Deduction of activation energy for diffusion by analyzing soft impingement in non-isothermal solid-state precipitation

K. Fan; F. Liu; K. Zhang; G. C. Yang; Y. H. Zhou

doi:10.1016/j.jcrysgro.2009.09.003

Deduction of activation energy for diffusion by analyzing soft impingement in non-isothermal solid-state precipitation

K. Fan, F. Liu, K. Zhang, G. C. Yang, Y. H. Zhou

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

Physically realistic analytical treatment of soft impingement has been developed for solid-state precipitations in a non-isothermal process following the basic assumptions (i.e., a two-stage transformation including a site saturation of nucleation, an isotropic growth and a linear approximation for a concentration gradient in front of the precipitate/matrix interface). Based on the analytical treatment, Kissinger-like approach has been obtained to deduce the activation energy Q for diffusion during soft impingement in the non-isothermal process.

Original language	English
Pages (from-to)	4660-4664
Number of pages	5
Journal	Journal of Crystal Growth
Volume	311
Issue number	22
DOIs	https://doi.org/10.1016/j.jcrysgro.2009.09.003
State	Published - 1 Nov 2009

Keywords

A1. Diffusion
A1. Growth models
B1. Alloys
B1. Metals

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10.1016/j.jcrysgro.2009.09.003

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title = "Deduction of activation energy for diffusion by analyzing soft impingement in non-isothermal solid-state precipitation",

abstract = "Physically realistic analytical treatment of soft impingement has been developed for solid-state precipitations in a non-isothermal process following the basic assumptions (i.e., a two-stage transformation including a site saturation of nucleation, an isotropic growth and a linear approximation for a concentration gradient in front of the precipitate/matrix interface). Based on the analytical treatment, Kissinger-like approach has been obtained to deduce the activation energy Q for diffusion during soft impingement in the non-isothermal process.",

keywords = "A1. Diffusion, A1. Growth models, B1. Alloys, B1. Metals",

author = "K. Fan and F. Liu and K. Zhang and Yang, {G. C.} and Zhou, {Y. H.}",

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doi = "10.1016/j.jcrysgro.2009.09.003",

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T1 - Deduction of activation energy for diffusion by analyzing soft impingement in non-isothermal solid-state precipitation

AU - Fan, K.

AU - Liu, F.

AU - Zhang, K.

AU - Yang, G. C.

AU - Zhou, Y. H.

PY - 2009/11/1

Y1 - 2009/11/1

N2 - Physically realistic analytical treatment of soft impingement has been developed for solid-state precipitations in a non-isothermal process following the basic assumptions (i.e., a two-stage transformation including a site saturation of nucleation, an isotropic growth and a linear approximation for a concentration gradient in front of the precipitate/matrix interface). Based on the analytical treatment, Kissinger-like approach has been obtained to deduce the activation energy Q for diffusion during soft impingement in the non-isothermal process.

AB - Physically realistic analytical treatment of soft impingement has been developed for solid-state precipitations in a non-isothermal process following the basic assumptions (i.e., a two-stage transformation including a site saturation of nucleation, an isotropic growth and a linear approximation for a concentration gradient in front of the precipitate/matrix interface). Based on the analytical treatment, Kissinger-like approach has been obtained to deduce the activation energy Q for diffusion during soft impingement in the non-isothermal process.

KW - A1. Diffusion

KW - A1. Growth models

KW - B1. Alloys

KW - B1. Metals

UR - http://www.scopus.com/inward/record.url?scp=70350089226&partnerID=8YFLogxK

U2 - 10.1016/j.jcrysgro.2009.09.003

DO - 10.1016/j.jcrysgro.2009.09.003

M3 - 文章

AN - SCOPUS:70350089226

SN - 0022-0248

VL - 311

SP - 4660

EP - 4664

JO - Journal of Crystal Growth

JF - Journal of Crystal Growth

IS - 22

ER -

Deduction of activation energy for diffusion by analyzing soft impingement in non-isothermal solid-state precipitation

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Keywords

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