Abstract
Demand for medium sand has increased greatly with increasing infrastructure construction items. The shortage of construction sand resources has become a serious problem in many districts. It not only increases the engineering cost, and the overexploitation of river sand and mountain as medium sand also brings a series of serious environment problems. There are abundant desert sand (DS) resources in western China. If DS resources can be used to substitute medium sand to produce desert sand concrete (DSC), which was suitable for engineering practice, the environment can be improved and engineering cost can be reduced. Although many researchers had focused on the mechanical performance of DSC, there were few documents on the frost resistance of DSC. Frost resistance experiments of DSC with 50% desert sand replacement ratio (DSRR) and ordinary concrete (OC) were performed in this paper. Influence of freeze-thaw cycles on the mechanical properties of OC and DSC was analyzed. Experimental results showed that, with increasing freeze-thaw cycles, the damage, peak strain, and porosity increased, while elastic modulus, Poisson's ratio, and peak stress declined, the stress-strain curves tended to be flat. Under the same condition of freeze-thaw cycles, the frost resistance of DSC with 50% DSRR was higher than that of OC. Constitutive model of DSC after different freeze-thaw cycles was formulated. The results predicted by constitutive model agreed well with experimental results, which can provide technical support for DSC engineering practice.
Highlights
As an indispensable raw material, medium sand is used to fill the gaps between coarse aggregates to enhance the concrete strength and compactability
On the basis of former researches, the frost resistance experiment of ordinary concrete (OC) and desert sand concrete (DSC) with desert sand replacement ratio (DSRR) of 50% was performed to study the effect of freeze-thaw cycles on DSC frost resistance. e pore structure of OC and DSC with DSRR of 50% after various freeze-thaw cycles was analyzed on the basis of stereology principles, which can provide theoretical support for performance evaluation of DSC in cold environment
Macrocracks gradually appeared on the specimen surface
Summary
As an indispensable raw material, medium sand is used to fill the gaps between coarse aggregates to enhance the concrete strength and compactability. Jin [7] studied DSC mechanical properties, which showed that DS can replace fine aggregate in concrete and the strength and performance can meet general engineering requirements. Alsaif et al [16] studied surface scaling, internal damage, and mechanical performance of steel fibre-reinforced rubberized concretes with different freeze-thaw cycles. On the basis of former researches, the frost resistance experiment of OC and DSC with DSRR of 50% was performed to study the effect of freeze-thaw cycles on DSC frost resistance. E pore structure of OC and DSC with DSRR of 50% after various freeze-thaw cycles was analyzed on the basis of stereology principles, which can provide theoretical support for performance evaluation of DSC in cold environment On the basis of former researches, the frost resistance experiment of OC and DSC with DSRR of 50% was performed to study the effect of freeze-thaw cycles on DSC frost resistance. e pore structure of OC and DSC with DSRR of 50% after various freeze-thaw cycles was analyzed on the basis of stereology principles, which can provide theoretical support for performance evaluation of DSC in cold environment
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