This article illuminates some general features and provides elementary
interpretations of the deformation, damage, and failure of brittle solids characterized
by very low fracture energy. The dynamic response of these materials is determined
to a large extent by stochastic and random factors. The investigation emphasis is on
the moderate-to-extremely high rate range (10 s 1, 1 109 s 1), explored under practically
identical in-plane stress conditions. The statistical approach is based on
repeated particle dynamics simulations for different physical realizations of micromechanical
disorder of a 2D brittle discrete system. The proposed strategy is computationally
intensive, which necessitates simplicity of the laws governing the
interparticular interaction. Based on the simulation results, an expression is proposed
to model the mean tensile strength dependence on the strain rate. The linearity
of the rate dependence of the stress-peak macroscopic response parameters is
observe...d and discussed.
Keywords:
brittle systems / dynamic strength / damage energy rate / time to failure / disorder
Source:
International Journal of Damage Mechanics, 2011, 20, 6, 900-921
TY - JOUR
AU - Mastilović, Sreten
PY - 2011
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/1588
AB - This article illuminates some general features and provides elementary
interpretations of the deformation, damage, and failure of brittle solids characterized
by very low fracture energy. The dynamic response of these materials is determined
to a large extent by stochastic and random factors. The investigation emphasis is on
the moderate-to-extremely high rate range (10 s 1, 1 109 s 1), explored under practically
identical in-plane stress conditions. The statistical approach is based on
repeated particle dynamics simulations for different physical realizations of micromechanical
disorder of a 2D brittle discrete system. The proposed strategy is computationally
intensive, which necessitates simplicity of the laws governing the
interparticular interaction. Based on the simulation results, an expression is proposed
to model the mean tensile strength dependence on the strain rate. The linearity
of the rate dependence of the stress-peak macroscopic response parameters is
observed and discussed.
PB - SAGE Publications
T2 - International Journal of Damage Mechanics
T1 - Further Remarks on Stochastic Damage Evolution of Brittle Solids Under Dynamic Tensile Loading
EP - 921
IS - 6
SP - 900
VL - 20
DO - 10.1177/1056789510385294
ER -
@article{
author = "Mastilović, Sreten",
year = "2011",
abstract = "This article illuminates some general features and provides elementary
interpretations of the deformation, damage, and failure of brittle solids characterized
by very low fracture energy. The dynamic response of these materials is determined
to a large extent by stochastic and random factors. The investigation emphasis is on
the moderate-to-extremely high rate range (10 s 1, 1 109 s 1), explored under practically
identical in-plane stress conditions. The statistical approach is based on
repeated particle dynamics simulations for different physical realizations of micromechanical
disorder of a 2D brittle discrete system. The proposed strategy is computationally
intensive, which necessitates simplicity of the laws governing the
interparticular interaction. Based on the simulation results, an expression is proposed
to model the mean tensile strength dependence on the strain rate. The linearity
of the rate dependence of the stress-peak macroscopic response parameters is
observed and discussed.",
publisher = "SAGE Publications",
journal = "International Journal of Damage Mechanics",
title = "Further Remarks on Stochastic Damage Evolution of Brittle Solids Under Dynamic Tensile Loading",
pages = "921-900",
number = "6",
volume = "20",
doi = "10.1177/1056789510385294"
}
Mastilović, S.. (2011). Further Remarks on Stochastic Damage Evolution of Brittle Solids Under Dynamic Tensile Loading. in International Journal of Damage Mechanics
SAGE Publications., 20(6), 900-921.
https://doi.org/10.1177/1056789510385294
Mastilović S. Further Remarks on Stochastic Damage Evolution of Brittle Solids Under Dynamic Tensile Loading. in International Journal of Damage Mechanics. 2011;20(6):900-921.
doi:10.1177/1056789510385294 .
Mastilović, Sreten, "Further Remarks on Stochastic Damage Evolution of Brittle Solids Under Dynamic Tensile Loading" in International Journal of Damage Mechanics, 20, no. 6 (2011):900-921,
https://doi.org/10.1177/1056789510385294 . .
