Geomechanics for Energy and a Sustainable Environment
Cho, Gye-Chun||Chang, Ilhan
Geomechanics for Energy and a Sustainable Environment
English[eng]
HLW disposal||strength criterion||dilation angle||mechanical property||shear shrinkage||clay content||constitutive model||hydrate mining||temperature field||greenhouse gas||disaster||plastic strain||phase change||extreme precipitation||geotechnical engineering hazard||slippage at the interface||plastic shear strain||soil stabilization||shear/normal coupling stiffness||temperature||triaxial shear||numerical simulation||depressurization method||CWFS||climate change||carbon dioxide||wellbore stability analysis||direct shear experiment||damage process||global warming||methane hydrate||normal stress||ground improvement||yield condition||granite||lattice Boltzmann method||artificial frozen soil wall
Geomechanics for Energy and a Sustainable Environment
English[eng]
HLW disposal||strength criterion||dilation angle||mechanical property||shear shrinkage||clay content||constitutive model||hydrate mining||temperature field||greenhouse gas||disaster||plastic strain||phase change||extreme precipitation||geotechnical engineering hazard||slippage at the interface||plastic shear strain||soil stabilization||shear/normal coupling stiffness||temperature||triaxial shear||numerical simulation||depressurization method||CWFS||climate change||carbon dioxide||wellbore stability analysis||direct shear experiment||damage process||global warming||methane hydrate||normal stress||ground improvement||yield condition||granite||lattice Boltzmann method||artificial frozen soil wall