Properties of the Compressed-Stabilized Earth Brick Containing Cork Granules

Salim Guettala *, Mohamed Bach

Abstract

This paper investigates the mechanical properties and thermal conductivity of the compressed-stabilized earth brick containing cork granules. First part of paper highlights the influence of mass percentage of cement and dune sand on maximum dry density, the optimal water content and mechanical strengths. The results show that composition (58% soil, 30% dune sand, 12% cement) assures maximum dry density of 1.75 T/m3 with a compressive strength in the dry state of 2.87 MPa at 28 days. Then a test of static compaction is performed on this composition for four levels of applied stresses. The results show that compaction of 10 MPa has increased maximum dry density a rate of 0.23%, which corresponds to rate of increase of the compression strength in the dry state of 46.69%. Second part examines the effect of the addition of the cork granules in mass relative to the dry soil and which is suffered a the static compaction with the different applied stresses levels on the mechanical properties, maximum dry density and thermal conductivity of optimized mixture. The results indicate that for a static compacting of 10 MPa and 12% of cork granules, the dry density decreases an rate of 1.50%, the compressive strength in the wet state decreases an rate of 7.41% at 28 days and the thermal conductivity in the dry state significantly decreases an rate of 55% relative to optimized mixture without the incorporation of the cork granulates which improves therefore thermal insulation.

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