Fabrication and Performance Analysis of Porcelain Stoneware Tiles Incorporated With Labware Glass Cullet

This study reported the effects of labware glass cullet on the properties of porcelain stoneware tiles. Five formulations of porcelain stoneware tiles (containing 0, 3, 6, 9, 12% borosilicate glass cullet) were prepared by adopting three different sintering temperatures (1100o, 1150o, 1200oC). The p...

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Bibliographic Details
Published in:Transactions of the Indian Ceramic Society 2021-01, Vol.80 (1), p.64-70
Main Authors: Haque, Md Jahidul, Munna, Ahsan Habib, Rahman, Suhanur, Rahman, Ma-ariz
Format: Article
Language:English
Subjects:
Borosilicate glass
Compressive strength
Impact strength
Mechanical properties
physical properties
Porcelain
Porcelain stoneware tiles
Porosity
SEM analysis
Sintering (powder metallurgy)
Stoneware
Tiles
Water absorption
XRD analysis
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Summary:This study reported the effects of labware glass cullet on the properties of porcelain stoneware tiles. Five formulations of porcelain stoneware tiles (containing 0, 3, 6, 9, 12% borosilicate glass cullet) were prepared by adopting three different sintering temperatures (1100o, 1150o, 1200oC). The physical, microstructural and mechanical properties were analyzed. X-ray diffraction analysis ensured the presence of different crystalline phases in the samples. Morphological analysis also confirmed the results obtained from the XRD analysis. However, the density of the specimens increased within their operating parameters. Addition of glass cullet in the tiles increased the kinetics of the sintering process resulting in lower open porosity. Water absorption value of the samples sintered at 1200oC remained within the tolerance limit (∼0.5%). The lowest water absorption value (∼0.10%) as well as the highest linear shrinkage value (∼8.9%) were observed in the sample containing 12% glass cullet. Moreover, the usages of 12% glass cullet resulted in improved mechanical properties in comparison with other synthesized samples, whereas the values of compressive strength, impact strength and hardness were 51.65 MPa, 36.90 psi and 7.22 MPa, respectively.
ISSN:0371-750X
2165-5456
DOI:10.1080/0371750X.2021.1873864