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Application of $G$ ^∗-integral on cracked structural beams

Xie, Y.J. / Wang, X.H.

AbstractFor cracked engineering structural beams, a simple method to determine the stress intensity factors has been proposed based on a new concept of crack surface widening energy release rate. Unlike the classical crack extension energy release rate, the crack surface widening energy release rate can be expressed by the G^∗-integral and elementary strength theory of materials for slender cracked three-dimensional structures. From present discussions, a series of exact solutions of stress intensity factors are derived for cracked structural T and I beams. The present method can also be applied to other cracked structural beams.

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Application of $G$ ^∗-integral on cracked structural beams

Xie, Y.J. / Wang, X.H.

AbstractFor cracked engineering structural beams, a simple method to determine the stress intensity factors has been proposed based on a new concept of crack surface widening energy release rate. Unlike the classical crack extension energy release rate, the crack surface widening energy release rate can be expressed by the G^∗-integral and elementary strength theory of materials for slender cracked three-dimensional structures. From present discussions, a series of exact solutions of stress intensity factors are derived for cracked structural T and I beams. The present method can also be applied to other cracked structural beams.

Application of $G$ ^∗-integral on cracked structural beams

Xie, Y.J. / Wang, X.H.

AbstractFor cracked engineering structural beams, a simple method to determine the stress intensity factors has been proposed based on a new concept of crack surface widening energy release rate. Unlike the classical crack extension energy release rate, the crack surface widening energy release rate can be expressed by the G^∗-integral and elementary strength theory of materials for slender cracked three-dimensional structures. From present discussions, a series of exact solutions of stress intensity factors are derived for cracked structural T and I beams. The present method can also be applied to other cracked structural beams.

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Titel:

Application of $G$ ^∗-integral on cracked structural beams

Beteiligte:

Xie, Y.J. (Autor:in) / Wang, X.H. (Autor:in)

Erschienen in:

Journal of Constructional Steel Research ; 60 ; 1271-1290

Erscheinungsdatum:

19.12.2003

Format / Umfang:

20 pages

ISSN:

DOI:

https://doi.org/10.1016/j.jcsr.2003.12.002

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Stress intensity factor , Fracture , Structural beams , Cracks

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