INVESTIGADORES
RENDTORFF BIRRER Nicolas Maximiliano
congresos y reuniones científicas
Título:
Thermal Shock Behavior of Zircon Based Refractories
Autor/es:
N. RENDTORFF; G. SUAREZ; Y. BRUNI; L. GARRIDO; E. AGLIETTI
Lugar:
Montecatini
Reunión:
Congreso; CIMTEC 2010; 2010
Institución organizadora:
World academy of ceramics
Resumen:
In service refractory materials are submitted to local temperature
gradients that originate thermal stresses causing a thermal shock (TS)
damage to the material. Practical tests for evaluating the thermal shock
resistance (TSR) determine the variation or change of some characteristic
property of the test sample like E (elastic module) or the strength before
and after quenching. In this work, the microstructure and thermal shock
behavior of zircon based refractories are analyzed. Several compositions
(ten), from pure zircon to 30 % of zircon in a high alumina refractory
were studied. The main structural and mechanical properties of the
refractories were characterized, as modulus of rupture, elastic modulus,
porosity, and microstructure. The dynamic elastic modulus E of the
refractories was measured by the excitation technique. The TS behavior
was evaluated by measuring the decrease in E and the modulus of
rupture, before and after a quenching test. The influence of the presence
of other phases was also analyzed. Refractories showed zircon as the
main crystalline phase. In some materials, m-ZrO2 appears coming
from zircon dissociation. The thermal shock behavior of refractory of
high zircon content is typical of the brittle ceramic materials. Materials
showed a relation between elastic module and strength. Dynamic elastic
modulus measurements have shown to be suitable for evaluation the
TSR for these materials.