Predicting the long-term durability of hemp–lime renders in inland and coastal areas using Mediterranean, Tropical and Semi-arid climatic simulations

Predicting the long-term durability of hemp–lime renders in inland and coastal areas using Mediterranean, Tropical and Semi-arid climatic simulations

Hemp-based composites are eco-friendly building materials as they improve energy efficiency in buildings and entail low waste production and pollutant emissions during their manufacturing process. Nevertheless, the organic nature of hemp enhances the bio-receptivity of the material, with likely nega...

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Veröffentlicht in:The Science of the total environment 2016-01, Vol.542 (Pt A), p.757-770
Hauptverfasser: Arizzi, Anna, Viles, Heather, Martín-Sanchez, Inés, Cultrone, Giuseppe
Format: Artikel
Sprache:eng
Schlagworte:
Aspergillus
Bacillus
Bacteria
Bacterially-precipitated carbonates
Bio-receptivity
Calcium Compounds - chemistry
Climate
Construction materials
Construction Materials - analysis
Construction Materials - microbiology
Desert Climate
Durability
Efflorescence
Environmental cabinet
Hemp
Micrococcus
Microorganisms
Models, Chemical
Oxides - chemistry
Penicillium
Rainfall
Simulation
Sodium chloride
Tropical Climate
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container_end_page 770
container_issue Pt A
container_start_page 757
container_title The Science of the total environment
container_volume 542
creator Arizzi, Anna
Viles, Heather
Martín-Sanchez, Inés
Cultrone, Giuseppe
description Hemp-based composites are eco-friendly building materials as they improve energy efficiency in buildings and entail low waste production and pollutant emissions during their manufacturing process. Nevertheless, the organic nature of hemp enhances the bio-receptivity of the material, with likely negative consequences for its long-term performance in the building. The main purpose of this study was to study the response at macro- and micro-scale of hemp–lime renders subjected to weathering simulations in an environmental cabinet (one year was condensed in twelve days), so as to predict their long-term durability in coastal and inland areas with Mediterranean, Tropical and Semi-arid climates, also in relation with the lime type used. The simulated climatic conditions caused almost unnoticeable mass, volume and colour changes in hemp–lime renders. No efflorescence or physical breakdown was detected in samples subjected to NaCl, because the salt mainly precipitates on the surface of samples and is washed away by the rain. Although there was no visible microbial colonisation, alkaliphilic fungi (mainly Penicillium and Aspergillus) and bacteria (mainly Bacillus and Micrococcus) were isolated in all samples. Microbial growth and diversification were higher under Tropical climate, due to heavier rainfall. The influence of the bacterial activity on the hardening of samples has also been discussed here and related with the formation and stabilisation of vaterite in hemp–lime mixes. This study has demonstrated that hemp–lime renders show good durability towards a wide range of environmental conditions and factors. However, it might be useful to take some specific preventive and maintenance measures to reduce the bio-receptivity of this material, thus ensuring a longer durability on site. [Display omitted] •Realistic simulations in the cabinet of one-year exposure to environmental conditions•Influence of the lime type on the durability of hemp–lime renders•Improvement of the carbonation of lime under Mediterranean and Tropical conditions•More intense colonisation of alkaliphiles fungi and bacteria under heavy rainfall•Superficial deposition and leaching of NaCl, with no damage observed in the samples
doi_str_mv 10.1016/j.scitotenv.2015.10.141
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Nevertheless, the organic nature of hemp enhances the bio-receptivity of the material, with likely negative consequences for its long-term performance in the building. The main purpose of this study was to study the response at macro- and micro-scale of hemp–lime renders subjected to weathering simulations in an environmental cabinet (one year was condensed in twelve days), so as to predict their long-term durability in coastal and inland areas with Mediterranean, Tropical and Semi-arid climates, also in relation with the lime type used. The simulated climatic conditions caused almost unnoticeable mass, volume and colour changes in hemp–lime renders. No efflorescence or physical breakdown was detected in samples subjected to NaCl, because the salt mainly precipitates on the surface of samples and is washed away by the rain. Although there was no visible microbial colonisation, alkaliphilic fungi (mainly Penicillium and Aspergillus) and bacteria (mainly Bacillus and Micrococcus) were isolated in all samples. Microbial growth and diversification were higher under Tropical climate, due to heavier rainfall. The influence of the bacterial activity on the hardening of samples has also been discussed here and related with the formation and stabilisation of vaterite in hemp–lime mixes. This study has demonstrated that hemp–lime renders show good durability towards a wide range of environmental conditions and factors. However, it might be useful to take some specific preventive and maintenance measures to reduce the bio-receptivity of this material, thus ensuring a longer durability on site. 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source MEDLINE; Elsevier ScienceDirect Journals
subjects Aspergillus
Bacillus
Bacteria
Bacterially-precipitated carbonates
Bio-receptivity
Calcium Compounds - chemistry
Climate
Construction materials
Construction Materials - analysis
Construction Materials - microbiology
Desert Climate
Durability
Efflorescence
Environmental cabinet
Hemp
Micrococcus
Microorganisms
Models, Chemical
Oxides - chemistry
Penicillium
Rainfall
Simulation
Sodium chloride
Tropical Climate
title Predicting the long-term durability of hemp–lime renders in inland and coastal areas using Mediterranean, Tropical and Semi-arid climatic simulations
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