Approximate prediction methods for notch stresses and strains under elastic-plastic and creep conditions

T. H. Hyde; R. Sabesan; S. B. Leen

doi:10.1243/0309324041896461

Approximate prediction methods for notch stresses and strains under elastic-plastic and creep conditions

T. H. Hyde
, R. Sabesan
, S. B. Leen

University of Nottingham

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

21 Citations (Scopus)

Abstract

This paper describes general techniques for predicting notch stresses and strains under elastic-plastic and creep conditions. A linear interpolation method, usually used in creep analysis, is adapted for use in predicting elastic-plastic stresses and strains and the Neuber and the Molski-Glinka methods, usually used in elastic-plastic analyses, are adapted to predict peak creep stresses at notches in components. The accuracy of the methods is assessed by comparing predictions based on them with results obtained from elastic-plastic and creep finite element analyses.

Original language	English
Pages (from-to)	515-527
Number of pages	13
Journal	Journal of Strain Analysis for Engineering Design
Volume	39
Issue number	5
DOIs	https://doi.org/10.1243/0309324041896461
Publication status	Published - Sep 2004
Externally published	Yes

Keywords

Creep
Elastic-plastic
Notch stresses and strains
Notched structures
Power hardening

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abstract = "This paper describes general techniques for predicting notch stresses and strains under elastic-plastic and creep conditions. A linear interpolation method, usually used in creep analysis, is adapted for use in predicting elastic-plastic stresses and strains and the Neuber and the Molski-Glinka methods, usually used in elastic-plastic analyses, are adapted to predict peak creep stresses at notches in components. The accuracy of the methods is assessed by comparing predictions based on them with results obtained from elastic-plastic and creep finite element analyses.",

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N2 - This paper describes general techniques for predicting notch stresses and strains under elastic-plastic and creep conditions. A linear interpolation method, usually used in creep analysis, is adapted for use in predicting elastic-plastic stresses and strains and the Neuber and the Molski-Glinka methods, usually used in elastic-plastic analyses, are adapted to predict peak creep stresses at notches in components. The accuracy of the methods is assessed by comparing predictions based on them with results obtained from elastic-plastic and creep finite element analyses.

AB - This paper describes general techniques for predicting notch stresses and strains under elastic-plastic and creep conditions. A linear interpolation method, usually used in creep analysis, is adapted for use in predicting elastic-plastic stresses and strains and the Neuber and the Molski-Glinka methods, usually used in elastic-plastic analyses, are adapted to predict peak creep stresses at notches in components. The accuracy of the methods is assessed by comparing predictions based on them with results obtained from elastic-plastic and creep finite element analyses.

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KW - Elastic-plastic

KW - Notch stresses and strains

KW - Notched structures

KW - Power hardening

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ER -

Approximate prediction methods for notch stresses and strains under elastic-plastic and creep conditions

Abstract

Keywords

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