Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Compatibility between superplasticizer admixtures and cements with mineral additions
Highlight ► Cements colloidal behaviour is related to their physicochemical characteristics. ► Limestone has significant affinity for the admixtures. ► Fly ashes present the greatest affinity for melamine based admixtures. ► Silica fume demands high dose of superplasticizers to improve the rheological behaviour of fresh.
Abstract The incorporation of mineral additions to Portland cement reduces the amount of clinker required in cement manufacture improving the eco-efficiency of this process. They also impact rheology and it may affect the interaction between superplasticizers and cements. The presented study explores the effect of limestone, fly ash and silica fume on Portland cement and the interaction of these additions with naphthalene (PNS)-, melamine (PMS)-, lignosulfonate (LS)- and polycarboxylate (PCE)-based admixtures. The adsorption isotherms, zeta potentials and rheological behaviour of the blended cements were found and compared to the same parameters in non-blended cement. The results showed that cement–superplasticizers compatibility was altered by the physical (specific surface) and chemical (surface charge) characteristics of the mineral additions studied.
Compatibility between superplasticizer admixtures and cements with mineral additions
Highlight ► Cements colloidal behaviour is related to their physicochemical characteristics. ► Limestone has significant affinity for the admixtures. ► Fly ashes present the greatest affinity for melamine based admixtures. ► Silica fume demands high dose of superplasticizers to improve the rheological behaviour of fresh.
Abstract The incorporation of mineral additions to Portland cement reduces the amount of clinker required in cement manufacture improving the eco-efficiency of this process. They also impact rheology and it may affect the interaction between superplasticizers and cements. The presented study explores the effect of limestone, fly ash and silica fume on Portland cement and the interaction of these additions with naphthalene (PNS)-, melamine (PMS)-, lignosulfonate (LS)- and polycarboxylate (PCE)-based admixtures. The adsorption isotherms, zeta potentials and rheological behaviour of the blended cements were found and compared to the same parameters in non-blended cement. The results showed that cement–superplasticizers compatibility was altered by the physical (specific surface) and chemical (surface charge) characteristics of the mineral additions studied.
Compatibility between superplasticizer admixtures and cements with mineral additions
Burgos-Montes, Olga (Autor:in) / Palacios, Marta (Autor:in) / Rivilla, Patricia (Autor:in) / Puertas, Francisca (Autor:in)
Construction and Building Materials ; 31 ; 300-309
23.12.2011
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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