Geomechanical Properties of Deep-Sea Pore-Filled Methane Hydrate-Bearing Soils at Critical State Using DEM Analysis

Abstract: The recognition of the geomechanical properties of methane hydrate-bearing soil (MHBS) is crucial to exploring energy resources. The paper presents the mechanical properties of a pore-filled MHBS at a critical state using the distinct element method (DEM). The pore-filled MHBS was simulated as cemented MH agglomerates to fill the soil pores at varying levels of methane hydration (MH) saturation. A group of triaxial compression (TC) tests were conducted, subjecting MHBS samples to varying effective confining pr… Show more

“…The DEM has been employed in microscopic investigations on various cemented soils, such as cemented sand, structural silt, methane hydrate-bearing soil, etc. [20][21][22][23][24][25]. The DEM has also been applied to correlate the macro-and micromechanical performances of geomaterials [15,26,27].…”

Discrete Element Method Analyses of Bond Degradation Evolutions for Cemented Soils

“…The DEM has been employed in microscopic investigations on various cemented soils, such as cemented sand, structural silt, methane hydrate-bearing soil, etc. [20][21][22][23][24][25]. The DEM has also been applied to correlate the macro-and micromechanical performances of geomaterials [15,26,27].…”

Discrete Element Method Analyses of Bond Degradation Evolutions for Cemented Soils