Recommendations for the Selection, Stabilization, and Compaction of Soil for Rammed Earth Wall Construction
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In this article, the authors proposed practical recommendations for soil selection, stabilizer treatment, and on-site compaction for rammed earth, based on a recent set of 219 stabilization experiments.Abstract:
Rammed earth possesses environmental advantages over most other competing construction materials. However, if it is to be more routinely used in the construction of modern, sustainable buildings, its material properties and production processes must be properly quantified. This paper proposes practical recommendations for soil selection, stabilizer treatment, and on-site compaction for rammed earth, based on a recent set of 219 stabilization experiments. The purpose of the recommendations is to maximize the probability of constructing rammed earth walls that meet or exceed a compressive strength criterion of 2 MPa. The recommendations cover: (1) Quantifying the natural soil properties of linear shrinkage and texture in a staged sequence in order to identify suitable soils to stabilize (and to reject unsuitable soils); (2) Quantifying the amounts of cement and/or lime to be added to the selected soil according to the values of soil properties measured; and (3) Quantifying the forces involved in on...read more
Citations
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Optimum lime content identification for lime-stabilised rammed earth
TL;DR: In this paper, the authors present experimental results illustrating the existence of an optimum lime content that maximises the unconfined compressive strength and stiffness of an engineered lime-stabilised rammed earth and the experimental procedures employed to determine it.
Journal ArticleDOI
Advances on the assessment of soil suitability for rammed earth
TL;DR: In this article, the reliability of current guideline values through comparative performance testing of rammed earth specimens was investigated through comparative analysis of ten artificial soil batches (five of them stabilised with cement and/or lime) according to the current guidelines in terms of compressive strength, shrinkage and erosion.
Journal ArticleDOI
Chemical stabilization of rammed earth using calcium carbide residue and fly ash
TL;DR: In this paper, two different ratios of binders (CCR:FA=40:60 and CCR:FA = 60:40) at five different binder contents (3, 6, 9, 12% and 15%) were utilized to investigate strength properties of a model soil.
Journal ArticleDOI
The effects of stabilizers on the thermal and the mechanical properties of rammed earth at various humidities and their environmental impacts
Vahab Toufigh,Ehsan Kianfar +1 more
TL;DR: In this paper, the effect of stabilizers including cement, pozzolan, microsilica, fiberglass, guar gum and phase change material (PCM) was evaluated on the performance of rammed earth (RE) mixtures.
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Hygrothermal Properties of Raw Earth Materials: A Literature Review
TL;DR: In this paper, the authors present a review concerning the hygrothermal performance of earthen materials for contemporary housing: great attention is given to the base materials which are used (inorganic soils, natural fibers, and mineral or recycled aggregates, chemical stabilizers), manufacturing procedures (when described), and final performances.
References
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Lime stabilization of clay minerals and soils
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Embodied energy and carbon in construction materials
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Performance of compacted cement-stabilised soil
TL;DR: In this paper, the authors report on the Algerian experience on earth construction in housing and give an extended review of an experimental study to investigate a stabilised soil by either mechanical means such as compaction and vibration and/or chemical stabilisation by cement.
Journal ArticleDOI
Strength, durability and shrinkage characteristics of cement stabilised soil blocks
TL;DR: In this paper, a comprehensive investigation undertaken to assess the influence of soil characteristics and cement content on the physical properties of stabilised soil blocks is presented, including dry density, compressive and flexural strength, durability and drying shrinkage of over 1500 block tests.
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Strength and Erosion Characteristics of Earth Blocks and Earth Block Masonry
TL;DR: In this article, an experimental study undertaken to assess the influence of test procedure and specimen geometry on strength and erosion characteristics is presented, where Cement stabilized pressed earth blocks were fabricated using different blended soils and compacted using a constant volume manual press.
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