Numerical simulation of solute redistribution during transient liquid phase bonding processing for Al-Cu alloy"

Y. Jiao; Tien-Chien Jen; Yuning Jiao

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Numerical simulation of solute redistribution during transient liquid phase bonding processing for Al-Cu alloy"

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Numerical simulation of solute redistribution during transient liquid phase bonding processing for Al-Cu alloy"

Y. Jiao, Tien-Chien Jen and Yuning Jiao

2011

Handle:

https://hdl.handle.net/10210/14852

Abstract

Numerical simulation

Solute redistribution

Transient liquid phase

Aluminum alloys

Copper alloys

A one-dimensional mathematical model is developed to predict the solute redistribution during the transient liquid phase (TLP) bonding process for Al-Cu alloy. The macroscopic solute diffusion in the liquid and the solid as well as for the solid transformation to the liquid because of the solute macrosegregation are considered in this study. The effects of holding temperatures and the interlayer thickness on the holding time, remelting layer thickness, and the mush zone thickness of the TLP bonding process are investigated. It is shown numerically that the holding time, the holding temperature, and the interlayer thickness influence the solute distribution strongly, which in turn influence the mush zone thickness significantly.

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Title: Numerical simulation of solute redistribution during transient liquid phase bonding processing for Al-Cu alloy"
Creators - without role: Y. Jiao
Tien-Chien Jen
Yuning Jiao
Identifiers: 9911124207691
Academic Unit: University of Johannesburg; Department of Mechanical Engineering Science
Resource Type: Journal article