High-Temperature Elastic Properties of Ceramics in the System MgO-Al2O3- SiO2 Measured by Impulse Excitation

EVA GREGOROVÁ; WILLI PABST; ANNA MUSILOVÁ; MARÍA ANDREA CAMERUCCI; MARÍA LAURA SANDOVAL; MARIANO HERNÁN TALOU

KEY ENGINEERING MATERIALS

Trans Tech Publications

Año: 2014 vol. 592 p. 696 - 699

1013-9826

Young's moduli of talc-based ceramics from the system MgO-Al2O3-SiO2 are measured for temperatures up to 1000 °C via impulse excitation. It is shown that, after pressing at 50 MPa and firing at 1280 °C, MgO-rich compositions exhibit higher porosity and lower Young's moduli (approximately 20-30 % lower than predicted via micromechanical relations). The Young's moduli of materials with less MgO decrease with temperature, but those of MgO-rich ceramics increase with temperature and exhibit a large hysteresis between heating and cooling. Lower absolute values are mainly due to increased porosity, but the reason for the modulus increase with temperature and the hysteresis is the higher enstatite content in the MgO-rich compositions. For a special composition the Young's moduli are more or less temperature-independent and without significant hysteresis effects, probably due to the low content of enstatite and the high content of sapphirine.