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A numerical study of damage evolution and crack propagation in backfill bodies of high-temperature thermal energy storage cavities in mines

Rui Zhan, B. Zhang, Lang Liu, Chao Huan, Huisheng Qu, Huicong Xu, J. Zhang, Hongjun Xi

2026Tunnelling and Underground Space Technology10 citationsDOI

Topics & Concepts

Materials scienceCoupling (piping)ThermalStress (linguistics)Thermal energy storageComposite materialFracture mechanicsSofteningMechanicsRotational symmetryStructural engineeringCompression (physics)Ultimate tensile strengthThermal expansionGeotechnical engineeringStrain energy release rateEnergy storageComputer simulationStrain energyRange (aeronautics)Elastic energyEnergy (signal processing)Effective stressNumerical analysisCylinder stressThermal energyWork (physics)Crack closureTransient (computer programming)Stress concentrationRock mass classificationFracture (geology)Heat transferGeothermal Energy Systems and ApplicationsPhase Change Materials ResearchChemical Looping and Thermochemical Processes
A numerical study of damage evolution and crack propagation in backfill bodies of high-temperature thermal energy storage cavities in mines | Litcius