A Comparison Of The Activation Energy Determination For Crystallization By Differential Thermal Analysis And Shrinkage By Hot Stage Microscopy For Lead-Zincborosilicate Glass Ceramics During Sintering
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Fecha
2021-08-18Autor
Garcia Casillas, Perla Elvia
Rodriguez Gonzalez, Claudia
Olivas Armendariz, Imelda
Martinez, Carlos Alberto
Camacho Montes, Hector
183097
Cedillos Barraza, Omar
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Particular sintering behavior may be found for some kind of ceramic materials where shrinkage is
stopped before reaching the shrinkage outset. Crystallization of glass powder can stop shrinkage
during sintering. Thermal characterization of the crystallization process is developed by applying the
modified Ozawa and Kissinger models. Herein, we propose to use the same models to study the
shrinkage patterns that can be observed during sintering obtained by Hot Stage Microscopy. Then, a
question may arise: Is it possible to establish a connection between crystallization and shrinkage?
We test the hypothesis that the shrinkage stop activation energy should be closed to one of the
crystallization activation process. It is obtained that shrinkage stop activation energy is higher that
crystallization activation energy by 40 – 50 kJ/mol. This is an expected result because the effect of
crystallization on the stop of shrinkage is retarded and can be observed at a higher temperature.
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