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Hydration of coked MgO-C-Al refractories

Nandy, S.K. / Ghosh, N.K. / Ghosh, D. / Das, G.C.

Magnesia-carbon bricks collected from steel plants kept in open atmosphere were found to crack and disintegrate on prolonged exposure. To understand the mechanism of this behaviour, MgO-C-Al and Al-C samples were prepared, coked, and kept in open atmosphere. The samples crumbled to dust after few days. XRD showed the reduction of phases such as Al₄C₃, Al ₄O₄C, Al₂O₃, and Al caused the disintegration with formation of amorphous phases. SEM showed the presence of hexagonal stack-like structures which converted to dust-like phases which EPMA identified as combination of aluminium and oxygen without the presence of carbon. Thermodynamic stability analysis for Al-O-C-H quaternary and Al-O-H ternary phase diagrams was done to explain the mechanism of hydration and consequent disintegration of coked MgO-C-Al bricks as well as Al-C samples on exposure to moist atmosphere at ambient temperature. On hydration, phases present in the coked samples convert to Al(OH)₃ which causes the disintegration.

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Hydration of coked MgO-C-Al refractories

Nandy, S.K. / Ghosh, N.K. / Ghosh, D. / Das, G.C.

Magnesia-carbon bricks collected from steel plants kept in open atmosphere were found to crack and disintegrate on prolonged exposure. To understand the mechanism of this behaviour, MgO-C-Al and Al-C samples were prepared, coked, and kept in open atmosphere. The samples crumbled to dust after few days. XRD showed the reduction of phases such as Al₄C₃, Al ₄O₄C, Al₂O₃, and Al caused the disintegration with formation of amorphous phases. SEM showed the presence of hexagonal stack-like structures which converted to dust-like phases which EPMA identified as combination of aluminium and oxygen without the presence of carbon. Thermodynamic stability analysis for Al-O-C-H quaternary and Al-O-H ternary phase diagrams was done to explain the mechanism of hydration and consequent disintegration of coked MgO-C-Al bricks as well as Al-C samples on exposure to moist atmosphere at ambient temperature. On hydration, phases present in the coked samples convert to Al(OH)₃ which causes the disintegration.

Hydration of coked MgO-C-Al refractories

Nandy, S.K. / Ghosh, N.K. / Ghosh, D. / Das, G.C.

Magnesia-carbon bricks collected from steel plants kept in open atmosphere were found to crack and disintegrate on prolonged exposure. To understand the mechanism of this behaviour, MgO-C-Al and Al-C samples were prepared, coked, and kept in open atmosphere. The samples crumbled to dust after few days. XRD showed the reduction of phases such as Al₄C₃, Al ₄O₄C, Al₂O₃, and Al caused the disintegration with formation of amorphous phases. SEM showed the presence of hexagonal stack-like structures which converted to dust-like phases which EPMA identified as combination of aluminium and oxygen without the presence of carbon. Thermodynamic stability analysis for Al-O-C-H quaternary and Al-O-H ternary phase diagrams was done to explain the mechanism of hydration and consequent disintegration of coked MgO-C-Al bricks as well as Al-C samples on exposure to moist atmosphere at ambient temperature. On hydration, phases present in the coked samples convert to Al(OH)₃ which causes the disintegration.

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Titel:

Hydration of coked MgO-C-Al refractories

Beteiligte:

Nandy, S.K. (Autor:in) / Ghosh, N.K. (Autor:in) / Ghosh, D. (Autor:in) / Das, G.C. (Autor:in)

Erschienen in:

Ceramics International ; 32 ; 163-172

Erscheinungsdatum:

2006

Format / Umfang:

10 Seiten, 12 Quellen

ISSN:

DOI:

https://doi.org/10.1016/j.ceramint.2005.01.013

Medientyp:

Aufsatz (Zeitschrift)

Format:

Print

Sprache:

Englisch

Schlagwörter:

Hydratisieren , Magnesiumoxid , Kohlenstoff , Mauerziegel , Eisenhüttenwerk , Staub , Thermodynamik , Aufschluss , Verkoken , Rasterelektronenmikroskopie , amorpher Zustand , feuchte Atmosphäre , feuerfestes Magnesiakohlenstofferzeugnis , feuerfester Stein

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