Greening stabilized rammed earth: devising more sustainable dosages based on strength controlling equations

Greening stabilized rammed earth: devising more sustainable dosages based on strength controlling equations

Rammed earth is an ancient construction technique that has been gaining renewed attention due to its potential to produce more environmentally sustainable constructions. Yet, studies that quantify the gains in strength by varying key parameters (binder content, dry unit weight) are still limited, hi...

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Veröffentlicht in:Journal of cleaner production 2014-03, Vol.66, p.19-26
Hauptverfasser: da Rocha, Cecília Gravina, Consoli, Nilo Cesar, Dalla Rosa Johann, Amanda
Format: Artikel
Sprache:eng
Schlagworte:
Animal, plant and microbial ecology
Applied ecology
Applied sciences
Biological and medical sciences
Blends
Compressive strength
Conservation, protection and management of environment and wildlife
Construction
Dosage
Drying
Environment and sustainable development
Exact sciences and technology
Fly ash
Fundamental and applied biological sciences. Psychology
Lime
Mathematical analysis
Pollution
Porosity
Recycling
Stabilized rammed earth
Strength
Sustainability
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container_title Journal of cleaner production
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creator da Rocha, Cecília Gravina
Consoli, Nilo Cesar
Dalla Rosa Johann, Amanda
description Rammed earth is an ancient construction technique that has been gaining renewed attention due to its potential to produce more environmentally sustainable constructions. Yet, studies that quantify the gains in strength by varying key parameters (binder content, dry unit weight) are still limited, hindering an efficient use of resources (materials and energy) when adopting this technique. Seeking to fulfil this gap, this paper presents equations that quantify the effect of parameters (dry unit weight, lime content, and fly ash content) on the compressive strength of Botucatu residual soil – fly ash – lime blends. Such equations allow different values to be assigned to each of these parameters (resulting in distinct strength results). This enables dosages that minimize resource consumption and maximize resource reuse/recycling to be devised. To illustrate that, eight dosages options are proposed for a target strength using the proposed equations and assessed against a number of criteria. The results indicate that dosages that are able to simultaneously minimize resources consumption and maximize resource recycling can be produced. •Equations that govern the strength of soil-fly ash-lime blends are proposed.•All equations involve a unique porosity/volumetric lime content ratio.•These equations can be use to devise dosages that minimize resources consumption.•An example shows how the equations can be use to devise and assess dosage options.
doi_str_mv 10.1016/j.jclepro.2013.11.041
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subjects Animal, plant and microbial ecology
Applied ecology
Applied sciences
Biological and medical sciences
Blends
Compressive strength
Conservation, protection and management of environment and wildlife
Construction
Dosage
Drying
Environment and sustainable development
Exact sciences and technology
Fly ash
Fundamental and applied biological sciences. Psychology
Lime
Mathematical analysis
Pollution
Porosity
Recycling
Stabilized rammed earth
Strength
Sustainability
title Greening stabilized rammed earth: devising more sustainable dosages based on strength controlling equations
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