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Effects of CSF on strength, rheology and cohesiveness of cement paste
Highlights ► Addition of CSF up to an optimum content would increase strength. ► Addition of CSF would significantly increase packing density. ► Addition of CSF could improve flowability and cohesiveness at the same time. ► Effect of adding CSF on water film thickness is dependent on W/CM ratio. ► Water film thickness is the key factor governing rheology of cement paste.
Abstract A number of cement paste samples with condensed silica fume (CSF) contents ranging from 0% to 25% and different water contents were made and their respective strength, rheological properties, cohesiveness and packing density were measured. The results showed that whilst the addition of CSF would increase the strength of cement paste, there is an optimum CSF content beyond which further addition of CSF would cause reduction in strength. More importantly, the addition of CSF has great effects on the flowability, cohesiveness and packing density of cement paste, and under certain conditions can increase both the flowability and cohesiveness. In-depth analysis revealed that the various rheological properties are governed mainly by the water film thickness whereas the cohesiveness is dependent not just on the water film thickness but also on other factors.
Effects of CSF on strength, rheology and cohesiveness of cement paste
Highlights ► Addition of CSF up to an optimum content would increase strength. ► Addition of CSF would significantly increase packing density. ► Addition of CSF could improve flowability and cohesiveness at the same time. ► Effect of adding CSF on water film thickness is dependent on W/CM ratio. ► Water film thickness is the key factor governing rheology of cement paste.
Abstract A number of cement paste samples with condensed silica fume (CSF) contents ranging from 0% to 25% and different water contents were made and their respective strength, rheological properties, cohesiveness and packing density were measured. The results showed that whilst the addition of CSF would increase the strength of cement paste, there is an optimum CSF content beyond which further addition of CSF would cause reduction in strength. More importantly, the addition of CSF has great effects on the flowability, cohesiveness and packing density of cement paste, and under certain conditions can increase both the flowability and cohesiveness. In-depth analysis revealed that the various rheological properties are governed mainly by the water film thickness whereas the cohesiveness is dependent not just on the water film thickness but also on other factors.
Effects of CSF on strength, rheology and cohesiveness of cement paste
Chen, J.J. (author) / Fung, W.W.S. (author) / Kwan, A.K.H. (author)
Construction and Building Materials ; 35 ; 979-987
2012-04-25
9 pages
Article (Journal)
Electronic Resource
English
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