Numerical study of the temperature and porosity effects on the fracture propagation in a 2D network of elastic bonds |
| |
Authors: | Auradou H Zei M Bouchaud E |
| |
Institution: | (1) Commissariat à lÉnergie Atomique, DSM/DRECAM/Service de Physique et Chimie des Surfaces et Interfaces, Bât. 462, 91191 Gif-sur-Yvette Cedex, France;(2) Laboratoire Fluide, Automatique et Systèmes Thermiques, UMR No. 7608, CNRS, Université Paris 6 and 11, Bâtiment 502, Université Paris Sud, 91405 Orsay Cedex, France;(3) Laboratoire dÉtude des Milieux Nanométriques, Université dEvry, Bâtiment des Sciences, rue du père Jarlan, 91025 Evry Cedex, France |
| |
Abstract: | This article reports results concerning the
fracture of a 2d triangular lattice of atoms linked by springs.
The lattice is submitted to controlled strain tests and the influence of both porosity and temperature on failure is investigated.
The porosity is found on one hand to decrease the stiffness of the specimen but on the other hand it increases the deformation
sustained prior to failure.
Temperature is shown to control the ductility due to the presence of cavities that grow and merge.
The rough surfaces resulting from the propagation of the crack exhibit
self-affine properties with a roughness exponent = 0.59 ±
0.07 over a range of length scales which increases with
temperature. Large cavities also have rough walls which are found
to be fractal with a dimension, D, which evolves with the
distance from the crack tip. For large distances, D is found to be
close to 1.5, and close to 1.0 for cavities just before their
coalescence with the main crack. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|