Crack path investigation using the generalized maximum tangential stress criterion: Antisymmetrical four-point bending specimen

Crack path investigation using the generalized maximum tangential stress criterion: Antisymmetrical four-point bending specimen

Paper in proceedings (conference paper)

A mixed-mode geometry has been chosen in order to investigate crack propagation through the specimen. There exist several criteria for estimation of the crack path, and this work enriches the concept by application of multi-parameter fracture mechanics. Particularly, the classical MTS criterion is presented in its generalized form when several initial terms of the so-called Williams series expansion are used for the tangential stress approximation. The results obtained show that the generalized approach can be important in some special cases, when the criterion shall be applied in a larger distance from the crack tip.

A mixed-mode geometry has been chosen in order to investigate crack propagation through the specimen. There exist several criteria for estimation of the crack path, and this work enriches the concept by application of multi-parameter fracture mechanics. Particularly, the classical MTS criterion is presented in its generalized form when several initial terms of the so-called Williams series expansion are used for the tangential stress approximation. The results obtained show that the generalized approach can be important in some special cases, when the criterion shall be applied in a larger distance from the crack tip.

Multi-parameter fracture mechanics, Williams power expansion, crack-tip field, generalized MTS criterion, crack propagation angle

Multi-parameter fracture mechanics, Williams power expansion, crack-tip field, generalized MTS criterion, crack propagation angle

MALÍKOVÁ, L.

2016

24.10.2013

Bukurešť, Rumunsko

ICMERA 2013

1660-9336

Applied Mechanics and Materials

436

1

Swiss Confederation

108

113

6