Abstract
Ceramics hold all traditional, scientific and engineering raw materials or fabricated products used in different applications especially that performed at high temperatures through high-tempers. The remarkable progress made recently in the advancement of technology has related a prerequisite for a seriously huge number of parts with controlled porosity. In ceramic manufacturing, acquiring a porous item of such parameters and at the same time demonstrating appropriate mechanical strength isn`t a simple issue. The powder-mixing system was utilized to fabricate kaolin-silica fired composites. The main purpose of the paper was to prepare ceramic bodies rich in pores with the goal that it will have a lightweight structure. Different wt.% of silica having distinctive two-particle sizes are blended with kaolin, and afterwards, they shaped by semi-dry pressing in a hardened steel mould under 3-ton loads and sintered at four various temperatures, 900, 1000, 1100 and 1200 �C. Evaluating of composite`s physical properties showed that a good level of porosity was obtained, and it was extended; especially in mixtures contain a coarse particle size. These results are enhanced by acceptable evident comes from good apparent solid density and good strength.
Highlights
IntroductionLightweight ceramics permit the simultaneous optimization of stiffness, strength and overall weight
We proposed to take a look at the impact of the particle size of strengthening samples during the sintering stage of the dried ceramic bodies
We can conclude that an increase in the silica content, from fine particle size to coarse particle size, in ceramic samples, reduces the ability of ceramic body shrinkage
Summary
Lightweight ceramics permit the simultaneous optimization of stiffness, strength and overall weight As these materials represent a rather new class of ceramics, it is reasonable to expect they may have a range of potential applications that are not fully explored [2]. Apart from their traditional use as refractories because of their superior thermal shock resistance, porous ceramics have found widespread of applications, such as in the filtration of liquids and gases [3], absorption of shock, catalyst support molten-metal filtration, thermal insulators, high-temperature applications, and environmental protection [4]
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