Rūpnieciskos atkritumus saturošu stiklkeramisku materiālu korozijas izturības novērtēšana

Rozenstrauha, I., Riga Technical Univ.; Lodins, E., Riga Technical Univ.; Lorencs, A., Riga Technical Univ.; Freidenfelds, R., Riga Technical Univ.; Drille, M., Riga Technical Univ.; Krage, L., Riga Technical Univ.; Bajare, D., Riga Technical Univ.; Pastare, I., University of Latvia, Riga; Gomez, E., Imperial College London; Boccaccini, A.R., Imperial College London

Assessment of corrosion resistance of glass ceramics-containing industrial waste | Rūpnieciskos atkritumus saturošu stiklkeramisku materiālu korozijas izturības novērtēšana

2009

Rozenstrauha, I., Riga Technical Univ. (Latvia) | Lodins, E., Riga Technical Univ. (Latvia) | Lorencs, A., Riga Technical Univ. (Latvia) | Freidenfelds, R., Riga Technical Univ. (Latvia) | Drille, M., Riga Technical Univ. (Latvia) | Krage, L., Riga Technical Univ. (Latvia) | Bajare, D., Riga Technical Univ. (Latvia) | Pastare, I., University of Latvia, Riga (Latvia) | Gomez, E., Imperial College London (United Kingdom) | Boccaccini, A.R., Imperial College London (United Kingdom)

Dense composite materials (bulk density 2.3-2.9 g/cm**3, water absorption 0.15-0.6%), corresponding to Latvian standard LVS EN 176 group BI, have been manufactured using powder technology and thermal treatment. The starting materials were: local inorganic industrial waste - steel cooling refuse, etching refuse and aluminium-containing waste, alkali glass and clay from Liepa deposit. Three methods have been applied in order to investigate the chemical durability of obtained materials. Essential changes of sample weight were detected after immersion in the HNO3 solution (pH~2). The test for water-soluble salts (LVS EN 12370) was applied in order to characterize the composite materials. Weight loss was observed after 10th cycle. Obtained results show that composite materials correspond to requirements of building ceramics.

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arcilla argile ceramics chemical composition clay composite materials composition chimique construction materials corrosion desechos industriales glass heat treatment industrial wastes latvia letonia lettonie metallic elements perte de poids peso poids recherche reciclaje recycling reino unido research royaume-uni strength technologie technology tecnologia traitement thermique ultraestructura ultrastructure united kingdom verre vidrio weight weight losses

Información bibliográfica

Publicado en

Latvijas Kimijas Zurnals (Latvia) | Latvian Journal of Chemistry

Edición 2 ISSN 0868-8249

Paginación

pp. 138-146

Otras materias

Recyclage des dechets; Composicion quimica; Resistance mecanique; Investigacion; Resistencia mecanica; Materiau de construction; Ceramique; Elementos metalicos; Materiales de construccion; Glass ceramic; Tratamiento termico; Perdida de peso; Dechet industriel; Element metallique; Ceramica

Idioma

Letón

Nota

Summaries (En, Ru)

2 tables

5 fig., 9 ref.

Tipo

Summary

En AGRIS desde: 2010-02-15

Formato: AGRIS AP

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Assessment of corrosion resistance of glass ceramics-containing industrial waste | Rūpnieciskos atkritumus saturošu stiklkeramisku materiālu korozijas izturības novērtēšana

2009

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