Fatigue damage in aluminum single crystals—I. On the surface containing the slip burgers vector

T. Zhai, J.W. Martin, G.A.D. Briggs
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引用次数: 38

Abstract

An aluminum single crystal with the axial direction of [211&#x0304;0 was fatigued in push-pull at the constant resolved shear stress amplitude 4 MPa, frequency 20 Hz room temperature. Microcracks, microvoids, macrobands, extrusions and intrusions were observed on the side-surface containing the Burgers vector b. Most microcracks were opened, and were within, but approximately perpendicular to, PSBs. Slip steps were found in the extrusions and intrusions. There was net irreversible slip in one direction in most PSBs. Some short cracks along the PSBs on the side-surface were also observed at 5 × 106 cycles. These observations indicate that, without the aid of the surface roughness of PSBs, cracks can still be nucleated, and that, apart from the notch effect of a PSB, there are other factors controlling crack initiation in single crystal aluminium. There may be an internal tensile stress existing in a PSB in the direction of b, and a shear stress applied by the specimen grips in the specimen due to the irreversible slip in one direction in PSBs. These stresses and the applied stress are responsible for the formation of microcracks, microvoids, extrusions, intrusions and macrobands on the side-surface.

铝单晶的疲劳损伤- 1。在包含滑动伯格矢量的表面上
对轴向为[211̄0]的铝单晶在恒定分解剪应力幅值为4 MPa、频率为20 Hz的室温条件下进行推拉疲劳试验。在含有Burgers矢量b的侧面上观察到微裂纹、微空洞、宏带、挤压和侵入。大多数微裂纹是开放的,并且在psb内,但近似垂直于psb。在挤压体和侵入体中发现了滑动台阶。在大多数psb中,有一个方向的净不可逆滑动。在5 × 106次循环下,还观察到沿侧面psb的一些短裂纹。这些观察结果表明,在没有PSB表面粗糙度的帮助下,裂纹仍然可以成核,并且除了PSB的缺口效应外,还有其他因素控制单晶铝中的裂纹萌生。在PSB中可能存在方向为b的内部拉应力,并且由于PSB在一个方向上的不可逆滑移,试样施加的剪切应力会在试样中产生。这些应力和外加应力是在侧表面形成微裂纹、微孔洞、挤压、侵入和宏带的原因。
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