Effect of removal of crack lips on the characteristics of the crack resistance of structural alloys

被引:1
作者
Tsybanev G.V. [1 ]
Torgov V.N. [1 ]
机构
[1] Institute of Problems of Strength, National Academy of Sciences of Ukraine, Kiev
来源
Strength of Materials | 1999年 / 31卷 / 5期
关键词
Fatigue Crack; Stress Intensity Factor; Fatigue Fracture; Crack Growth Rate; Fatigue Crack Growth;
D O I
10.1007/BF02511167
中图分类号
学科分类号
摘要
We develop a special procedure and perform experimental investigations of the influence of crack lips on the effect of crack closure under cyclic loading. Results of testing two types of steel and an aluminum alloy for cyclic crack resistance are analyzed for the cases of symmetric and asymmetric loading cycles and the case of symmetric cyclic loading accompanied by removal of material affecting the degree of crack closure from the crack lips. © 2000 Kluwer Academic/Plenum Publishers.
引用
收藏
页码:479 / 485
页数:6
相关论文
共 20 条
[1]  
Panasyuk V.V., Fracture Mechanics and Strength of Materials, (1988)
[2]  
Elber W., The significance of fatigue crack closure, Damage Tolerance in Aircraft Structures, pp. 230-262, (1971)
[3]  
Ho C.L., Buck O., Marcus H.L., Application of strip model to crack tip resistance and crack closure, Progress in Flow Growth and Fracture Toughness Testing, pp. 5-21, (1973)
[4]  
Ritchie R.O., Suresh S., Moss C.M., Fatigue crack growth in 2.25Cr-1Mo pressure vessel steel placed in air and in hydrogen at near-threshold stress intensities, Teor. Osn. Inzhener. Rasch., 102, 3, pp. 57-65, (1980)
[5]  
Stewart A.T., The influence of environment and stress ratio on fatigue crack growth at near-threshold stress intensities in low-alloy steels, Eng. Fract. Mech., 13, 3, pp. 463-478, (1980)
[6]  
Endo K., Kamai K., Ohnishi K., Effect of stress history and corrosive environments on fatigue crack propagation, Mem. Eng. Kyoto Univ., 31, pp. 25-46, (1969)
[7]  
Romaniv O.N., Tkach A.N., Lenets Yu.N., On the possibility of violation of the invariance of kinetic diagrams of fatigue fracture caused by the effect of crack closure, Fiz. -Khim. Mekh. Mater., 20, 6, pp. 62-70, (1984)
[8]  
Hornbogen E., Martensitic transformation at a propagating crack, Acta. Met., 26, 1, pp. 105-116, (1978)
[9]  
Tzin S.L., Suresh S., Ritchie R.O., Fatigue crack propagation in oil environmens. 1. Crack grwoth behavior in silicone and paraffin oils, Acta. Met., 33, 1, pp. 105-116, (1985)
[10]  
Minakawa K., McEvily A.J., On a crack in the near-threshold region, Scr. Met., 15, 16, pp. 633-636, (1981)
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