Structural, physical and mechanical properties of zirconia-polymorph/alumina composites

The effect of zirconia polymorphs on the structural, physical, and mechanical properties of zirconia composites reinforced with various contents alumina was studied. The zirconia polymorphs exhibited amorphous (aZ) and tetragonal (tZ) phases, which were obtained by processing natural zircon sand, an...

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Bibliographic Details
Published in:Materials chemistry and physics 2022-06, Vol.285, p.126102, Article 126102
Main Authors: Murti, C.F.K., Maslakah, U., Endarko, E., Triwikantoro, T.
Format: Article
Language:English
Subjects:
Activated sintering
Aluminum oxide
Bulk density
Composite materials
Composites
Diamond pyramid hardness
Diffusion
Hardness
Mechanical properties
Mullite
Phases
Physical properties
Porosity
Shrinkage
Sintering (powder metallurgy)
X-ray fluorescence
Zircon
Zirconium dioxide
ZrO2
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Summary:The effect of zirconia polymorphs on the structural, physical, and mechanical properties of zirconia composites reinforced with various contents alumina was studied. The zirconia polymorphs exhibited amorphous (aZ) and tetragonal (tZ) phases, which were obtained by processing natural zircon sand, and the alumina (A) was a commercial product. The mixture of zirconia and alumina was mechanically activated and sintered at 1400 °C for 3 h. The elemental analysis and phase analysis of the purified zirconia powder was performed via X-ray fluorescence spectroscopy (XRF), and X-ray diffraction (XRD). Characterization of the composites included diameter shrinkage, density, and Vickers hardness. The atomic diffusivity in the interfacial region between each element was also observed based on the EDX line analysis. The results show that the amorphous zirconia powder contained 81.1% Zr with Si and Ti being dominant impurities. However, the identified phases were amorphous and tetragonal for zirconia raw powder respectively. Further analysis of the composite phase exhibited new phases such as zircon, monoclinic zirconia, and mullite. The aZ/A 90:10 sample had the largest shrinkage in pellet diameter, apparent density, and Vickers hardness, at 20.8%, 4.40 g/cm3, and 6.07 GPa, respectively. •Effect of zirconia polymorphs on the properties of the ZrO2/Al2O3 composite with different content of Al2O3 were examined.•Amorphous zirconia as a starting material of matrix had the highest density and improve Vickers hardness.•The atomic interdiffusion in the interfacial region of matrix filler was investigated through SEM/EDX.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2022.126102