A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Hygrothermal performance of various Typha–clay composite
This article deals with the influence of both morphology and amount of Typha on hygrothermal behavior of a Typha–clay composite for building application. An agromaterial containing the fiber mix of Typha Australis and clay was made in three samples: three fiber mixtures were prepared with different amounts Typha and cut type (transversal or longitudinal). The physical properties of these materials were studied in terms of porosity, apparent and absolute density, thermal conductivity, and hygric properties. Results show a real impact of the Typha fraction type and its volume content on hygrothermal properties of the studied material due to the porosity. The transversal fraction of Typha (80% in volume weight) seems to be the optimal composition for a better hygrothermal behavior.
Hygrothermal performance of various Typha–clay composite
This article deals with the influence of both morphology and amount of Typha on hygrothermal behavior of a Typha–clay composite for building application. An agromaterial containing the fiber mix of Typha Australis and clay was made in three samples: three fiber mixtures were prepared with different amounts Typha and cut type (transversal or longitudinal). The physical properties of these materials were studied in terms of porosity, apparent and absolute density, thermal conductivity, and hygric properties. Results show a real impact of the Typha fraction type and its volume content on hygrothermal properties of the studied material due to the porosity. The transversal fraction of Typha (80% in volume weight) seems to be the optimal composition for a better hygrothermal behavior.
Hygrothermal performance of various Typha–clay composite
Niang, Ibrahim (author) / Maalouf, Chadi (author) / Moussa, Tala (author) / Bliard, Christophe (author) / Samin, Etienne (author) / Thomachot-Schneider, Céline (author) / Lachi, Mohamed (author) / Pron, Hervé (author) / Mai, Ton Hoang (author) / Gaye, Salif (author)
Journal of Building Physics ; 42 ; 316-335
2018-11-01
20 pages
Article (Journal)
Electronic Resource
English
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