ENHANCING CERAMIC MATERIAL PROPERTIES THROUGH KAOLIN BENEFICIATION: A REVIEW
DOI:
https://doi.org/10.36108/ujees.v7i2.445Keywords:
kaolin, beneficiation, ceramics, Nigeria, green processing, material properties, industrial applicationsAbstract
The ceramic industry relies heavily on kaolin, a versatile clay mineral, for its unique physical, chemical, and thermal properties. However, raw kaolin deposits often contain impurities such as quartz, feldspar, iron oxides, titanium minerals, and organic matter that degrade its performance in high-value applications. Beneficiation processes, encompassing mechanical, chemical, thermal, and biological techniques, are essential to upgrade kaolin quality for optimal use in ceramics and other industries. This review synthesizes global and Nigerian research on kaolin beneficiation, with emphasis on how these methods influence ceramic material properties, including whiteness, plasticity, sintering behavior, and mechanical strength. Special attention is given to recent advancements such as high-gradient magnetic separation, froth flotation, calcination, and eco-friendly “green beneficiation” approaches like bioleaching and enzyme-assisted treatments, which align with environmental sustainability goals. Case studies from Nigeria and other countries illustrate the economic, environmental, and technological impacts of beneficiation, highlighting its role in reducing import dependence, fostering industrial growth, and promoting local content development. The paper further examines emerging opportunities in nanotechnology, advanced ceramics, and circular economy integration, underscoring the strategic potential of kaolin beneficiation in supporting Nigeria’s industrial diversification agenda.
