A smoothing gradient thermo-mechanical damage model for thermal shock crack propagation: Theory and FE implementation

A smoothing gradient thermo-mechanical damage model for thermal shock crack propagation: Theory and FE implementation

Authors: Chanh Dinh Vuong, Tiantang Yu, Jaroon Rungamornrat, Tinh Quoc Bui

Journal: International Journal of Non-Linear Mechanics

Link: https://doi.org/10.1016/j.ijnonlinmec.2024.104755

Abstract: This paper introduces a novel smoothing gradient-enhanced thermo-mechanical damage model to capture complex thermal crack patterns. To describe the adiabatic property of the damaged region, the scalar variable indicating the deterioration level of material, the damage variable, is employed for the heat conduction balance equation. In essence, the local heat flux and heat capacity are modified to present a decrease in heat flow. Formulations for steady state and transient heat transfer are given. The accuracy and efficiency of the coupled smoothing gradient damage model are illustrated through the numerical experiments for steady state and transient crack growth (e.g., quenching test), where the predicted crack patterns induced by thermo-mechanical loading are in good agreement with experimental data and other reference numerical solutions.