Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process

Due to generating the abundant of sediment soil, it makes the high burden of disposal cost to the metropolitan waterworks authority. Enhancing the value of sediment soil has been explored. This research aims to utilize the sediment soil, wastes of water supply treatment process for producing ceramic...

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Main Authors: Wangrakdiskul Ubolrat, Wanasbodee Jindakarn, Sansroi Pornnapa
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/20179502005
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spelling doaj-8ee7211217184017834727a2bf34400a2021-02-02T05:22:21ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-01950200510.1051/matecconf/20179502005matecconf_icmme2017_02005Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment ProcessWangrakdiskul UbolratWanasbodee JindakarnSansroi PornnapaDue to generating the abundant of sediment soil, it makes the high burden of disposal cost to the metropolitan waterworks authority. Enhancing the value of sediment soil has been explored. This research aims to utilize the sediment soil, wastes of water supply treatment process for producing ceramics vitreous china. In this experiment, five types of raw materials are exploited, namely, sediment soil, ball clay, kaolin, feldspar and silica sand. The formulas have been divided into two groups. Sediment soil has been used as substituted material in ball clay for the first group, and substituted in kaolin for the second group. The specimens of each formula are formed by uniaxial pressing at 100 bar of size 50×100×7 mm. Then they have been sintered at two different temperatures, 1200°C and 1250°C, with heating rate 400° C/ hr and soaking for 30 minutes. The result reveals that the suitable formula for ceramics vitreous china is No. 2_4 of Group 2 with sintering temperature 1250°C. Its mixture consists of 0% kaolin, 35% ball clay, 30% feldspar, 20% silica sand and 15% sediment soil. The properties of this formula are 9.4% shrinkage, 9.39 MPa of bending strength, 6.34×10−6/K coefficient of thermal expansion, and 0.66% water absorption.https://doi.org/10.1051/matecconf/20179502005
collection DOAJ
language English
format Article
sources DOAJ
author Wangrakdiskul Ubolrat
Wanasbodee Jindakarn
Sansroi Pornnapa
spellingShingle Wangrakdiskul Ubolrat
Wanasbodee Jindakarn
Sansroi Pornnapa
Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
MATEC Web of Conferences
author_facet Wangrakdiskul Ubolrat
Wanasbodee Jindakarn
Sansroi Pornnapa
author_sort Wangrakdiskul Ubolrat
title Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
title_short Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
title_full Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
title_fullStr Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
title_full_unstemmed Ceramics Vitreous China Produced by Utilizing Sediment Soil from Water Supply Treatment Process
title_sort ceramics vitreous china produced by utilizing sediment soil from water supply treatment process
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description Due to generating the abundant of sediment soil, it makes the high burden of disposal cost to the metropolitan waterworks authority. Enhancing the value of sediment soil has been explored. This research aims to utilize the sediment soil, wastes of water supply treatment process for producing ceramics vitreous china. In this experiment, five types of raw materials are exploited, namely, sediment soil, ball clay, kaolin, feldspar and silica sand. The formulas have been divided into two groups. Sediment soil has been used as substituted material in ball clay for the first group, and substituted in kaolin for the second group. The specimens of each formula are formed by uniaxial pressing at 100 bar of size 50×100×7 mm. Then they have been sintered at two different temperatures, 1200°C and 1250°C, with heating rate 400° C/ hr and soaking for 30 minutes. The result reveals that the suitable formula for ceramics vitreous china is No. 2_4 of Group 2 with sintering temperature 1250°C. Its mixture consists of 0% kaolin, 35% ball clay, 30% feldspar, 20% silica sand and 15% sediment soil. The properties of this formula are 9.4% shrinkage, 9.39 MPa of bending strength, 6.34×10−6/K coefficient of thermal expansion, and 0.66% water absorption.
url https://doi.org/10.1051/matecconf/20179502005
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AT wanasbodeejindakarn ceramicsvitreouschinaproducedbyutilizingsedimentsoilfromwatersupplytreatmentprocess
AT sansroipornnapa ceramicsvitreouschinaproducedbyutilizingsedimentsoilfromwatersupplytreatmentprocess
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