Add to ORKGExpansive reactions damage porous materials through the formation of reaction products of a volume in excess of the available space left by the reactants and the natural porosity of the material. This leads to pressurizing the pore space accessible to the reaction products, which differs when the chemical reaction is through-solution or topochemical or both in nature. This paper investigates expansive reactions from a micromechanical point of view, which allows bridging the scale from the local chemo-mechanical mechanisms to the macroscopically observable stress-free expansion. In particular, the study of the effect of morphology of the pore space, in which the chemical expansion occurs locally, on the macroscopically observable expansion i...
Chemical processes influence the mechanical properties of geomaterials, resulting in either strength...
This paper is concerned with the reaction between the al-kalies present in the pore fluids of the ce...
Creep plays an important role for deformation of ASR-affected structures which are subjected to vari...
International audienceExpansive reactions damage porous materials through the formation of reaction ...
International audienceUnexpected expansion can be a cause of damage in quasi-brittle materials such ...
Linear elastic behavior of fluid saturated cement-based materials is first considered within a micro...
A multi-scale poromechanical model of damage induced by Delayed Ettringite Formation (DEF) as a cons...
International audienceChemical reactions can lead to the expansion of the geomaterial because of the...
International audienceIn the context of lifetime extension of nuclear power plants, the french Insti...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
International audienceIn the context of the lifetime extension of nuclear power plants, the french I...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
Alkali-Silica Reaction (ASR) is a particular type of chemical reaction in concrete, which produces c...
Chemical processes influence the mechanical properties of geomaterials, resulting in either strength...
This paper is concerned with the reaction between the al-kalies present in the pore fluids of the ce...
Creep plays an important role for deformation of ASR-affected structures which are subjected to vari...
International audienceExpansive reactions damage porous materials through the formation of reaction ...
International audienceUnexpected expansion can be a cause of damage in quasi-brittle materials such ...
Linear elastic behavior of fluid saturated cement-based materials is first considered within a micro...
A multi-scale poromechanical model of damage induced by Delayed Ettringite Formation (DEF) as a cons...
International audienceChemical reactions can lead to the expansion of the geomaterial because of the...
International audienceIn the context of lifetime extension of nuclear power plants, the french Insti...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
International audienceIn the context of the lifetime extension of nuclear power plants, the french I...
It has generally been accepted that the volume of cement hydration products is slightly smaller than...
Alkali-Silica Reaction (ASR) is a particular type of chemical reaction in concrete, which produces c...
Chemical processes influence the mechanical properties of geomaterials, resulting in either strength...
This paper is concerned with the reaction between the al-kalies present in the pore fluids of the ce...
Creep plays an important role for deformation of ASR-affected structures which are subjected to vari...