Tong Seok Han scite author profile

The crack phase field model has been well established and validated for a variety of complex crack propagation patterns within a homogeneous medium under either tensile or shear loading.However, relatively less attention has been paid to crack propagation under combined tensile and shear loading or crack propagation within composite materials made of two constituents with very different elastic moduli. In this work, we compare crack propagation under such circumstances modelled by two representative formulations, anisotropic and hybrid formulations, which have distinct stiffness degradation schemes upon crack propagation. We demonstrate that the hybrid formulation is more adequate for modeling crack propagation problems under combined loading because the residual stiffness of the damaged zone in the anisotropic formulation may lead to spurious crack growth and altered load-displacement response.

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Comparison of lightweight aggregate and foamed concrete with the same density level using image-based characterizations

Chung

Elrahman

Kim

et al. 2019

Construction and Building Materials

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Tong Seok Han

Blast-resistant characteristics of ultra-high strength concrete and reactive powder concrete

Evaluation of thermal conductivity for thermally insulated concretes

Measuring and modeling distributions of stress state in deforming polycrystals

Phase field modeling of crack propagation under combined shear and tensile loading with hybrid formulation

Comparison of lightweight aggregate and foamed concrete with the same density level using image-based characterizations

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