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On the calculation of stress intensity factors and J-integrals using the submodeling technique (CROSBI ID 149971)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Marenić, Eduard ; Skozrit, Ivica ; Tonković, Zdenko On the calculation of stress intensity factors and J-integrals using the submodeling technique // Journal of pressure vessel technology-transactions of the asme, 132 (2010), 4; 041201-1-041201-12

Podaci o odgovornosti

Marenić, Eduard ; Skozrit, Ivica ; Tonković, Zdenko

engleski

On the calculation of stress intensity factors and J-integrals using the submodeling technique

In the present paper, calculations of the stress intensity factor (SIF) in the linear elastic range and the J-integral in the elastoplastic domain of cracked structural components are performed by using the shell-to-solid submodeling technique to improve both the computational efficiency and accuracy. In order to validate the submodeling technique, several numerical examples are analyzed. The influence of the choice of the submodel size on the SIF and the J-integral results is investigated. Detailed finite element (FE) solutions for elastic and fully plastic J-integral values are obtained for an axially cracked thick-walled pipe under internal pressure. These values are then combined, using the General Electric/Electric Power Research Institute (GE/EPRI) method and the reference stress method (RSM), to obtain approximate values of the J-integral at all load levels up to the limit load. The newly developed analytical approximation of the reference pressure for thick-walled pipes with external axial surface cracks is applicable to a wide range of crack dimensions.

finite element analysis; submodeling technique; stress intensity factor; J-integral; semi-elliptical surface crack; reference stress method

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Podaci o izdanju

132 (4)

2010.

041201-1-041201-12

objavljeno

0094-9930

Povezanost rada

Strojarstvo

Indeksiranost