Improving Quality of High Performance Concrete by Cavitation Treatment of the Raw Materials
Procedia Engineering: Modern Building Materials, Structures and Techniques 2013
Aleksandrs Korjakins, Patricija Kara, Nikolajs Toropovs

The packing of fine aggregate affects the properties of HPC. The denser is fine aggregate packing the better are the workability, compressive strength and watertightness, and with that the frost and chemical resistances under sufficient paste content. Supplementary cementing materials such as silica fume has predominantly used for HPC due to it improves the packing of the concrete mix and activates the pozzolanic reaction. But agglomerates can be formed in this fine aggregate mix and therefore the packing of the mix is not improved, chemical reaction is hindered and the use of this aggregate may worsen the concrete properties instead of improving them. The effect of cavitation treatment on silica fume and cement is investigated in this work. Due to cavitation treatment, the agglomerate of silica fume and cement collapses into nano- and micro-particles and uniforms dispersion of small dispersed particles in liquid medium. Granulometric composition of silica fume slurry before and after cavitation treatment was determined. High performance concrete mixes with designed packing including micro- and nano-size fillers were elaborated. Fresh and hardened concrete were tested and such properties as cone flow, watertightness, water absorption and compressive strength were defined for control and experimental mixes. The influence of cavitation treatment of small dispersed raw materials on the compressive strength properties of produced concrete has been evaluated.


Atslēgas vārdi
cavitations, dispersion, silica fume, high performance concrete, slurry, segregation,watertightness
DOI
10.1016/j.proeng.2013.06.001
Hipersaite
http://www.sciencedirect.com/science/article/pii/S1877705813010485

Korjakins, A., Kara, P., Toropovs, N. Improving Quality of High Performance Concrete by Cavitation Treatment of the Raw Materials. Procedia Engineering: Modern Building Materials, Structures and Techniques, 2013, Vol.57, 597.-604.lpp. ISSN 1877-7058. Pieejams: doi:10.1016/j.proeng.2013.06.001

Publikācijas valoda
English (en)
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