Abstract With the growing environmental awareness occurring worldwide, many industries, such as the construction sector, are setting their own measures to reduce their environmental impact. In addition, governments are forced… Click to show full abstract
Abstract With the growing environmental awareness occurring worldwide, many industries, such as the construction sector, are setting their own measures to reduce their environmental impact. In addition, governments are forced to reduce emission and waste. For this reason, in the building sector, many efforts are being made to reduce the consumption of natural resources and energy in buildings and the materials manufacturers are introducing sustainable initiatives to achieve these objectives. In this sense, the current trend of the construction sector towards environmental impact reduction and protection involves the design and manufacture of more sustainable and regenerative construction materials. In this context, many research works have been carried out on the mechanical characterization of new composites, specifically gypsum, aiming to improve the environmental performance of traditional materials used in building construction. Accordingly, it is essential to review previous works to understand the mechanical performance of these new gypsums so that they can be applied in building construction. This paper gives an overview of the mechanical characterization of gypsums containing waste and explores the effect of adding different waste categories in different percentages. Previous experimental studies on the mechanical characterization of recycled gypsum composites are presented as well as further suggestions for future works.
               
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