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镁铜合金储氢材料的制备及对高氯酸铵热分解过程的影响 总被引:4,自引:0,他引:4
采用置换-扩散法制备了镁铜合金储氢材料(Mg2Cu-H), 并对其结构进行了表征. 结果表明, Mg2Cu经过氢化得到的镁铜合金储氢材料不是单一晶相, 而是MgCu2和MgH2的混合物. 用热分析法(DSC)研究了镁铜合金储氢材料对固体火箭推进剂常用氧化剂——高氯酸铵(AP)热分解过程的影响. 结果表明, 镁铜合金储氢材料可以显著促进AP的热分解过程, 加快热分解速率, 降低高温热分解温度, 使DSC表观分解热明显增大. Mg2Cu-H对AP热分解过程的促进作用明显强于Mg2Cu. 随着加入量增加, 镁铜合金储氢材料对AP热分解的催化促进作用增强. 探讨了镁铜合金储氢材料促进AP热分解过程的作用机制. 相似文献
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Mg2NiH4对高氯酸铵热分解过程的影响 总被引:1,自引:0,他引:1
采用置换-扩散法制备了储氢材料Mg2NiH4, 用XRD, ICP和DSC-TG方法对其结构进行了表征. 用热分析法(DSC)研究了Mg2NiH4对高氯酸铵(AP)热分解过程的影响. 研究结果表明, Mg2NiH4对AP热分解过程有较大影响. Mg2NiH4可以显著促进AP的低温热分解过程, 降低高温热分解温度, 使DSC表观分解热明显增大. 随着加入量的增加, Mg2NiH4对AP热分解的催化促进作用增强, 当Mg2NiH4加入的质量分数为30%时, DSC表观分解热最大. 吸氢量越大, 储氢材料对AP的催化促进作用越强. Mg2NiH4催化促进AP分解过程的作用机理为: Mg2NiH4分解释放的H2及Mg和Ni与AP分解产物发生反应. 相似文献
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纳米铜粉对高氯酸铵热分解的影响 总被引:3,自引:0,他引:3
The decomposition behaviour of ammonium perchlorate (AP) has been investigated in the presence of Cu nanopowder by DTA. The results show that nanometer Cu powder decreased the first and second thermal decomposition temperature of AP by 35.1 ℃ and 130.2 ℃, respectively, and the DTA heat release of AP in the presence of Cu nanopowders increased to 1.20 kJ·g-1, showing good catalytic effect on the thermal decomposition of AP. The catalytic effect of Cu micron-size powder on the thermal decomposition of AP was less than that of Cu nanopowder. With the increase in content, Cu nanopowder enhanced its catalytic effect on the high temperature decomposition of AP, however, it weakened its catalytic effect on the low temperature decomposition of AP. The mechanism of catalysis for the thermal decomposition of AP is as follows: (1) metal oxider acts as the intermedium in the process of election tranfer, (2) Cu nanopowder reacts with the decomposed product of AP, (3) Cu nanopowder has special surface effect. 相似文献
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