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Evolution of Wilshire equations for creep life prediction

M. T. Whittaker, W. J. Harrison, Mark Whittaker Orcid Logo, Will Harrison Orcid Logo

Materials at High Temperatures, Volume: 31, Issue: 3, Pages: 233 - 238

Swansea University Authors: Mark Whittaker Orcid Logo, Will Harrison Orcid Logo

DOI (Published version): 10.1179/1878641314Y.0000000019

Abstract

In the past decade, a new approach to predictive creep lifing has been developed, known as the Wilshire equations. Having been applied to a range of power generation and aerospace materials, the understanding of material behaviour associated with the equations has developed significantly. With the e...

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Published in: Materials at High Temperatures
Published: 2014
URI: https://cronfa.swan.ac.uk/Record/cronfa21246
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spelling 2016-04-18T12:19:35.2501630 v2 21246 2015-05-08 Evolution of Wilshire equations for creep life prediction a146c6d442cb2c466d096179f9ac97ca 0000-0002-5854-0726 Mark Whittaker Mark Whittaker true false dae59f76fa4f63123aa028abfcd2b07a 0000-0002-0380-7075 Will Harrison Will Harrison true false 2015-05-08 MTLS In the past decade, a new approach to predictive creep lifing has been developed, known as the Wilshire equations. Having been applied to a range of power generation and aerospace materials, the understanding of material behaviour associated with the equations has developed significantly. With the equations based around the dominance of diffusion controlled dislocation movement for creep deformation under typical engineering stresses and behaviours, the predictions made are related to microstructural phenomena, such as the onset of yield. The current paper seeks to review the application and development of the Wilshire equations, with suggestions for future research in the area. Journal Article Materials at High Temperatures 31 3 233 238 31 12 2014 2014-12-31 10.1179/1878641314Y.0000000019 COLLEGE NANME Materials Science and Engineering COLLEGE CODE MTLS Swansea University 2016-04-18T12:19:35.2501630 2015-05-08T13:37:08.3035591 M. T. Whittaker 1 W. J. Harrison 2 Mark Whittaker 0000-0002-5854-0726 3 Will Harrison 0000-0002-0380-7075 4 0021246-14032016134525.pdf CronfaPDF.pdf 2016-03-14T13:45:25.4830000 Output 790179 application/pdf Accepted Manuscript true 2016-03-14T00:00:00.0000000 true
title Evolution of Wilshire equations for creep life prediction
spellingShingle Evolution of Wilshire equations for creep life prediction
Mark Whittaker
Will Harrison
title_short Evolution of Wilshire equations for creep life prediction
title_full Evolution of Wilshire equations for creep life prediction
title_fullStr Evolution of Wilshire equations for creep life prediction
title_full_unstemmed Evolution of Wilshire equations for creep life prediction
title_sort Evolution of Wilshire equations for creep life prediction
author_id_str_mv a146c6d442cb2c466d096179f9ac97ca
dae59f76fa4f63123aa028abfcd2b07a
author_id_fullname_str_mv a146c6d442cb2c466d096179f9ac97ca_***_Mark Whittaker
dae59f76fa4f63123aa028abfcd2b07a_***_Will Harrison
author Mark Whittaker
Will Harrison
author2 M. T. Whittaker
W. J. Harrison
Mark Whittaker
Will Harrison
format Journal article
container_title Materials at High Temperatures
container_volume 31
container_issue 3
container_start_page 233
publishDate 2014
institution Swansea University
doi_str_mv 10.1179/1878641314Y.0000000019
document_store_str 1
active_str 0
description In the past decade, a new approach to predictive creep lifing has been developed, known as the Wilshire equations. Having been applied to a range of power generation and aerospace materials, the understanding of material behaviour associated with the equations has developed significantly. With the equations based around the dominance of diffusion controlled dislocation movement for creep deformation under typical engineering stresses and behaviours, the predictions made are related to microstructural phenomena, such as the onset of yield. The current paper seeks to review the application and development of the Wilshire equations, with suggestions for future research in the area.
published_date 2014-12-31T03:25:09Z
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score 10.998228

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