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Long - term properties of cement composites with various metakaolinite content
The optimal temperature transformation of kaolin sand to metakaolin sand (MKS) resulting in complete conversion of kaolinite to pozzolanic active metakaolinite (MK) is 650°C in the time of 1 hour. To obtain information on mechanism of pozzolanic reaction in studied binary system, the cement pastes with two MKS at substitution level of Ordinary Portland cement (OPC) with MKS by 10, 20 and 40 wt. % corresponding to 3.6 - 16.0 % MK content in pastes, were tested. Pozzolanic reaction of MK with hydrating OPC was clearly confirmed mainly by XRD and thermal analyses. This process accompanied with gradual reduction of Ca(OH)2 content was the most intense in pastes with the highest MK contents (14.4 and 16.0 %). The decrease of micropore and total pore volume until MK content in paste of 7.2 % is measure of pore structure improvement specified as pore structure refinement. Until MK content of 8.0 % in paste, micropores portion with pore radius less than 10 nm rises and pore radius in the range between 10 and 100 nm declines. Resulted compressive strengths of related cement pastes with various MK content were comparable with strengths of pastes without MK. The obtained results confirmed that MKS can be used as promising additive in OPC to form prospective blended cements.
Long - term properties of cement composites with various metakaolinite content
The optimal temperature transformation of kaolin sand to metakaolin sand (MKS) resulting in complete conversion of kaolinite to pozzolanic active metakaolinite (MK) is 650°C in the time of 1 hour. To obtain information on mechanism of pozzolanic reaction in studied binary system, the cement pastes with two MKS at substitution level of Ordinary Portland cement (OPC) with MKS by 10, 20 and 40 wt. % corresponding to 3.6 - 16.0 % MK content in pastes, were tested. Pozzolanic reaction of MK with hydrating OPC was clearly confirmed mainly by XRD and thermal analyses. This process accompanied with gradual reduction of Ca(OH)2 content was the most intense in pastes with the highest MK contents (14.4 and 16.0 %). The decrease of micropore and total pore volume until MK content in paste of 7.2 % is measure of pore structure improvement specified as pore structure refinement. Until MK content of 8.0 % in paste, micropores portion with pore radius less than 10 nm rises and pore radius in the range between 10 and 100 nm declines. Resulted compressive strengths of related cement pastes with various MK content were comparable with strengths of pastes without MK. The obtained results confirmed that MKS can be used as promising additive in OPC to form prospective blended cements.
Long - term properties of cement composites with various metakaolinite content
Langzeiteigenschaften von Zementverbundwerkstoffen mit verschiedenem Metakaolinitgehalt
Krajci, Ludovit (author) / Janotka, Ivan (author) / Puertas, Francisca (author) / Palacios, Marta (author) / Kuliffayova, Marta (author)
Ceramics Silikaty, Prag ; 57 ; 74-81
2013
8 Seiten, 10 Bilder, 6 Tabellen, 50 Quellen
Article (Journal)
English
Zementpaste , kaolinhaltiger Sand , Portlandzement , Porenstruktur , Substitution , puzzolanische Reaktion , Thermoanalyse , Komposit , Mikropore , Porenradius , Reaktionsmechanismus , Druckfestigkeit , binäres System , Porenvolumen , Kaolinit , XRD (Röntgenstrahlbeugung) , Calciumhydroxid , Zusammensetzung (chemisch)
Long-term properties of cement composites with various metakaolinite content
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