Investigation on the flexural behaviour of high-performance reinforced concrete beams using sandstone aggregates
Abstract In recent years, an emerging technology termed high-performance concrete (HPC) has become popular in construction industry. The constituent materials of HPC depend on the desired characteristics and the availability of suitable local economic alternatives. Tests are reported in...
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| Format: | Article |
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ELSEVIER
2007
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| Online Access: | http://eprints.utp.edu.my/1282/1/Investigation-on-the-flexural-behaviour-of-high-performance-reinforced-concrete-beams-using-sandstone-aggregates_2007_Building-and-Environment_1.pdf http://eprints.utp.edu.my/1282/ |
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| Summary: | Abstract
In recent years, an emerging technology termed high-performance concrete (HPC) has become popular in construction industry. The
constituent materials of HPC depend on the desired characteristics and the availability of suitable local economic alternatives. Tests are
reported in this study on the flexural behaviour of high-performance reinforced concrete (HPRC) beams made with crushed sandstone
coarse and fine aggregate together with silica fume. The beams were made from concrete having compressive strength of 74 and 78 N/mm2
and tensile reinforcement ratio in the range of 1.34–3.14%. The ultimate moment for the tested beams was found to be about 14–30%
and 3–9% higher than that of the predicted ultimate moment based on BS 8110 and ACI 318, respectively. Due to lower stiffness of
sandstone aggregates, the beams resulted in excessive deflection under service loads. The observed crack width under service loads were
within acceptable limits. The mineral fillers in crushed sandstone sand and silica fume increased the flexural stiffness of HPRC beams and resulted in adequate safety factors against flexural failure. The test results showed that it is possible to produce HPC using sandstone
aggregates with silica fume and superplasticisers.
r 2006 Elsevier Ltd. All rights reserved.
Keywords: High-performance concrete; Crushed sandstone aggregate; Deflection; Crack width; Concrete strain
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