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SEDLAČÍK, M. NGUYEN, M. OPRAVIL, T. SOKOLÁŘ, R.
Original Title
Foam Glass Preparation from Waste Diatomite: Assessment of High Temperature Behaviour and Foaming Ability
Type
conference paper
Language
English
Original Abstract
This paper explores the possibilities of utilization of waste diatomite in foam glass production. Chemical and mineralogical composition, granulometry and high temperature behaviour of waste diatomite were characterized. Different possibilities of waste diatomite utilization in foam glass production were explored mainly via means of thermal analysis and hot stage microscopy. The effects of diatomite addition to waste glass were evaluated. Possibility of using NaOH as a foaming agent for foam glass production from waste diatomite and the effects of NaOH amount and reaction time on waste diatomite were investigated. Partial conversion of diatomite and clay to hydrates due to the reaction with NaOH lead to the decrease of the melting temperature and foaming of the melt was observed via hot stage microscopy. 30 wt. % NaOH addition allowed foaming of waste diatomite in the temperature ranges typical for foam glass production. Increased reaction time led to the intensification of the foaming process.
Keywords
Diatomaceous earth; Foam glass; Heating microscopy; Thermal analysis
Authors
SEDLAČÍK, M.; NGUYEN, M.; OPRAVIL, T.; SOKOLÁŘ, R.
Released
18. 10. 2022
Publisher
Trans Tech Publications Ltd
Location
Switzerland
ISBN
978-3-0364-1186-6
Book
Construction and Bio-Based Materials: Properties and Technologies
1662-9752
Periodical
Materials Science Forum
Year of study
1071
State
Swiss Confederation
Pages from
235
Pages to
240
Pages count
6
BibTex
@inproceedings{BUT176697, author="Martin {Sedlačík} and Martin {Nguyen} and Tomáš {Opravil} and Radomír {Sokolář}", title="Foam Glass Preparation from Waste Diatomite: Assessment of High Temperature Behaviour and Foaming Ability", booktitle="Construction and Bio-Based Materials: Properties and Technologies", year="2022", journal="Materials Science Forum", volume="1071", pages="235--240", publisher="Trans Tech Publications Ltd", address="Switzerland", doi="10.4028/p-2gam82", isbn="978-3-0364-1186-6", issn="1662-9752" }