SURESH S. The fracture mechanics similitude concept:Questions concerning its application to the behaviour of short fatigue cracks[J]. Materials Science and Engineering,1983,57:27-30.
[4] JAMES M N. Some unresolved issues with fatigue crack closure-measurement,mechanism and interpretation problems[C]//Proceeding of the 9th International Conference on Fracture. Sydney:Pergamon Press,1997,2403-2414.
[5] BUDIANSKY B,HUTCHINSON J W. Analysis of closure in fatigue crack growth[J]. Journal of Applied Mechanics,1978,45(2):267-276.
[6] GARZ R E,JAMES M N. Observations on evaluating fatigue crack closure from compliance traces[J]. International Journal of Fatigue,1989,11:437-440.
[7] JAMES M N,KNOTT J F. Critical aspects of the characterization of crack tip closure by compliance techniques[J]. Materials Science and Engineering,1985,72:1-4.
[8] BOWMAN R,ANTOLOVICH S D,BROWN R C. A demonstration of problems associated with crack closure measurement techniques[J]. Engineering Fracture Mechanics,1988,31(4):703-712.
[9] JAMES M N,PACEY M N,WEI L W,et al. Characterisation of plasticity-induced closure-crack flank contact force versus plastic enclave[J]. Engineering Fracture Mechanics,2003,70:2473-2487.
[10] PACEY M N,JAMES M N,PATTERSON E A. A new photoelastic model for studying fatigue crack closure[J]. Experimental Mechanics,2005,45(1):42-52.
[11] MUSKHELISHVILI N I. Some basic problems of the mathematical theory of elasticity[M]. 4th ed. Leyden:Noordhoff International,1977.
[12] SANFORD R J. A critical re-examination of the Westergaard method for solving opening-mode crack problems[J]. Mechanics Research Communications,1979,6(5):289-294.
[13] CHRISTOPHER C J,JAMES M N,PATTERSON E A,et al. Towards a new model of crack tip stress fields[J]. International Journal of Fracture,2007,148:361-371.
[14] CHRISTOPHER C J,JAMES M N,PATTERSON E A,et al. A quantitative evaluation of fatigue crack shielding forces using photoelasticity[J]. Engineering Fracture Mechanics,2008,75:4190-4199.
[15] 杜泓飞,曾攀,雷丽萍,等. 研究NiTi合金相变局部化现象的宏观原位多场测试方法及分析[J]. 机械工程学报,2013,49(24):15-23. DU Hongfei,ZENG Pan,LEI Liping,et al. Experimental design and analysis for in situ macroscopic multi-fields measurements on transformation localization in NiTi alloy[J]. Journal of Mechanical Engineering,2013,49(24):15-23
[16] 何文斌,曾攀,赵加清,等. 重型液压机机架变形的数字图像相关测量与降温法有限元模拟[J]. 机械工程学报,2015,51(18):34-41. HE Wenbin,ZENG Pan,ZHAO Jiaqing,et al. Deformation measurement based on digital image correlation and finite element analysis based on cooling method of heavy hydraulic press frame[J]. Journal of Mechanical Engineering,2015,51(18):34-41.
[17] McNEILL S R,PETER W H,SUTTON M A. Estimation of stress intensity factor by digital image correlation[J]. Engineering Fracture Mechanics,1987,28(1):101-112.
[18] JAMES M N,CHRISTOPHER C J,LU Y,et al. Local crack plasticity and its influences on the global elastic stress field[J]. International Journal of Fatigue,2013,46:4-15.
[19] CHRISTOPHER C J,LABOVICIUTE G,JAMES M N,et al. Extension of the CJP model to mixed mode I and mode Ⅱ[J]. Frattura ed Integrità Strutturale,2013,25:161-166.
[20] LABOVICIUTE G,CHRISTOPHER C J,JAMES M N. Growth of inclined fatigue cracks using the biaxial CJP model[J]. Fratturaed Integrità Strutturale,2015,33:167-173.
[21] VASCO-OLMO J M,JAMES M N,CHRISTOPHER C J,et al. Assessment of crack tip plastic zone size and shape and its influence on crack tip shielding[J]. Fatigue & Fracture of Engineering Materials & Structures,2016,39:969-981.
[22] SRAWLEY J E. Wide-range stress intensity factor expressions for ASTM E399 standard fracture toughness specimens[J]. International Journal of Fracture,1976,12:475-480.
[23] TADA H,PARIS P C,IRWIN G R. The stress analysis of cracks handbook[M]. New York:ASM International,2000.
[24] WILLIAMS M L. On the stress distribution at the base of a stationary crack[J]. Journal of Applied Mechanics,1957,24:109-114.
[25] 刘建涛,杜平安. 考虑过载效应的金属材料疲劳裂纹扩展试验数据拟合及疲劳裂纹扩展速度计算方法研究[J]. 机械工程学报,2012,48(4):85-91. LIU Jiantao,DU Pingan. Research on the curve fitting of fatigue test data and computation of fatigue crack growth rates of metals in consideration of the retardation effect[J]. Journal of Mechanical Engineering,2012,48(4):85-91.
[26] PARIS P,ERDOGAN F. A critical analysis of crack propagation laws[J]. Journal of Basic Engineering,1963,85:528-534. |