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Publication
Development and characterization of ceramic composites based on CaZrO3-MgO
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Advisor(s)
Abstract(s)
Advanced materials for severe environment conditions, such as high temperature, wear and high erosion
and corrosion, are of growing interest, namely for transport and energy industries. Particularly, in
aerospace industry the increase of working temperature of engines and turbines combined with weight
reduction will give rise to higher thrust and lower fuel consumption and consequently less emissions.
In this sense, new ceramic multiphasic composites based on calcium zirconate (CaZrO3) and magnesium
oxide (MgO) are being proposed with suitable thermal, mechanical and chemical properties for severe
conditions application.
In the present work, an equimolar composition of CaZrO3-MgO, processed from easily and accessible
synthetic raw materials, have been developed and the particle size distribution optimized by milling
under controlled conditions. CaZrO3-MgO ceramic composites uniaxially pressed disks have been
produced by rate controlled sintering during 2 hours at 1400, 1450 and 1500 ºC, respectively. The
physical, microstructural and mechanical properties, have been assessed to evaluate the performance
and suitability of the processed materials for high responsibility applications.
A homogeneous microstructure was obtained for all sintering temperature samples with porosities
ranging between ~10 %, for samples sintered at 1400 ºC, to ~100 % theoretical density for samples
sintered at 1500 ºC. Diametral compression strength follows the Weibull distribution with characteristic
strengths between ~50 and 170 MPa, Vickers hardness reach values above 8 GPa, while the facture
toughness present values between 2 and 3 MPa.m1/2, for 1400 and 1500 ºC respectively. These results
show that the ceramic composites based on CaZrO3-MgO sintering at 1500 ºC proved to be a suitable
alternative to high responsibility applications.
Description
Keywords
Ceramic multiphasic composites Calcium zirconate (CaZrO3) Magnesium oxide (MgO) Diametral compression Vickers hardness Fracture toughness Porosity High responsibility applications