¹ Institute of Chemical Technology, Department of the Technology of Silicates, Suchbátarova 5, 166 28 Prague 6
² National Research Institute for Machine Design, Běchovice, 190 00 Prague 9

The authors demonstrate a simplified calculation of the radial, tangential and axial components of the stress arising during isothermal and non-isothermal firing of a cylindrical kaolin body in the region of dehydroxylation brought about by temperature and concentration gradients. It was found that a tensile stress develops at the surface, and a compressive one at the body axis on both isothermal and non-isothermal firing. During nonisothermal firing, the surface stress is decreased by the compressive stress due to the temperature gradient. An increase in the rate of firing a cylindrical body from 1 K min⁻¹ to 5 K min⁻¹ was found to raise by 30 % the maximum of resultant tensile stress at the surface.

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