Add to ORKGThis work proposes the application of a new simulation method based on fractal geometry for the calculation of the thermal conductivity for building materials. The results obtained are compared with the measurement, in a climatic chamber, of the heat flow through a material chosen as the sample. The test sample is made with “pietracantone”, a stone widely used as a building material and as an ornamental stone in the areas of Cagliari and Sassari in Sardinia. This material is characterized by a limestone matrix and a porosity which significantly influences the value of thermal conductivity. It is not known to the authors that this material had already been studied for its thermal properties
International audienceThis work aims to reveal the influence of thermal treatment on thermal conduct...
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
© 2016 Ernst & Sohn Verlag fühitektur und technische Wissenschaften GmbH & Co. KG, Berlin. A 3D ...
This work proposes the application of a new simulation method based on fractal geometry for the calc...
AbstractThis work proposes the application of a new simulation method based on fractal geometry for ...
This work proposes the application of a new simulation method based on fractal geometry for the calc...
Thermal conductivity is one of the most important parameters for construction and building materials...
The improvement in the insulation material performance is one of the recent crucial problems. The en...
The analysis of the porous microstructure can be addressed through the use of fractal geometry. The ...
An approximate model, a fractal geometry model, for the effective thermal conductivity of three-phas...
Thermal conductivity of dry porous building materials is determined by configuration of their solid ...
This study presents an intermingled fractal model (IFU) capable of simulating the porous microstruct...
Stationary and dynamic heat and mass transfer analyses of building components are an essential part ...
Two fractal models for determination of the effective thermal conductivity of bidispersed porous med...
Stationary and dynamic heat and mass transfer analyses of building components are an essential part ...
International audienceThis work aims to reveal the influence of thermal treatment on thermal conduct...
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
© 2016 Ernst & Sohn Verlag fühitektur und technische Wissenschaften GmbH & Co. KG, Berlin. A 3D ...
This work proposes the application of a new simulation method based on fractal geometry for the calc...
AbstractThis work proposes the application of a new simulation method based on fractal geometry for ...
This work proposes the application of a new simulation method based on fractal geometry for the calc...
Thermal conductivity is one of the most important parameters for construction and building materials...
The improvement in the insulation material performance is one of the recent crucial problems. The en...
The analysis of the porous microstructure can be addressed through the use of fractal geometry. The ...
An approximate model, a fractal geometry model, for the effective thermal conductivity of three-phas...
Thermal conductivity of dry porous building materials is determined by configuration of their solid ...
This study presents an intermingled fractal model (IFU) capable of simulating the porous microstruct...
Stationary and dynamic heat and mass transfer analyses of building components are an essential part ...
Two fractal models for determination of the effective thermal conductivity of bidispersed porous med...
Stationary and dynamic heat and mass transfer analyses of building components are an essential part ...
International audienceThis work aims to reveal the influence of thermal treatment on thermal conduct...
Porous ceramic materials can be produced by different techniques. One of the most important is pore ...
© 2016 Ernst & Sohn Verlag fühitektur und technische Wissenschaften GmbH & Co. KG, Berlin. A 3D ...