Physical and Mechanical Properties of Porous Kaolin Based Ceramics at Different Sintering Temperatures
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Date
2016
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The West Indian Journal of Engineering
Abstract
In this work, kaolin-based ceramics using styrofoam, sawdust, and powdery high-density polyethylene as pore
formers were experimentally investigated. Before batch formulations, the kaolinite used was wet-beneficiated. This was
followed by mixing starting materials with pore formers, producing green bodies which were then uni-axially compacted into
standard sample dimensions and fired at various sintering temperatures of 850°C, 1000°C, and 1150°C for 2 hours in a
furnace. The physical and mechanical properties of the sintered samples were investigated and the generated data was analyzed.
It was observed that the apparent porosity and water absorption of the samples decreased with increased sintering
temperature, while the bulk density, apparent density, and cold crushing strength of the samples increased with increased
sintering temperature. It was concluded that the samples that were sintered at 850°C with 5% wt pore former of powdery
high-density polyethylene gave the optimum properties in terms of the porosity and mechanical strength of the samples.
Description
Research Article
Keywords
Sintering temperature, Kaolin based ceramics, Pore formers