Among the sectors influencing the environment, the building sector is known to be very energy consuming and to use large granular materials. Face to these problems, the development of materials based on renewable and biodegradable resources represents amajor scientific challenge to produce high-performance materials and materials that can be used as an alternative to synthetic materials. Several materials have been studied and proposed, in particular for the thermal insulation of buildings [1]. However, these materials based on vegetable aggregates remain, in most cases cement or lime-based [2], which are energy consumers and emit carbon dioxide [3, 4]. This work aims to propose a bio-composite with both vegetable aggregates and binders with thermal performances that are competitive with materials based on mineral binders. Vegetable glues were extracted using wheat straw fines that cannot be used as aggregates. The straw fines were soaked in a solution containing 6% NaOH at 90 degrees C for 2 h. Then, the extracted liquid was concentrated by adding sunflower pith powder and/or gelatin. The bio-binder was mixed with the straw aggregates to prepare biocomposite samples using the protocol developed in the PEPITE research program funded by the Region Centre. Experimental results in thermal conductivity allowed us to examine the influence of each bio-binder and compare the performance of straw aggregate-based bio-composites developed [5, 6].

来源平台：PROCEEDINGS OF THE 3RD INTERNATIONAL EUROMAGH CONFERENCE 2020