Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Effects of SP on flowability and cohesiveness of cement-sand mortar
Highlights The effects of SP on rheology of mortar were studied. From the study, the saturation dosage and segregation dosage were evaluated and found to be different. For best flowability–cohesiveness performance, the highest acceptable water content plus a low SP dosage should be adopted.
Abstract The use of superplasticizer (SP) can effectively improve the flowability of concrete but adding an excessive dosage of SP, especially when the water content is high, may impair cohesiveness and thus cause segregation. This study was to evaluate the effects of SP on the rheology of mortar with different water contents. A number of cement-sand mortar samples were produced and tested for their flowability in terms of flow spread and flow rate, and for their cohesiveness using a microversion of the sieve segregation test. The results showed that the effects of SP on flowability and cohesiveness are dependent not only on the SP dosage but also on the water content. From these results, the “saturation dosage” for achieving highest flowability and the “segregation dosage” that would cause segregation were evaluated to provide design guidance. In-depth analysis revealed that the saturation dosage and segregation dosage are different and therefore should not be mixed up. Furthermore, for best overall flowability-cohesiveness performance, the highest permissible water content plus a relatively low SP dosage should be adopted.
Effects of SP on flowability and cohesiveness of cement-sand mortar
Highlights The effects of SP on rheology of mortar were studied. From the study, the saturation dosage and segregation dosage were evaluated and found to be different. For best flowability–cohesiveness performance, the highest acceptable water content plus a low SP dosage should be adopted.
Abstract The use of superplasticizer (SP) can effectively improve the flowability of concrete but adding an excessive dosage of SP, especially when the water content is high, may impair cohesiveness and thus cause segregation. This study was to evaluate the effects of SP on the rheology of mortar with different water contents. A number of cement-sand mortar samples were produced and tested for their flowability in terms of flow spread and flow rate, and for their cohesiveness using a microversion of the sieve segregation test. The results showed that the effects of SP on flowability and cohesiveness are dependent not only on the SP dosage but also on the water content. From these results, the “saturation dosage” for achieving highest flowability and the “segregation dosage” that would cause segregation were evaluated to provide design guidance. In-depth analysis revealed that the saturation dosage and segregation dosage are different and therefore should not be mixed up. Furthermore, for best overall flowability-cohesiveness performance, the highest permissible water content plus a relatively low SP dosage should be adopted.
Effects of SP on flowability and cohesiveness of cement-sand mortar
Kwan, A.K.H. (Autor:in) / Fung, W.W.S. (Autor:in)
Construction and Building Materials ; 48 ; 1050-1057
21.07.2013
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Effects of SP on flowability and cohesiveness of cement-sand mortar
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