Mechanics of Deformable Solids                                                                      

DOI: http://www.dx.doi.org/10.24866/2227-6858/2019-4-1

Polonik M., Makarova N., Mantсybora A.
MARINA POLONIK, Candidate of Physics and Mathematics Sciences, 
Laboratory of Irreversible Deformation, AuthorID: 15247, SPIN: 7514-1741, 
ORCID: https://orcid.org/0000-0003-4092-8957, ResercherID: O-4516-2014, 
ScopusID: 7801553197, e-mail: polonik@mail.ru
NATALIA MAKAROVА, Candidate of Engineering Sciences, Laboratory of Irreversible 
Deformation, AuthorID: 159898, SPIN: 5587-4462, ResercherID: Q-2525-2016,
ORCID: http://orcid.org/0000-0002-2581-8066, ScopusID: 35610298200, 
e-mail: maknat@bk.ru 
ALEXANDER MANTСYBORA, Candidate of Physics and Mathematics Sciences, 
Junior Researcher, Laboratory of Nonlinear Deformation Dynamics, AuthorID: 15243, 
SPIN: 6054-4614, ResercherID: Q-3189-2016, ScopusID: 57118151200,
ORCID: https://orcid.org/0000-0001-5060-5436, e-mail: manzubor@iacp.dvo.ru
Institute of Automation and Control Processes of Far Eastern Branch of RAS 
Radio St. 5, Vladivostok, Russia, 690041

Numerical simulation of abrasive wear of cemented  granular composite
using experimental data

Abstract: The new data is presented and the results are summarized of earlier experimental research and numerical calculations to determine the effects of technological parameters on abrasion resistance of concrete. The dependence of the near-surface stress-strain condition on the geometric and mechanical parameters is analyzed. Particular attention is paid to the stages preceding the destruction of the adhesion interaction between cement matrix and grains. The ANSYS software was used for the numerical calculations. This nu-merical model may be helpful for understanding heterogeneous material behavior in terms of wear, depending on structure, geometrical characteristics, material mechanical properties and interactions occurring in the near surface layer. The developed model and the obtained results can be used to predict the process of damage accumulation at wear surfaces during the life-cycle of building structures.
Keywords: tribology, the mechanics of contact interaction, composite materials, abrasion, concrete, structure deterioration, numerical modeling.

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