Abstract
In this study, the shrinkage performance of recycled aggregate thermal insulation concrete (RATIC) with added glazed hollow beads (GHB) was investigated and a time-dependent shrinkage model was proposed. Two types of recycled fine aggregate (RFA) were used to replace natural fine aggregate in RATIC: RFA from waste concrete (RFA1) and waste clay brick (RFA2). Besides, the mechanical properties and thermal insulation performance of RATIC were also studied. Results showed that the pozzolanic reaction caused by RFA2 effectively improved the mechanical properties of RATIC; 75% was the optimal replacement ratio of RATIC prepared by RFA2. Added RFA decreased the thermal conductivity of thermal insulation concrete (TIC). The total shrinkage strain of RATIC increased with the increase of the replacement ratio of RFA. The 150d total shrinkage of RATIC prepared by RFA1 was 1.46 times that of TIC and the 150d total shrinkage of RATIC prepared by RFA2 was 1.23 times. The addition of GHBs led to the increase of early total shrinkage strain of concrete. Under the combined action of the higher elastic modulus of RFA2 and the pozzolanic components contained in RFA2, the total shrinkage strain of RATIC prepared by RFA2 with the same replacement ratio was smaller than that of RATIC prepared by RFA1. For example, the final total shrinkage strain of RATIC prepared by RFA2 at 100% replacement ratio was about 18.6% less than that of RATIC prepared by RFA1. A time-dependent shrinkage model considering the influence of the elastic modulus of RFA and the addition of GHB on the total shrinkage of RATIC was proposed and validated by the experimental results.
Highlights
With the development of concrete construction, a large number of old buildings with brick and concrete structures will be demolished
Wang et al [3] found that the compressive strength of recycled fine aggregate concrete (RFAC) containing RFA1 at 28 days was greater than the ordinary concrete
Carried out a systematic study on the mechanical properties of recycled aggregate thermal insulation concrete (RATIC) prepared with Recycled coarse aggregate (RCA), and the results showed that the compressive strength, splitting tensile strength and elastic modulus of RATIC were all lower than those of the glazed hollow beads (GHB) thermal insulation concrete (TIC)
Summary
With the development of concrete construction, a large number of old buildings with brick and concrete structures will be demolished. Recycled aggregate thermal insulation concrete (RATIC) is a new type of green structural concrete, with the glazed hollow beads (GHB) and recycled aggregate [6,7]. It alleviates environmental problems caused by construction and demolition waste and reduces the overall energy consumption of buildings [8]. Carried out a systematic study on the mechanical properties of RATIC prepared with RCA, and the results showed that the compressive strength, splitting tensile strength and elastic modulus of RATIC were all lower than those of the GHB thermal insulation concrete (TIC). Of thermal insulation performance and the scanning electronelectron microscope (SEM) of RATIC were studied
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