Modelling of the deformation process under thermo-mechanical fatigue conditions

A method enabling a description of materials behaviour in the fatigue process has been developed. This paper presents some elements of the method and examples of thermo-mechanical fatigue characteristics determined for selected parameters of fatigue tests. Fatigue examinations of the P91 steel, whic...

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Bibliographic Details
Published inInternational journal of fatigue Vol. 30; no. 2; pp. 324 - 329
Main Authors Okrajni, J., Junak, G., Marek, A.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Oxford Elsevier Ltd 01.02.2008
Elsevier Science
Subjects
Applied sciences
Deformation process
Exact sciences and technology
Fatigue
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
Stress–strain curves
Thermal and mechanical loadings
Thermo-mechanical fatigue
Thermal and mechanical loadings
Deformation process
Thermo-mechanical fatigue
Stress–strain curves
Deformation
Stress-strain curves
Mechanical stress
Stress strain relation
Mechanical properties
Fatigue
Modeling
Operating conditions
Thermomechanical stress
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Summary:A method enabling a description of materials behaviour in the fatigue process has been developed. This paper presents some elements of the method and examples of thermo-mechanical fatigue characteristics determined for selected parameters of fatigue tests. Fatigue examinations of the P91 steel, which is used in polish power industry, were carried out. The main problem addressed in the paper is the description of a deformation process under the conditions of mechanical and thermal interactions. An appropriate model has been developed to this end. A model presentation enables extensive investigations of the influence of various types of relations between the fatigue process parameters on changes of the uniaxial stress–strain characteristics. Characteristics of the thermal cycle in thermo-mechanical fatigue conditions, i.e. courses of stress changes as a function of mechanical strain, determined on the model base have been presented for chosen shift angles in the mechanical strain cycle phase in relation to the thermal one. So far, experimental verification of the stress–strain characteristics’ course for a selected value of the phase shift angle has been made.
ISSN:0142-1123
1879-3452
DOI:10.1016/j.ijfatigue.2007.01.043