Influence of Anodic Layers on Fatigue-Crack Initiation in Aluminium

G. Beitel, C. Bowles
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引用次数: 8

Abstract

Abstract Polycrystal1ine 1100 and high-purity single-crystal aluminium samples were anodized to give oxide thicknesses between 200 and 1500 A, then subjected to low-cycle fatigue in high-humidity and vacuum environments. An ultrasonic method was used to identify crack initiation. Fatigue in a vacuum produces oxide cracks that are wider and fewer in number and results in an increase in fatigue life. Although the mode of fracture of both oxide and matrix is strongly dependent upon oxide thickness, it was found that neither the cycles to crack initiation nor the total fatigue lives were dependent upon oxide thickness.
阳极层对铝疲劳裂纹萌生的影响
摘要:将1100多晶铝和高纯单晶铝进行阳极氧化,使其氧化厚度在200 ~ 1500 A之间,然后在高湿和真空环境下进行低周疲劳处理。采用超声方法识别裂纹萌生。真空疲劳产生的氧化裂纹更宽、数量更少,从而提高了疲劳寿命。虽然氧化层和基体的断裂方式与氧化层厚度密切相关,但裂纹萌生循环次数和总疲劳寿命与氧化层厚度无关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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