Hygric buffer and acoustic absorption of new building insulation materials based on date palm fibers (original) (raw)
2017, Journal of Building Engineering
In this work, we focus on new insulation materials based on date palm fiber. The developed lightweight composites are eco-friendly building materials from a renewable source and are less polluting than synthetic materials having harmful impacts on the environment. For manufacturing the composites, we used two different binders which are: lime and corn starch. The parts of date palm that are used for producing fibers are trunk and petioles (rachis). The proposed biobased materials could provide both thermal insulation and acoustic absorption; they could also act as a moisture buffering material to regulate indoor relative humidity variations. The sound absorption coefficients recorded show that these materials are good sound absorber, especially in medium and high frequencies. The acoustic absorption depends on the type of binder and the fiber content. The best value observed is around 0.7 when testing samples containing 20% trunk fiber and 80% starch. From the measurements of the Moisture Buffer Value (MBV), the composite made from 50% of trunk fiber and lime has an average MBV of 3.73 g/(m 2 %RH). For samples based on petioles fiber and lime, the greatest MBV measured is 2.58g/(m 2 %RH) for Keywords Date palm fiber, biosourced composite, thermal insulation, hygric regulator, acoustic absorption Highlights We used date palm fiber and lime or starch as binder in producing new biosourced composites. By means of experimental investigations, several formulations are studied. Acoustic absorption and hygric buffering were investigated. The measured sound absorption coefficients and moisture buffer values are very interesting compared to other traditional building materials.
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