Analysis of atomic concentration profiles in interdiffusion and access to non-equilibrium vacancy concentrations

Belova, Irina Veniaminovna; Murch, Graeme Elliot

Title: Analysis of atomic concentration profiles in interdiffusion and access to non-equilibrium vacancy concentrations
Creator: Belova, Irina Veniaminovna; Murch, Graeme Elliot
Relation: Diffusion in Materials - DIMAT2004. (Krakow, Poland 18 - 23 July 2004)
Publisher: Trans Tech Publications
Resource Type: conference paper
Date: 2005
Description: It is generally assumed that sources and sinks of vacancies are sufficient numerous that an equilibrium concentration of vacancies is established during interdiffusion in a binary alloy. The formation of vacancy pores or Kirkendall porosity shows that this assumption is not always valid. In this paper, we avoid this assumption by taking a very general phenomenological approach to interdiffusion. For the commonly encountered small vacancy concentration case our strategy centres on directing the information about the driving force associated with the non-equilibrium vacancies (which is effectively not measurable) onto the velocity of inert marker(s) in the diffusion zone. By assuming there is access to independent knowledge of the two tracer diffusivities we derive expressions for the transport coefficient (for the case of non-equilibrium vacancies) using an analysis along Boltzmann-Matano lines. Using the random alloy diffusion kinetics model we show that in principle it is possible to measure the relative concentration of non-equilibrium vacancies produced during interdiffusion.
Subject: vacancies; interdiffusion; phenomenological coefficients; random alloy; model; equilibrium concentration; computer-simulation; matter transport; binary-alloys; diffusion
Identifier: http://hdl.handle.net/1959.13/24482
Identifier: uon:24
Identifier: ISBN:3-908451-07-8
Language: eng

Hits: 3427
Visitors: 2669
Downloads: 0

		Thumbnail	File	Description	Size	Format