Creeping analysis with variable temperature applying the boundary element method

E. Pineda León; D. Samayoa Ochoa; A. Rodríguez-Castellanos; M. H. Aliabadi; E. Avalos Gauna; E. Olivera-Villaseñor

doi:10.1016/j.enganabound.2012.06.009

Creeping analysis with variable temperature applying the boundary element method

E. Pineda León, D. Samayoa Ochoa, A. Rodríguez-Castellanos, M. H. Aliabadi, E. Avalos Gauna, E. Olivera-Villaseñor

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

5 Scopus citations

Abstract

This paper presents the implementation of two creep rate equations in the boundary element method (BEM) to predict the creep strain rate at different temperatures and stresses. The creep analysis is basically applied to metals, but particular attention is focused on the numerical evaluation of creeping components subject to variable temperature. The constitutive model used in the numerical calculation is confined to standard power law creep equations. The direct formulation of the BEM is applied to secondary creep problems in a two-dimensional analysis. Numerical results are compared with solutions obtained from references to illustrate the accuracy of the proposed formulation, where a single test was simulated under the mentioned criteria.

Original language	English
Pages (from-to)	1715-1720
Number of pages	6
Journal	Engineering Analysis with Boundary Elements
Volume	36
Issue number	12
DOIs	https://doi.org/10.1016/j.enganabound.2012.06.009
State	Published - Dec 2012

Keywords

Boundary Element Method (BEM)
Creep strain rate
Variable temperature

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10.1016/j.enganabound.2012.06.009

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title = "Creeping analysis with variable temperature applying the boundary element method",

abstract = "This paper presents the implementation of two creep rate equations in the boundary element method (BEM) to predict the creep strain rate at different temperatures and stresses. The creep analysis is basically applied to metals, but particular attention is focused on the numerical evaluation of creeping components subject to variable temperature. The constitutive model used in the numerical calculation is confined to standard power law creep equations. The direct formulation of the BEM is applied to secondary creep problems in a two-dimensional analysis. Numerical results are compared with solutions obtained from references to illustrate the accuracy of the proposed formulation, where a single test was simulated under the mentioned criteria.",

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AU - Pineda León, E.

AU - Samayoa Ochoa, D.

AU - Rodríguez-Castellanos, A.

AU - Aliabadi, M. H.

AU - Avalos Gauna, E.

AU - Olivera-Villaseñor, E.

PY - 2012/12

Y1 - 2012/12

N2 - This paper presents the implementation of two creep rate equations in the boundary element method (BEM) to predict the creep strain rate at different temperatures and stresses. The creep analysis is basically applied to metals, but particular attention is focused on the numerical evaluation of creeping components subject to variable temperature. The constitutive model used in the numerical calculation is confined to standard power law creep equations. The direct formulation of the BEM is applied to secondary creep problems in a two-dimensional analysis. Numerical results are compared with solutions obtained from references to illustrate the accuracy of the proposed formulation, where a single test was simulated under the mentioned criteria.

AB - This paper presents the implementation of two creep rate equations in the boundary element method (BEM) to predict the creep strain rate at different temperatures and stresses. The creep analysis is basically applied to metals, but particular attention is focused on the numerical evaluation of creeping components subject to variable temperature. The constitutive model used in the numerical calculation is confined to standard power law creep equations. The direct formulation of the BEM is applied to secondary creep problems in a two-dimensional analysis. Numerical results are compared with solutions obtained from references to illustrate the accuracy of the proposed formulation, where a single test was simulated under the mentioned criteria.

KW - Boundary Element Method (BEM)

KW - Creep strain rate

KW - Variable temperature

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DO - 10.1016/j.enganabound.2012.06.009

M3 - Artículo

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VL - 36

SP - 1715

EP - 1720

JO - Engineering Analysis with Boundary Elements

JF - Engineering Analysis with Boundary Elements

IS - 12

ER -

Creeping analysis with variable temperature applying the boundary element method

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Keywords

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