Abstract
In recent years, the overuse and exploitation of coal resources as fuel in industry has caused many environmental problems as well as changes in the ecosystem. One way to address this issue is to recycle these materials as an alternative to aggregates in concrete. Recently, non-destructive tests have also been considered by the researchers in this field. As there is limited work on the evaluation of the compressive strength of concrete containing coal waste using non-destructive tests, the current study aims to estimate the compressive strength of concrete containing untreated coal waste aggregates using the ultrasonic pulse velocity (UPV) technique as a non-destructive testing approach. For this purpose, various concrete parameters such as the compressive strength and UPV were investigated at different ages of concrete with different volume replacements of coarse and fine aggregates with coal waste. The test results indicate that 5% volume replacement of natural aggregates with untreated coal waste improves the average compressive strength and UPV of the concrete mixes by 6 and 1.2%, respectively. However, these parameters are significantly reduced by increasing the coal waste replacement level up to 25%. Furthermore, a general exponential relationship was established between the compressive strength and the UPV associated with the entire tested concrete specimens with different volume replacement levels of coal waste at different ages. The proposed relationship demonstrates a good correlation with the experimental results.
Highlights
The production of global solid waste is persistently accelerating with the advancement of industry and emerging technology applications, as well as the increase in the human population
The results indicate that the the these two figures, it can 13 be and seen that compressive strength increases with increasing strength has trend, which will improve over time
Concrete specimens were made in 11 experimental groups, and the parameters of compressive strength and ultrasonic pulse velocity (UPV) were investigated at different ages of concrete with different volume replacement levels of coarse and fine aggregates with coal waste
Summary
The production of global solid waste is persistently accelerating with the advancement of industry and emerging technology applications, as well as the increase in the human population. In this regard, coal is considered as one of the most essential sources of energy throughout the world, the extraction and exploitation of which lead to the production of waste materials [1,2]. There are three ways to dispose of such waste in nature: landfills, incineration, and recycling The latter one has become a potential solution for the disposal management of such waste [3]. The use of coal waste as a partial replacement of aggregates in concrete reduces the depletion of natural resources and mitigates environmental hazards
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