Kamu erişimi zorunlu olan makaleler - Kourosh TamizdoustDaha fazla bilgi edinin
Bir yerde sunuluyor: 10
A fully coupled thermo-poro-mechanical finite element analysis to predict the thermal pressurization and thermally induced pore fluid flow in soil media
MM Tamizdoust, O Ghasemi-Fare
Computers and Geotechnics 117, 103250, 2020
Zorunlu olanlar: US National Science Foundation
Utilization of Non‐equilibrium Phase Change Approach to Analyze the Non‐isothermal Multiphase Flow in Shallow Subsurface Soils
MM Tamizdoust, O Ghasemi‐Fare
Water Resources Research 56 (10), e2020WR027381, 2020
Zorunlu olanlar: US National Science Foundation
Numerical Analysis on Feasibility of Thermally Induced Pore Fluid Flow in Saturated Soil
MM Tamizdoust, O Ghasemi-Fare
Eighth International Conference on Case Histories in Geotechnical Engineering, 2019
Zorunlu olanlar: US National Science Foundation
Assessment of thermal, hydraulic, and mechanical constitutive relations on the temperature-induced stress and pore fluid pressure in saturated clays
MM Tamizdoust, O Ghasemi-Fare
Computers and Geotechnics 145, 104686, 2022
Zorunlu olanlar: US National Science Foundation
Long-term thermo-hydraulic response of the shallow subsurface soil in the vicinity of a buried horizontal heat source
MM Tamizdoust, O Ghasemi-Fare
International Journal of Heat and Mass Transfer 183, 122120, 2022
Zorunlu olanlar: US National Science Foundation
Convective drying analysis of transversely isotropic natural clay
MM Tamizdoust, O Ghasemi-Fare
Journal of Geotechnical and Geoenvironmental Engineering 148 (10), 04022073, 2022
Zorunlu olanlar: US National Science Foundation
Comparison of thermo-poroelastic and thermo-poroelastoplastic constitutive models to analyze THM process in clays
MM Tamizdoust, O Ghasemi-Fare
E3S Web of Conferences 205, 04008, 2020
Zorunlu olanlar: US National Science Foundation
Coupled thermo-hydro-mechanical modeling of saturated Boom clay
MM Tamizdoust, O Ghasemi-Fare
Geo-Congress 2020, 340-348, 2020
Zorunlu olanlar: US National Science Foundation
Prediction of the Non-Isothermal Shrinkage of Natural Clay through a Fully Coupled Thermo-Hydro-Mechanical Model
O Ghasemi-Fare, M Mir Tamizdoust
Geo-Congress 2023, 663-671, 2023
Zorunlu olanlar: US National Science Foundation
Assessment of Thermo-Osmosis Effect on Thermal Pressurization in Saturated Porous Media
MM Tamizdoust, O Ghasemi-Fare
IFCEE 2021, 99-108, 2021
Zorunlu olanlar: US National Science Foundation
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