Publication detail
Prediction of ring crack initiation in ceramics and glasses using a stress-energy fracture criterion
PAPŠÍK, R. ŠEVEČEK, O. MARTIN, É. BERMEJO, R.
English title
Prediction of ring crack initiation in ceramics and glasses using a stress-energy fracture criterion
Type
journal article in Web of Science
Language
en
Original abstract
Crack initiation in brittle materials upon spherical indentation is associated with the tensile radial stresses during loading. However, location of crack onset often differs (offset) from the site of maximal stress. In addition, experiments reveal a strong dependency of crack initiation forces on geometrical parameters as well as the surface condition of the sample. In this work, a coupled stress-energy fracture criterion is introduced to describe the initiation of ring cracks in brittle materials, which takes into account the geometry of the contact and the inherent strength and fracture toughness of the material. Several experiments reported in literature are evaluated and compared. The criterion can explain the location offset of the ring crack upon loading, as observed in various ceramics and glasses. It also predicts the ring crack initiation force upon contact loading, provided that surface compressive stresses, introduced during grinding or polishing processes, are taken into account. Furthermore, the stress-energy criterion may be employed to estimate the surface residual stress of ceramic parts, based on simple contact damage experiments.
English abstract
Crack initiation in brittle materials upon spherical indentation is associated with the tensile radial stresses during loading. However, location of crack onset often differs (offset) from the site of maximal stress. In addition, experiments reveal a strong dependency of crack initiation forces on geometrical parameters as well as the surface condition of the sample. In this work, a coupled stress-energy fracture criterion is introduced to describe the initiation of ring cracks in brittle materials, which takes into account the geometry of the contact and the inherent strength and fracture toughness of the material. Several experiments reported in literature are evaluated and compared. The criterion can explain the location offset of the ring crack upon loading, as observed in various ceramics and glasses. It also predicts the ring crack initiation force upon contact loading, provided that surface compressive stresses, introduced during grinding or polishing processes, are taken into account. Furthermore, the stress-energy criterion may be employed to estimate the surface residual stress of ceramic parts, based on simple contact damage experiments.
Keywords in English
brittle fracture; coupled criterion; crack initiation; finite fracture mechanics; ring crack
Released
25.02.2023
Publisher
WILEY
Location
HOBOKEN
ISSN
0002-7820
Volume
106
Number
7
Pages count
14
BIBTEX
@article{BUT183389,
author="Roman {Papšík} and Oldřich {Ševeček} and Éric {Martin} and Raul {Bermejo},
title="Prediction of ring crack initiation in ceramics and glasses using a stress-energy fracture criterion",
year="2023",
volume="106",
number="7",
month="February",
publisher="WILEY",
address="HOBOKEN",
issn="0002-7820"
}