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Mg-8%Li合金动态断裂行为的加载速率效应 被引量:1

Effect of Loading Rate on Dynamic Fracture Behavior of Mg-8%Li Alloy
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摘要 利用Hopkinson压杆技术对Mg-8%Li合金进行动态断裂实验,研究该合金在高速冲击下的动态断裂行为及其加载速率效应。结果表明:在高速冲击条件下,Mg-8%Li合金呈现韧性断裂,断口中存在大量韧窝。随冲击速度由14.27 m/s增加到21.33 m/s,Mg-8%Li合金的动态断裂韧性降低,断口中二次裂纹明显增多,从而使Mg-8%Li合金在高加载速率下表现出脆性断裂倾向。 The dynamic fracture experiments of Mg-8%Li alloy were carried out with the Hopkinson pressure bar,and the dynamic fracture behavior and its loading rate effects of the alloy under high-speed impact were investigated.The results show that the fracture micro-mechanism of Mg-8%Li alloy is ductile fracture under high-speed impact condition,and there are a lot of dimples in the fracture surface.With the increase of loading rate from 14.27 m/s to 21.33 m/s,the dynamic fracture toughness of the alloy reduces gradually,and the number of secondary crack in fracture surface increases obviously to make the alloy behave brittle fracture tendency at high loading rate.
作者 沙桂英 于涛 王洪顺 王赫男 孙晓光
机构地区 沈阳航空航天大学材料科学与工程学院
出处 《兵工学报》 EI CAS CSCD 北大核心 2011年第1期58-62,共5页 Acta Armamentarii
基金 航空科学基金(04G54009)
关键词 金属材料 Mg-8%Li合金 加载速率 动态断裂行为 断裂韧性 metallic material Mg-8%Li alloy loading rate dynamic fracture behavior fracture toughness
分类号 O346.2 [理学—固体力学]
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参考文献11

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兵工学报
2011年 第1期

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