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KOTOUL, M.
Original Title
A micromechanical model of cyclic creep in brittle matrix composites under compressive loading
Type
conference paper
Language
English
Original Abstract
Mori-Tanaka approach is used to modelling metal particulate-reinforced brittle matrix composites under cyclic compressive loading. The J2 flow theory is considered as the relevant physical law of plastic flow in inclusions. A strong constraint exerted by matrix on inclusions causes that even the evanescent kinematical hardening rule does not predict any ratchetting of a composite. It is shown that the weakening constraint of the matrix caused by microfracture damage around inclusions is closely coupled with the plasticity of inclusion and leads to ratchetting even when the plastic deformation of inclusions is described by an isotropic hardening rule. A detailed parametric study has revealed that ratchetting is followed by either plastic or elastic shakedown, depending on the load amplitude, composite parameters and the mean microcracks length.
Keywords
Ratchetting, Low Cycle Loading, Ceramics, Microfracturing
Authors
RIV year
2002
Released
27. 6. 2001
Publisher
Vutium, Brno University of Technology
Location
Vutium, Brno University of Technology, Brno
ISBN
80-214-1892-3
Book
Materials Structure & Micromechanics of Fracture
Edition number
1
Pages from
355
Pages to
367
Pages count
13
BibTex
@inproceedings{BUT2924, author="Michal {Kotoul}", title="A micromechanical model of cyclic creep in brittle matrix composites under compressive loading", booktitle="Materials Structure & Micromechanics of Fracture", year="2001", number="1", pages="13", publisher="Vutium, Brno University of Technology", address="Vutium, Brno University of Technology, Brno", isbn="80-214-1892-3" }