Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

Frías, Moisés
Vigil de la Villa, R.
Martínez-Ramírez, S.
García-Giménez, Rosario
Sánchez de Rojas, María Isabel

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Publication date

January 2020

DOI

10.1016/j.clay.2019.105368

Publisher

Elsevier BV

Journal

Applied Clay Science

Abstract

One of the problems addressed by the scientific community in connection with cement matrix hydration is the evolution of hydrated phases under certain, primarily temperature-related, curing conditions. Such conditions are of utmost importance when the cement generates metastable hydrated phases that develop into stable phases, inducing substantial physical-mechanical changes in the matrix. One such instance arises during the pozzolanic reaction between metakaolinite and calcium hydroxide at 60 °C when metastable hexagonal phases co-exist with cubic stable phases. Such processes are well understood in the short and medium term (<5 years). Evolution at longer curing times has not been studied, however. This paper describes the evolution of th...

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Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

Abstract

Extracted data

Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

Abstract

Extracted data

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Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

Abstract

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Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

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Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement

Mineral phases in metakaolin-portlandite pastes cured 15 years at 60 °C. New data for scientific advancement