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冲击载荷下高纯氧化铝的动态塑性与失效

Dynamic plasticity and failure of high-purity alumina under shock loading.

作者信息

Chen M W, McCauley J W, Dandekar D P, Bourne N K

机构信息

Institute for Materials Research, Tohoku University, Sendai 980-8577, Japan.

出版信息

Nat Mater. 2006 Aug;5(8):614-8. doi: 10.1038/nmat1689. Epub 2006 Jul 2.

Abstract

Most high-performance ceramics subjected to shock loading can withstand high failure strength and exhibit significant inelastic strain that cannot be achieved under conventional loading conditions. The transition point from elastic to inelastic response prior to failure during shock loading, known as the Hugoniot elastic limit (HEL), has been widely used as an important parameter in the characterization of the dynamic mechanical properties of ceramics. Nevertheless, the underlying micromechanisms that control HEL have been debated for many years. Here we show high-resolution electron microscopy of high-purity alumina, soft-recovered from shock-loading experiments. The change of deformation behaviour from dislocation activity in the vicinity of grain boundaries to deformation twinning has been observed as the impact pressures increase from below, to above HEL. The evolution of deformation modes leads to the conversion of material failure from an intergranular mode to transgranular cleavage, in which twinning interfaces serve as the preferred cleavage planes.

摘要

大多数承受冲击载荷的高性能陶瓷能够承受较高的破坏强度,并表现出显著的非弹性应变,而这在传统加载条件下是无法实现的。冲击加载过程中失效前从弹性响应到非弹性响应的转变点,即所谓的雨贡纽弹性极限(HEL),已被广泛用作表征陶瓷动态力学性能的一个重要参数。然而,多年来,控制HEL的潜在微观机制一直存在争议。在此,我们展示了从冲击加载实验中软回收的高纯度氧化铝的高分辨率电子显微镜图像。随着冲击压力从低于HEL增加到高于HEL,观察到变形行为从晶界附近的位错活动转变为变形孪晶。变形模式的演变导致材料失效从沿晶模式转变为穿晶解理,其中孪晶界面作为优先解理面。

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