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Influence of macroscopic residual stresses on the mechanical behavior and microstructure of porcelain tile

✍ Scribed by Agenor De Noni Jr.; Dachamir Hotza; Vicente Cantavella Soler; Enrique Sanchez Vilches

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
831 KB
Volume
28
Category
Article
ISSN
0955-2219

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✦ Synopsis

The development of macroscopic residual stress, as in glass-tempering processes, was studied for porcelain tile. Mechanical strength was observed to increase less than might be theoretically expected, owing to deterioration of the sintered tile microstructure. A model has been developed, using linear elastic fracture mechanics, to estimate the natural flaw size in the tempered material. The study shows that as the cooling rate raises, the macroscopic residual stress and flaw size increase. This microstructural deterioration is mainly attributed to the allotropic transformation of quartz in the presence of thermal tensile stress at the porcelain tile surface.

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