Publication detail
Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
ŽÁK, S. HORNÍKOVÁ, J. ŠANDERA, P. VOJTEK, T. KIANICOVÁ, M. POKLUDA, J.
English title
Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading
Type
journal article in Web of Science
Language
en
Original abstract
In metallic materials the paths and fronts of fatigue cracks usually exhibit a certain tortuosity caused by microstructural heterogeneities. Our previous calculations for remote mode III loading revealed that the in-plane tortuosity of pre-crack fronts was associated with significant local k2 components of the effective stress intensity factor (SIF), thus enabling small segments growing in the local mode II to gradually advance the whole “mode III” crack front. In this work, the local effective SIFs at both in-plane and out-of-plane (3D) serrated crack fronts in the compact-tension-shear specimen under the remote mode II loading are numerically investigated by neglecting the friction stresses. The changes in local and global effective SIFs are presented separately for in-plane and out-of-plane tortuous crack fronts and, on the global level, also for their combination. Local k3 components appeared at in-plane serrated crack fronts and, for the out-of-plane roughness, local k1-values were present. For equal levels of the remote mode II loading, a geometrical shielding effect induced by the crack tortuosity, i.e., a uniform decrease of an averaged k2-value with increasing roughness of the crack front was revealed. When all three local loading modes along the tortuous crack front were considered in terms of equivalent SIFs, the shielding effect was also revealed in an entire or a prevailing range of roughness characteristics. However, some of equivalent SIF definitions predicted an unexpected slight anti-shielding effect in a certain small range of roughness characteristics close to those associated with crack fronts in real metallic materials.
English abstract
In metallic materials the paths and fronts of fatigue cracks usually exhibit a certain tortuosity caused by microstructural heterogeneities. Our previous calculations for remote mode III loading revealed that the in-plane tortuosity of pre-crack fronts was associated with significant local k2 components of the effective stress intensity factor (SIF), thus enabling small segments growing in the local mode II to gradually advance the whole “mode III” crack front. In this work, the local effective SIFs at both in-plane and out-of-plane (3D) serrated crack fronts in the compact-tension-shear specimen under the remote mode II loading are numerically investigated by neglecting the friction stresses. The changes in local and global effective SIFs are presented separately for in-plane and out-of-plane tortuous crack fronts and, on the global level, also for their combination. Local k3 components appeared at in-plane serrated crack fronts and, for the out-of-plane roughness, local k1-values were present. For equal levels of the remote mode II loading, a geometrical shielding effect induced by the crack tortuosity, i.e., a uniform decrease of an averaged k2-value with increasing roughness of the crack front was revealed. When all three local loading modes along the tortuous crack front were considered in terms of equivalent SIFs, the shielding effect was also revealed in an entire or a prevailing range of roughness characteristics. However, some of equivalent SIF definitions predicted an unexpected slight anti-shielding effect in a certain small range of roughness characteristics close to those associated with crack fronts in real metallic materials.
Keywords in English
Compact-tension-shear specimen; Remote mode II loading; In-plane and out-of-plane crack roughness; Geometrical shielding effect; Local stress intensity factors
Released
01.06.2019
Publisher
Elsevier
ISSN
0167-8442
Volume
101
Number
1
Pages from–to
35–45
Pages count
11
BIBTEX
@article{BUT158147,
author="Stanislav {Žák} and Jana {Horníková} and Pavel {Šandera} and Tomáš {Vojtek} and Marta {Kianicová} and Jaroslav {Pokluda},
title="Local and equivalent stress intensity factors for tortuous cracks under remote mode II loading",
year="2019",
volume="101",
number="1",
month="June",
pages="35--45",
publisher="Elsevier",
issn="0167-8442"
}