مؤسسة الشرق الأوسط للنشر العلمي
عادةً ما يتم الرد في غضون خمس دقائق
The construction industry is a first-rate patron of herbal assets and a vast contributor to environmental pollutants. This look at investigates the capability of diverse business waste materials—together with agro-commercial wastes, geopolymer concrete additives, recycled plastic, recycled clay brick, autoclaved aerated concrete (AAC) blocks, and eggshell powder—to produce sustainable building substances. The mechanical properties, sturdiness, and environmental effect of those waste-included concretes were evaluated. Results confirmed that geopolymer concretes incorporating fly ash and slag extensively outperformed traditional Portland cement concrete in terms of compressive power, flexural strength, splitting tensile electricity, and modulus of elasticity. Durability assessments revealed superior performance of geopolymer concretes in water absorption, freeze-thaw resistance, sulfate assault resistance, and chloride ion penetration. Environmental impact assessments indicated that geopolymer concretes had the lowest greenhouse gasoline emissions, power intake, and waste era, highlighting their potential as excessive-performance sustainable creation materials. Statistical analyses confirmed great differences in overall performance among numerous mixes, with geopolymer concretes continually demonstrating advanced homes. This examine underscores the feasibility and benefits of utilising business waste substances in sustainable production, supporting the advancement of greener constructing practices and contributing to global sustainability dreams.