含Zn,Ag或Sc的Al-Li-Cu-Mg-Zr合金正电子寿命谱研究

在深低温到室温的不同温度下，测量了不同时效状态的Ａｌ－Ｌｉ－Ｃｕ－Ｍｇ－Ｚｒ合金和含Ｚｎ，Ａｇ或Ｓｃ的Ａｌ－Ｌｉ－Ｃｕ－Ｍｇ－Ｚｒ合金的正电子寿命谱，对ｅ＾＋寿命谱特征参数的分析表明，峰值时的使热空位大量回复，缺陷的数目减少，在深低温下，空位主要以单空位形式存在且随温度升高而激活运动复合成多空位，Ｚｎ或Ａｇ的加入对空间的运动复合有束缚作用，而Ｓｃ却有助于空位的运动复合，所有实验样品低温下基体电子密

Positron Annihilation Lifetime Study of Al-Li-Cu-Mg-Zr Alloy with Doping Zn, Ag or Sc

At the variant points from cryogenic to ambient temperature, the positron annihilation lifetime spetra. of Al-Li-Cu-Mg-Zr alloy and that added by Zn, Ag or Sc in different ageing conditions were measured. The analysis for characteristic parameters of e lifetime spectra showed that a large number of thermal vacancies were recovered during the peak-ageing process, which made the amount of defects decrease greatly. At the cryogenic temperature the vacancies were mainly monovacancies and they became activated and moved to combine into multivacancies with increasing temperature. The doping of Zn or Ag hindered the movement and combination of monovacancies but that of Sc was available to it. In addition, the bulk electronic density in all samples at low temperature was higher than that at ambient temperature. The precipitation and growth of W'' (Al₃Li) phase particles increased the bulk electronic density, but the precipitation of S'' (Al₃CuMg) phase particles decreased the bluk electronic density. The adding of Zn, Ag or Sc increased the bluk electronic density, so it was available to improve the strength of alloys.