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TC4在动态载荷下的剪切行为研究
引用本文:苏冠龙,龚煦,李玉龙,郭亚洲,索涛.TC4在动态载荷下的剪切行为研究[J].爆炸与冲击,2015,35(4):527-535.
作者姓名:苏冠龙  龚煦  李玉龙  郭亚洲  索涛
作者单位:西北工业大学航空结构工程系,陕西 西安 710072
基金项目:西北工业大学研究生创业种子基金项目(Z2014001)
摘    要:使用分离式霍布金森压杆(SHPB)对2种TC4(Ti-6Al-4V)试样(单边剪切试样与双边剪切试样)在应变率104 s-1下进行动态剪切加载,利用SIM D8高速照相系统捕捉了绝热剪切带扩展的整个历程,得到了TC4在拍照时刻的应力应变曲线;使用金相显微镜和SEM扫描电镜对TC4绝热剪切带的微观形貌进行观察,发现绝热剪切带宽度为5~12 μm,断口从韧窝断裂演变为解理断裂,可观测到韧窝状与河流花样断口形貌,但是并未看到相变的发生;对2种试样就产生绝热剪切带的形式与敏感性进行了分析,实验表明双边试样更易产生绝热剪切带;通过高速照相系统的标定换算,得到TC4绝热剪切带产生的临界剪切应变在78%~88%之间。在SHPB动态加载条件下,TC4绝热剪切带的扩展速度在460~1 250 m/s之间,且应变率越高,剪切带扩展越快,扩展平均速度与名义应变率近似呈线性关系;另外,在同一加载速率下,剪切带并不是匀速扩展,其扩展速度随载荷的增加而不断增加。

关 键 词:固体力学    绝热剪切带    临界剪切应变    扩展速度    高速照相    微观分析    TC4
收稿时间:2013-12-04

Shear behavior of TC4 alloy under dynamic loading
Institution:Department of Aeronautics Structure Engineering, Northwestern Polytechnical University, Xi'an 710072, Shaanxi, China
Abstract:Two types (single-edged and double-edged) of TC4 (Ti-6Al-4V) alloy samples are tested by using the split-Hopkinson bar system under the strain rate of 104 s-1. By using ultra-high speed photography, the initialization and propagation of adiabatic shear band (ASB) are obtained with sufficient resolution. The relationship of the mechanical properties is built. The width of the shear band is observed to be 5-12 μm by using metallurgical microscope and scanning electron microscopy (SEM). Shear dimples and smooth regions are observed in the fracture surfaces as well. However, no obvious phase-transfer are detected. The double-edged samples have shown a better performance because of the relatively negligible bending during experimenting. The critical shear strain at which ASB appears is between 78%-88% and the propagation speed is estimated to be in the range of 460-1 250 m/s. It is also found that when strain rate rises, the shear bands propagate faster. Moreover, the propagation speed increases as the loading process proceeds and the speed is linearly proportional with the nominal strain rate.
Keywords:solid mechanics  adiabatic shear band  critical shear strain  propagation speed  ultra-high speed photography  micro morphology  TC4
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