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Processing of Fe-rich slag-based inorganic polymers towards higher heat resistance Silviana ONISEI 1, Annelies MALFLIET 1, Delia GUTIÉRREZ-CAMPOS 2, Bart.

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Presentation on theme: "Processing of Fe-rich slag-based inorganic polymers towards higher heat resistance Silviana ONISEI 1, Annelies MALFLIET 1, Delia GUTIÉRREZ-CAMPOS 2, Bart."— Presentation transcript:

1 Processing of Fe-rich slag-based inorganic polymers towards higher heat resistance Silviana ONISEI 1, Annelies MALFLIET 1, Delia GUTIÉRREZ-CAMPOS 2, Bart BLANPAIN 1, Yiannis PONTIKES 1 1 KU Leuven, Department of Materials Engineering, 3001 Heverlee, Belgium 2 Universidad Simón Bolívar, Departamento de Ciencia de los Materiales, Caracas 1080, Venezuela

2 PURPOSE OF THE WORK When concrete is subjected to temperatures higher than 300°C, severe spalling occurs, causing serious damage to concrete structures As inorganic polymer is effectively a glass, unlike OPC which is a hydrate, resistance to heat and specifically to fire is greatly improved An iron rich slag-based inorganic polymer material is studied for its potential to be used in heat resistant applications

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8 CONCLUSION At room temperature compressive strength was approximatively 60 MPa when activation was with Na-silicate and approximatively 70 MPa when activation was with K-silicate The addition of Al 2 O 3 in the Na-silicate compositions lead to a decrease in compressive strength, however, in the case of K-silicate formulations and the same curing/firing temperature, the impact was rather small The highest compressive strength obtained exceeded 100 MPa and was obtained for activation with K-silicate and firing at 500 °C

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