部分熔融Pb-Sb-Sn和Pb-Sb-Sn- as钎料中富铅相的晶粒成熟

J. P. Sadocha, H. W. Kerr
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引用次数: 6

摘要

摘要研究了部分熔融Pb-Sb-Sn和Pb-Sb-Sn- as合金中富铅晶粒的生长动力学。在含一个固相的合金中,平均晶粒尺寸d与时间t的关系为公式d3 - d 13 = k1 (t - t1),这是一个假设液体扩散是速率控制过程的模型所预测的。测量的活化能比通常在液体中发现的自扩散活化能要大。第二固相的存在往往会限制富铅相的晶粒长大,时间指数从3.0开始增加。增加的分数或更细的第二相分布在更大程度上限制了晶粒尺寸。对于第二相的恒定分布和数量,动力学随着液体分数的增加而增加,然后由于锑的百分比增加而降低。
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Grain-Ripening of the Lead-Rich Phase in Partially Molten Pb-Sb-Sn and Pb-Sb-Sn-As Solders
AbstractThe growth kinetics of lead-rich grains in partially molten Pb-Sb-Sn and Pb-Sb-Sn-As alloys has been studied. In alloys containing one solid phase, the average grain size d is related to the time t by the equation d3 – d 13 = K 1(t – t 1), as predicted by a model which assumes that liquid diffusion is the ratecontrolling process. The measured activation energies were larger than those usually found for self-diffusion in liquids. The presence of a second solid phase tended to limit the grain growth of the lead-rich phase increasing the time exponent from 3.0. An increased fraction or finer distribution of the second phase restricted the grain sizes to a greater extent. For a constant distribution and quantity of the second phase the kinetics increased and then decreased with increasing fractions of liquid due to an increased percentage of antimony.
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