Refractory degradation in glass tank melters. A survey of testing methods

Refractory degradation in glass tank melters. A survey of testing methods

The degradation of refractories used in the construction of glass melting furnaces, whether caused by the action of molten glass, vaporized melt constituents, products of fuel combustion, or by batch dusts and vapors, can normally only be assessed after a campaign when the furnace is partially or co...

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Bibliographic Details
Main Authors: M. Velez, J. Smith, R. E. Moore
Format: Article
Language:English
Published: Associação Brasileira de Cerâmica 1997-12-01
Series:Cerâmica
Online Access:http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0366-69131997000400006
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spelling doaj-e1c48dc3c297457c9ee2130ec1f8b14f2020-11-25T01:47:56ZengAssociação Brasileira de CerâmicaCerâmica0366-69131678-45531997-12-0143283-28418018410.1590/S0366-69131997000400006Refractory degradation in glass tank melters. A survey of testing methodsM. VelezJ. SmithR. E. MooreThe degradation of refractories used in the construction of glass melting furnaces, whether caused by the action of molten glass, vaporized melt constituents, products of fuel combustion, or by batch dusts and vapors, can normally only be assessed after a campaign when the furnace is partially or completely disassembled. Corrosion tests to predict degradation usually employs small specimens exposed to accelerated working conditions which might not be simulative. The current testing procedures are discussed in terms of advantages/disadvantages. Three different tests seem to be needed to simulate the critical processes occurring in glass tank melters: flux-line corrosion, throat corrosion and crown corrosion. A pilot-size laboratory testing facility is being built for simulating corrosion attack under different conditions.http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0366-69131997000400006
collection DOAJ
language English
format Article
sources DOAJ
author M. Velez
J. Smith
R. E. Moore
spellingShingle M. Velez
J. Smith
R. E. Moore
Refractory degradation in glass tank melters. A survey of testing methods
Cerâmica
author_facet M. Velez
J. Smith
R. E. Moore
author_sort M. Velez
title Refractory degradation in glass tank melters. A survey of testing methods
title_short Refractory degradation in glass tank melters. A survey of testing methods
title_full Refractory degradation in glass tank melters. A survey of testing methods
title_fullStr Refractory degradation in glass tank melters. A survey of testing methods
title_full_unstemmed Refractory degradation in glass tank melters. A survey of testing methods
title_sort refractory degradation in glass tank melters. a survey of testing methods
publisher Associação Brasileira de Cerâmica
series Cerâmica
issn 0366-6913
1678-4553
publishDate 1997-12-01
description The degradation of refractories used in the construction of glass melting furnaces, whether caused by the action of molten glass, vaporized melt constituents, products of fuel combustion, or by batch dusts and vapors, can normally only be assessed after a campaign when the furnace is partially or completely disassembled. Corrosion tests to predict degradation usually employs small specimens exposed to accelerated working conditions which might not be simulative. The current testing procedures are discussed in terms of advantages/disadvantages. Three different tests seem to be needed to simulate the critical processes occurring in glass tank melters: flux-line corrosion, throat corrosion and crown corrosion. A pilot-size laboratory testing facility is being built for simulating corrosion attack under different conditions.
url http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0366-69131997000400006
work_keys_str_mv AT mvelez refractorydegradationinglasstankmeltersasurveyoftestingmethods
AT jsmith refractorydegradationinglasstankmeltersasurveyoftestingmethods
AT remoore refractorydegradationinglasstankmeltersasurveyoftestingmethods
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