Effects of sintering temperature and pressure on fabrication of porous Al2O3 by pulsed electric current sintering process
Keywords:
Al2O3, porous ceramic, pressure, pulse electric current sintering, temperatureAbstract
In this article, the effects of temperature and pressure on the structure and mechanical properties of porous Al2O3 ceramic materials fabricated by pulsed electric current sintering (PECS) were investigated. The results showed that a decrease in pressure led to an increase in the porosity, which reached a maximum value of 65.6% at 1000oC with an applied pressure of 30 MPa. Additionally, the porosity tended to increase as the sintering temperature decreased, with the minimum value of 58.5% achieved at 1150oC under the same applied pressure of 30 MPa. On the other
hand, when the applied pressure increased, there was an increase in compressive strength, with a maximum value of 16.68 MPa at 1150oC under an applied pressure of 40 MPa. When the sintering temperature decreased, compressive strength decreased, with a minimum value of 6.86 MPa at 1000oC under an applied pressure of 30 MPa. The obtained results have shown the important role of sintering temperature and pressure in improving the mechanical properties of Al2O3 porous ceramic materials and provided a scientific basis for the development of these materials.
DOI:
https://doi.org/10.31276/VJST.66(10DB-HH).08-12Classification number
1.3, 2.5, 2.7
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Published
Received 12 September 2024; revised 5 October 2024; accepted 15 October 2024

