Deformation quantification in steel plates following impact at a velocity of 2.6 km/s

J D Hogan; R J Rogers; J G Spray

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Deformation quantification in steel plates following impact at a velocity of 2.6 km/s

机译：以 2.6 km/s 的速度撞击后钢板的变形量化

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Micro-scale damage processes during hypervelocity impact into steel targets have been evaluated using image analysis and electron backscatter diffraction techniques. The targets were 50 mm thick and the impact velocity was 2.6 km/s. Image analysis of the pearlite grains shows localized pockets of strain upwards of 55 occurring at depths associated with penetrator geometry. Electron back scatter diffraction (EBSD) shows that inter-granular ferrite grain orientations become less uniform, with deformation being primarily two- and three-dimensional. Mobilized micro-ferrite textures aligned in the shot direction were also identified with EBSD. These are formed as a result of significant plastic deformation and frictional shearing of the small volume of material.

机译：使用图像分析和电子背散射衍射技术评估了超高速撞击钢靶期间的微尺度损伤过程。目标厚度为50毫米，撞击速度为2.6公里/秒。珠光体晶粒的图像分析显示，在与穿透器几何形状相关的深度处，局部应变袋超过55%。电子背散射衍射（EBSD）表明，晶间铁氧体晶粒取向变得不那么均匀，变形主要是二维和三维的。EBSD还鉴定了沿射出方向排列的移动微铁氧体纹理。这些是由于小体积材料的显着塑性变形和摩擦剪切而形成的。

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《journal of physics: conference series》 |2014年第11期|共页
作者
J D Hogan; R J Rogers; J G Spray;
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Hopkins Extreme Materials Institute, The Johns Hopkins University, Baltimore, Maryland 21218, USA;

Department of Mechanical Engineering, University of New Brunswick, Fredericton, New Brunswick E3B 5A3, Canada;

Planetary and Space Science Centre, University of New Brunswick, Fredericton, New Brunswick E3B 5A3, Canada;

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Deformation quantification in steel plates following impact at a velocity of 2.6 km/s

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