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Investigation of drying shrinkage behaviour of concrete with composite cements

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dc.contributor.author Weerasinghe, NT
dc.contributor.author Nanayakkara, SMA
dc.contributor.editor Mallikarachchi, C
dc.contributor.editor Hettiarachchi, P
dc.contributor.editor Herath, S
dc.contributor.editor Fernando, L
dc.date.accessioned 2023-10-10T03:51:46Z
dc.date.available 2023-10-10T03:51:46Z
dc.date.issued 2023-09-27
dc.identifier.citation ** en_US
dc.identifier.uri http://dl.lib.uom.lk/handle/123/21520
dc.description.abstract Understanding and investigating the drying shrinkage behaviour of concrete is of paramount importance for maintaining the overall performance and long-term durability of concrete structures. The occurrence of shrinkage-induced cracking can result in aesthetic concerns and functional limitations. Drying shrinkage is influenced by multiple factors, among them the type of cement plays a major role in governing the drying shrinkage behaviour. Therefore, investigating the drying shrinkage behaviour of concrete with a specific focus on composite cement becomes crucial. This study investigates the drying shrinkage behaviour of grade 30 concrete made out of two different cement types, Ordinary Portland Cement (OPC) and fly ash blended cement and checks the validity of the shrinkage model specified in Euro Code 2 (EC2) for local materials and conditions. To obtain the grade 30 mix proportions, a BRE mix design was carried out. Slump tests and compressive strength tests were done to check the suitability of the concrete mix. The required slump through the mix was 100 mm and the obtained slump value was also in the range of 100±25 mm. From each cement type, 3 cubes were prepared and tested after 7 days and 28 days. The measured average 28 days compressive strength of OPC and fly ash blended cement contained concrete was 40.5 MPa and 47.2 MPa respectively. For the drying shrinkage test, moulds with 75 mm × 75 mm × 280 mm were used. After curing for 3 days and 7 days all the specimens were dried in normal room temperature and relative humidity conditions. A laser transducer was used to obtain the shrinkage values each day after letting them dry. Drying was continued up to about 45 days. According to the obtained results, corresponding drying shrinkage in concrete with fly ash blended cement showed low values compared to that of concrete containing 100% OPC in both 3 days and 7 days of cured samples. In the first 15 days, it showed little difference between the two cement types, but when the days continued the difference became higher. Therefore, by incorporating fly ash blended cement in concrete mixes, low values for drying shrinkage can be obtained. When the effect of curing is considered, the 7 days of cured samples showed lower values for drying shrinkage than 3 days of cured samples, despite the type of cement used in concrete. When comparing the values obtained from the drying shrinkage equation in EC2 with experimental values, up to about 17 days equation values underestimated the drying shrinkage in concrete and after 17 days equation values tend to overestimate the drying shrinkage in concrete. Since the EC2 equation is not applicable under local scenarios, suitable modifications need to be done for the equations before using it. en_US
dc.language.iso en en_US
dc.publisher Department of Civil Engineering en_US
dc.subject Drying shrinkage en_US
dc.subject Composite cement en_US
dc.subject Fly ash blended cement en_US
dc.subject Ordinary Portland Cement (OPC) en_US
dc.title Investigation of drying shrinkage behaviour of concrete with composite cements en_US
dc.type Conference-Abstract en_US
dc.identifier.faculty Engineering en_US
dc.identifier.department Department of Civil Engineering en_US
dc.identifier.year 2023 en_US
dc.identifier.conference Civil Engineering Research Symposium 2023 en_US
dc.identifier.place University of Moratuwa, Katubedda, Moratuwa. en_US
dc.identifier.pgnos pp. 39-40 en_US
dc.identifier.proceeding Proceedings of Civil Engineering Research Symposium 2023 en_US
dc.identifier.email sman@uom.lk en_US


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  • CERS - 2023 [55]
    Civil Engineering Research Symposium 2023

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