面内双轴疲劳载荷下剪切超载对Al-7075裂纹扩展的影响

Abhay K. Singh, S. Datta, A. Chattopadhyay, N. Phan
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引用次数: 3

摘要

采用Al 7075-T651十字形试样,研究了在不同裂纹长度、不同量级剪切超载作用下的面内双轴疲劳加载裂纹扩展行为。利用扫描电镜(SEM)对试样在两种不同裂纹长度值下的预过载区、过载区和过载后的微尺度断裂特征进行了识别和比较。结果表明,施加剪切过载所产生的瞬态区域提高了试件的疲劳寿命。超载时,疲劳裂纹扩展速率瞬间上升,随后出现明显的裂纹延迟。当裂纹走出暂态区并移动一段与恢复距离相等的距离后,裂纹扩展速率恢复。施加剪切过载的大小和过载位置相对于裂纹长度似乎都会影响瞬态区大小、疲劳寿命、裂纹扩展速率和恢复距离。对断口表面的研究表明,在不同裂纹长度处施加过载时,微尺度断裂特征没有明显变化;然而,当对预过载区、过载区和后过载区表面进行比较时,断裂特征出现了明显而显著的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Shear Overloads on Crack Propagation in Al-7075 Under In-Plane Biaxial Fatigue Loading
A cruciform specimen of Al 7075-T651 is used to study crack propagation behavior in an in-plane biaxial fatigue loading subjected to shear overloads of different magnitudes, which were applied at different crack lengths. The microscale fracture features of the specimen were identified and compared for the pre-overload region, overload region, and post-overload region at two different values of crack lengths, using scanning electron microscopy (SEM). It was observed that the transient region, created by the application of the shear overload, improved the fatigue life of the specimen. The overload also displayed an instant upsurge in the fatigue crack growth rate, which was immediately followed by a sharp crack retardation. The crack growth rate was restored once it came out of the transient zone and traveled a distance equal to the value of recovery distance. Both, the magnitude of the applied shear overload and the location of overload with respect to crack length seemed to affect the size of the transient zone, fatigue life, crack growth rate, and recovery distance. Investigations made on the fracture surfaces revealed that there is no significant change in the microscale fracture features when the overload was applied at different values of crack lengths; however, a clear and significant difference in the fracture features appear when the surfaces of the pre-overload region, overload region, and post-overload region are compared.
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