Pages that link to "Item:Q996668"
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The following pages link to Towards prediction of the thermal spalling risk through a multi-phase porous media model of concrete (Q996668):
Displaying 14 items.
- Investigation on thermophysical properties of reactive powder concrete (Q425054) (← links)
- An approach for modelling concrete spalling in finite strains (Q991504) (← links)
- Finite element analysis of various methods for protection of concrete structures against spalling during fire (Q1015544) (← links)
- Coupled thermo-hydro-mechanical-phase field modeling for fire-induced spalling in concrete (Q2072445) (← links)
- Models for liquid relative permeability of cementitious porous media at elevated temperature: comparisons and discussions (Q2160756) (← links)
- Numerical study for the percolation threshold and transport properties of porous composites comprising non-centrosymmetrical superovoidal pores (Q2176972) (← links)
- Coupled thermo-hygro-mechanical damage model for concrete subjected to high temperatures (Q2376178) (← links)
- Comments to the paper ``An application of a damage constitutive model to concrete at high temperature and prediction of spalling'' (Q2382504) (← links)
- Reply to comments to the paper ``An application of a damage constitutive model to concrete at high temperature and prediction of spalling'' by Rosen Tenchev and Phil Purnell [Int. J. Solids Struct. 42 (26) (2005) 6550-6565] (Q2382507) (← links)
- Modeling the spatio-thermal fire hazard distribution of incandescent material ejecta in manufacturing (Q2414268) (← links)
- Thermal coupling of fluid flow and structural response of a tunnel induced by fire (Q2894750) (← links)
- Multiscale/Multiphysics Model for Concrete (Q3447731) (← links)
- Predicting the Pore-Pressure and Temperature of Fire-Loaded Concrete by a Hybrid Neural Network (Q6172999) (← links)
- Physical informed neural network for thermo-hydral analysis of fire-loaded concrete (Q6566857) (← links)