The doctoral dissertations of the former Helsinki University of Technology (TKK) and Aalto University Schools of Technology (CHEM, ELEC, ENG, SCI) published in electronic format are available in the electronic publications archive of Aalto University - Aaltodoc.
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Damage Mechanics Model for Brittle Failure of Transversely Isotropic Solids: Finite Element Implementation
Kari Kolari
Dissertation for the degree of Doctor of Science in Technology to be presented with due permission of the Department of Mechanical Engineering for public examination and debate in Auditorium TU1 at Helsinki University of Technology (Espoo, Finland) on the 20th of April, 2007, at 12 noon.
Dissertation in PDF format (ISBN 978-951-38-6996-0) [4832 KB]
VTT Publications 628, ISSN 1455-0849
Dissertation is also available in print (ISBN 978-951-38-6995-3)
Copyright © 2007 VTT Technical Research Centre of Finland
VTT Publications 628, ISSN 1235-0621
VTT-PUBS-628
TKK-DISS-2290
Abstract
A new continuum damage model, the wing crack damage (WCD) model, was developed for the analysis of brittle failure of transversely isotropic solids. Special attention was paid to the analysis of axial splitting under compression and tensile cracking under tension.
In addition to the WCD model a three-dimensional version of the damage model proposed by Murakami and Kamiya was enhanced and implemented in ABAQUS/Standard FE software.
The proposed WCD model is based on the use of the damage vector. The vector represents both the normal direction of the surface of the plane crack and the size of the damaged area. Damaging induces anisotropy in an originally transversely isotropic material. The evolution equations for damage are motivated by the wing crack growth mechanism. The evolution is based on propagation of pre-existing damage.
The proposed model enables modelling of pre-existing cracks. The feature can be exploited in studying the effect of orientation and size distribution of pre-existing cracks on the failure of materials. The model was implemented in ABAQUS/Standard FE software as a user subroutine.
The unsymmetrical behaviour of cracked materials under tension and compression due to the opening and closure of cracks is taken into account in the proposed model. In the work it was shown that the widely used strain-based crack closure criteria cannot be reliably applied in a two- and three-dimensional stress state. To attain a deformation localisation zone of finite width, a damage rate-dependent damage surface was introduced.
The validity of the proposed model was verified by testing it against five basic structures composed of known natural materials (ice, marble and concrete). The numerical simulations revealed the capability of the model in modelling brittle failure modes of transversely isotropic materials.
Keywords: failure mechanics, brittle failure, anisotropy, continuum mechanics, damage models, finite element analysis, solid materials, structural analysis, three-dimensional, transversal isotropy, wing crack
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© 2007 Helsinki University of Technology
Last update 2011-05-26