Thermal and structural properties of a hemp–lime biocomposite

•We examined different mixture of hemp and lime in order to produce a light concrete.•Both thermal and structural properties have been investigated.•We set an experimental protocol to make samples and measurements reproducible. The need to reduce greenhouse gases emission produced by the building se...

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Bibliographic Details
Published in:Construction & building materials 2013-11, Vol.48, p.745-754
Main Authors: Benfratello, S., Capitano, C., Peri, G., Rizzo, G., Scaccianoce, G., Sorrentino, G.
Format: Article
Language:English
Subjects:
Analysis
Concrete
Emissions (Pollution)
Greenhouse gases
Hemp–lime concrete
Natural materials
Thermal and structural properties
Thermal properties
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Summary:•We examined different mixture of hemp and lime in order to produce a light concrete.•Both thermal and structural properties have been investigated.•We set an experimental protocol to make samples and measurements reproducible. The need to reduce greenhouse gases emission produced by the building sector leads to the research of renewable and less impacting materials that can replace traditional ones. This subject has encouraged new researches on biocomposite concretes with the aim to exploit renewable resources like vegetal fibres intended as materials whose production processes are generally characterized by low costs and energy demand. This biocomposite is obviously much lighter than concrete and, therefore, can be suitably used in such cases where a structure cannot be overloaded, for instance in the realization of a green covering on top of a preexistent building. In this work, a first analysis of the thermal and structural behaviour of a biocomposite concrete, constituted by a mineral matrix (lime) with the addition of vegetal fibres (hemp), has been carried out, with particular attention to the amount of fibres and its granulometry in the mixture. The drying process contemplate a permanence of the material in a thermostatic chamber. The analysis carried out shows that hemp can be used both for the realization of insulation panel (hemp fibres alone) and as a construction material (hemp bast and concrete mix). This biocomposite has shown good insulation properties and some mechanical resistance. However, the results show that further analyses should be carried out on the drying process of the material, as it can greatly influences thermal and mechanical properties.
ISSN:0950-0618
DOI:10.1016/j.conbuildmat.2013.07.096