CLADDING TILE PRODUCTION USING SOREL (MAGNESIUM OXYCHLORIDE) CEMENT MORTAR IMPROVED BY DIFFERENT WASTES

Jalilov Rakhimjon Ravshanbek ugli

CLADDING TILE PRODUCTION USING SOREL (MAGNESIUM OXYCHLORIDE) CEMENT MORTAR IMPROVED BY DIFFERENT WASTES

Authors

Jalilov Rakhimjon Ravshanbek ugli Doctoral Student of the Department of Chemistry and Chemical Engineering Andijan State Technical Institute

Keywords:

Sorel cement, magnesium oxychloride cement, cladding tiles, polyethylene waste, industrial waste, water resistance, mechanical properties.

Abstract

Sorel cement (magnesium oxychloride cement, MOC) is an eco-friendly and high-strength binding material with potential applications in the production of cladding tiles. However, its durability and water resistance remain key challenges. This study explores the impact of incorporating different industrial and plastic wastes into MOC mortar to enhance its mechanical and durability properties. Waste materials such as polyethylene (PE), glass powder, and fly ash were introduced into the MOC mixture, and their effects on compressive strength, water resistance, and surface quality were analyzed. The findings indicate that specific waste additives improve the performance of Sorel cement-based cladding tiles, making them more suitable for construction applications.

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Published

2025-03-12

How to Cite

Jalilov Rakhimjon Ravshanbek ugli. (2025). CLADDING TILE PRODUCTION USING SOREL (MAGNESIUM OXYCHLORIDE) CEMENT MORTAR IMPROVED BY DIFFERENT WASTES. Web of Scientists and Scholars: Journal of Multidisciplinary Research, 3(3), 78–81. Retrieved from https://webofjournals.com/index.php/12/article/view/3525