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Bi-20.5Te合金熔体结构转变及其对凝固的影响
  • 期刊名称:特种铸造及有色合金 ,2006年10期
  • 时间:0
  • 分类:TB146.17[一般工业技术]
  • 作者机构:[1]合肥工业大学
  • 相关基金:国家自然科学基金资助项目(50371024,50571033);合肥工业大学基金资助项目(040302F)
  • 相关项目:基于液液结构转变探索合金熔体结构对凝固组织生长行为作用
关键词: Bi-20.5Te合金, 熔体结构转变, 凝固行为及组织
中文摘要:

通过对Bi-20.5Te合金熔体电阻率随温度变化的研究,发现合金熔体在642℃时存在着液一液结构转变。分析Bi-Te合金熔体在不同成分和不同温度的原子结合规律,认为这种结构转变是由于熔体中的原子团簇变化引起的。将Bi-20.5Te合金分别在熔体结构转变前温度(600℃)、结构转变后温度(700℃)的范围内熔炼、保温,测定相应的凝固曲线,并观察凝固组织。结果表明,相对于在结构转变前保温处理的熔体,将合金在700℃保温处理后,凝固时所需过冷度增大,释放凝固潜热更加剧烈,并且凝固组织显著细化。产生这种现象的原因是由于熔体结构内的Bi—Bi同类原子团簇,以及具有共价结合的Bi—Te原子团簇在高温下被打破,熔体趋向均匀,对凝固过程中的原子扩散造成影响,进而影响合金的凝固行为及组织。

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基于液液结构转变探索合金熔体结构对凝固组织生长行为作用
期刊论文 43 会议论文 4 获奖 1
合金熔体结构及性质随温度发生非连续变化的普适性探索
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