Title of article
Analysis of the hygrothermal functional properties of stabilised rammed earth materials
Author/Authors
Matthew Hall، نويسنده , , David Allinson، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
8
From page
1935
To page
1942
Abstract
Suitable experimental methodologies for determining the hygrothermal properties of stabilised rammed earth (SRE) materials have been presented along with comparative experimental data for three different SRE mix designs with parametric analysis of the influence of these variables on material function. Higher bulk porosity corresponds to reduced volumetric heat capacity (C), but increased sorptivity (S) and vapour permeance (W). Since bulk porosity and void size distribution (VSD) are interdependent variables, it follows that for constant particle size distribution (PSD) and compaction energy an increase in porosity results in an increase in the mean pore radius, image for a material. This explains why the magnitude of liquid/vapour transfer (S and W) terms are inversely related to the hygroscopic moisture capacity, ξ since the capillary potential, Ψ will increase when the mean pore diameter decreases. The implications are that the hygrothermal properties of SRE materials can be designed and predicted by manipulating particle size distribution and compaction energy.
Keywords
Stabilised rammed earth , hygrothermal , Heat & mass transfer and storage , Porous materials
Journal title
Building and Environment
Serial Year
2009
Journal title
Building and Environment
Record number
1217705
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