Precipitation in Aluminium-Copper Alloys Containing Additions of Indium and Tin

Metal Science Journal Pub Date : 1900-01-01 DOI:10.1179/030634568790443503
B. Noble
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引用次数: 7

Abstract

AbstractDilatometer, resistivity, and electron-microscope measurements have been made on aluminium-4½% copper alloys containing additions of 0.1% indium or tin and 1% silver. Activation-energy measurements indicated the presence of mobile solute-vacancy clusters in the Al-Cu-In and Al-Cu-Sn alloys and nucleation of θ′ probably took place by the coalescence of these clusters. Silver additions to the tin-bearing alloy had very little influence on precipitation characteristics, but a similar addition to the indium-bearing alloy delayed the nucleation of θ′ and produced a coarse precipitate dispersion. The results for Al-Cu-In-Ag suggested that nucleation of θ′ in this alloy took place by the growth of individual solute clusters to a critical nucleus size (activation energy ∼ 1.45 eV).
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添加铟和锡的铝铜合金中的沉淀
摘要用膨胀计、电阻率和电子显微镜对添加0.1%铟或锡和1%银的4.5%铝铜合金进行了测量。活化能测量表明,Al-Cu-In和Al-Cu-Sn合金中存在可移动的溶质空位团簇,θ′的形核可能是由这些团簇的聚并引起的。在含锡合金中添加银对析出特性的影响很小,而在含铟合金中添加银则延迟了θ′的形核,并产生了粗糙的析出弥散体。Al-Cu-In-Ag的结果表明,该合金中θ′的成核是通过单个溶质团簇生长到临界核尺寸(活化能~ 1.45 eV)而发生的。
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Metal Science Journal
Metal Science Journal
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Superconducting Materials Research Influence of Anodic Layers on Fatigue-Crack Initiation in Aluminium Precipitation Processes in Mg–Th, Mg–Th–Mn, Mg–Mn, and Mg–Zr Alloys Precipitation in Aluminium-Copper Alloys Containing Additions of Indium and Tin A Kinetic Approach to Hydrogen Diffusion through Steel at 100–350°C
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