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Danli Wang Yongfeng Ruan Lingcui Zhang Wei Zhu Pengfei Wang 《Crystal Research and Technology》2013,48(6):348-354
Nano‐structured anodic alumina membranes are ideal templates and have wide applications. However, anodic alumina materials begin to curl up at high temperatures. To better understand and overcome this problem, the thermal stability of anodic alumina membranes was investigated. Anodic alumina membranes obtained in oxalic acid electrolyte were heat treated in air at different annealing temperatures up to 1200 °C. Our results show that the sub‐pores produced during the annealing process are responsible for the curling. The repulsive forces between neighboring pores caused by mechanical stress at the metal nucleus/oxide interface promote the formation of the sub‐pores. Annealing under a suitable pressure provided thermal stability to the membranes, because it avoided or minimized curling and cracking phenomena. Scanning electron microscopy images showed that the sub‐pores disappeared when annealed under a suitable pressure. 相似文献
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方管在高速撞击下的能量吸收能力 总被引:1,自引:0,他引:1
本文报导了速度约为100m/sec的子弹高速撞击铝合金方管的实验,表明在这种撞击条件下仍与准静态实验中一样,方管仍呈现“开裂与卷曲”的变形破坏模式,并证实了在高速碰撞下方管仍是一种极好的能量吸收装置.理论分析表明,在这种撞击条件下惯性力仍是不重要的;计入了应变率效应之后,理论预计的方管承载能力与实验符合良好. 相似文献
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