Utilization of Glass Cutting Sludge and Sanitary Ware Sludge in Ceramic Pressed Bodies

Apirat Theerapapvisetpong; Siripan Nilpairach

doi:10.4028/www.scientific.net/KEM.659.169

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HomeKey Engineering MaterialsKey Engineering Materials Vol. 659Utilization of Glass Cutting Sludge and Sanitary...

Utilization of Glass Cutting Sludge and Sanitary Ware Sludge in Ceramic Pressed Bodies

Abstract:

Ceramic manufacturers are finding the way to decrease firing temperature and recover their wastes in order to keep production costs down. In this study earthenware ceramic bodies were prepared by adding a soda-lime glass grinding effluent powder (dried sludge) as a fluxing agent at 0–50 wt.% into either sanitary ware sludge powder (from a sanitary ware manufacturing process) or fresh pottery clay from Ang-thong, Thailand. The dried and pressed mixtures were fired at 1100, 1125 and 1150 °C and tested for the firing shrinkage, modulus of rupture, water absorption and bulk density. The formed product microstructure was observed by the scanning electron microscopy, and the phase composition was characterized by X-ray diffractometer. The results revealed that the best condition for adding the glass powder in Ang-thong pottery clay was the inclusion of 10 wt.% soda-lime glass effluent powder in the pottery clay. Its flexural strength increased from 51.25 MPa to 93.40 MPa after firing at 1125 °C with the water absorption of 0.42 wt.% and the firing shrinkage of 10.25 %. The optimum firing temperature and soda-lime glass content in sanitary ware sludge were 1150 °C and 20 wt.%, respectively. Its flexural strength increased from 103.16 MPa to 118.16 MPa with the water absorption of 0.52 wt.% and the firing shrinkage of 13.67 %. The results illustrated the potential to use soda-lime glass cutting sludge and sanitary ware sludge as raw materials for earthenware ceramic body.

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Periodical:

Key Engineering Materials (Volume 659)

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169-174

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.659.169

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Online since:

August 2015

Authors:

Apirat Theerapapvisetpong*, Siripan Nilpairach

Keywords:

Low Firing Ceramic, Soda Lime Glass, Stoneware Body, Stoneware Sludge

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References

[1] L. Asquini, E. Furlani, S. Bruckner, S. Maschio, Production and characterization of sintered ceramics from paper mill sludge and glass cullet. Chemosphere. 71 (2008) 83-89.

DOI: 10.1016/j.chemosphere.2007.10.037

Google Scholar

[2] A. Jonker, J.H. Potgieter, An evaluation of selected waste resources for utilization in ceramic materials applications. J. Eur. Ceram. Soc. 25 (2005), 3145-3149.

DOI: 10.1016/j.jeurceramsoc.2004.07.024

Google Scholar

[3] M. Dondi, G. Guarini, M. Raimondo, C. Zanelli, Recycling PC and TV waste glass in clay bricks and roof tiles. Waste Manage. 29 (2009), 1945-(1951).

DOI: 10.1016/j.wasman.2008.12.003

Google Scholar

[4] M. Dondi, G. Ercolani, C. Melandri, C. Mingazzini, M. Marsigli, Chemical composition of porcelain stoneware tiles and its influence on microstructural and mechanical properties. Int. Ceram. (1999) 48.

Google Scholar

[5] N. Marinoni, D. D'Alessio, V. Diella, A. Pavese, F. Francescon, Effects of soda-lime-silica waste glass on mullite formation kinetics and micro-structures development in vitreous ceramics. J. Environ. l Manage. 124 (2013), 100-107.

DOI: 10.1016/j.jenvman.2013.02.048

Google Scholar

[6] F. Matteucci, M. Dondi, G. Guarini, Effect of soda-lime glass on sintering and technological properties of porcelain stoneware tiles. Ceram. Int. 28 (2002), 873-880.

DOI: 10.1016/s0272-8842(02)00067-6

Google Scholar

[7] A. Tucci, L. Esposito, E. Rastelli, C. Palmonari, E. Rambaldi, Use of soda-lime scrap-glass as a fluxing agent in a porcelain stoneware tile mix. J. Eur. Ceram. Soc. 24 (2004), 83-92.

DOI: 10.1016/s0955-2219(03)00121-3

Google Scholar