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A novel thermo-mechanical coupling approach for thermal fracturing of rocks in the three-dimensional FDEM

Clément Joulin, Jiansheng Xiang, J. Latham

2020Computational Particle Mechanics27 citationsDOIOpen Access PDF

Abstract

This paper presents a new three-dimensional thermo-mechanical (TM) coupling approach for thermal fracturing of rocks in the finite–discrete element method (FDEM). The linear thermal expansion formula is implemented in the context of FDEM according to the concept of the multiplicative split of the deformation gradient. The presented TM formulation is derived in the geo-mechanical solver, enabling thermal expansion and thermally induced fracturing. This TM approach is validated against analytical solutions of the Cauchy stress, thermal expansion and stress distribution. Additionally, the thermal load on the previously validated configurations is increased and the resulting fracture initiation and propagation are observed. Finally, simulation results of the cracking of a reinforced concrete structure under thermal stress are compared to experimental results. Results are in excellent agreement.

Topics & Concepts

ThermalThermal expansionCoupling (piping)Context (archaeology)Materials scienceStress (linguistics)Finite element methodDeformation (meteorology)MechanicsFracture (geology)CrackingGeologyStructural engineeringComposite materialThermodynamicsPhysicsEngineeringPaleontologyPhilosophyLinguisticsNumerical methods in engineeringRock Mechanics and ModelingGeotechnical Engineering and Underground Structures
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