Publication detail
Applicability of the critical energy release rate for predicting the growth of a crack in nanoscale materials applying the strain gradient elasticity theory
KOTOUL, M. SKALKA, P.
English title
Applicability of the critical energy release rate for predicting the growth of a crack in nanoscale materials applying the strain gradient elasticity theory
Type
conference paper
Language
en
Original abstract
The paper investigates the limits of applicability of the critical energy release rate for predicting the growth of a crack in nanoscale materials applying the strain gradient elasticity theory (SGET) capable to capture size effects, nonlocal material point interactions and surface effects in the form of (phenomenological) higher-order stress/strain gradients.
English abstract
The paper investigates the limits of applicability of the critical energy release rate for predicting the growth of a crack in nanoscale materials applying the strain gradient elasticity theory (SGET) capable to capture size effects, nonlocal material point interactions and surface effects in the form of (phenomenological) higher-order stress/strain gradients.
Keywords in English
fracture nanomechanics; strain gradient elasticity; FEM; size dependent phenomena
Released
08.08.2017
Publisher
Trans Tech Publications Ltd
Location
Švýcarsko
ISBN
978-3-0357-1168-4
ISSN
1662-9795
Book
Advances in Fracture and Damage Mechanics XVI
Volume
754
Edition number
1
Pages from–to
185–188
Pages count
4
BIBTEX
@inproceedings{BUT145373,
author="Michal {Kotoul} and Petr {Skalka},
title="Applicability of the critical energy release rate for predicting the growth of a crack in nanoscale materials applying the strain gradient elasticity theory",
booktitle="Advances in Fracture and Damage Mechanics XVI",
year="2017",
volume="754",
month="August",
pages="185--188",
publisher="Trans Tech Publications Ltd",
address="Švýcarsko",
isbn="978-3-0357-1168-4",
issn="1662-9795"
}