Abstract
Abstract Alumina-based ceramics, known for their excellent high-temperature stability and tensile strength, are utilized across various sectors like metallurgy, aerospace, and chemicals as thermal insulators and reinforcements. The mechanochemical method, which involves mechanical actions like stirring and grinding to induce chemical reactions without solvents, offers a green, time-efficient approach with minimal pollution. This technique is pivotal for nanomaterials preparation. This study successfully crafts nano-silica-enhanced alumina-based ceramics via mechanochemical methods. The impact of mechanochemical processes on ceramic properties is assessed through particle size, N2 adsorption, and various microscopic analyses.
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