<p>This study presents the effects of superplasticizer and varying aggregate size on the mechanical properties of concrete. Six concrete sample groups were prepared using a prescribed mix ratio of 1:1½:3, with three aggregate sizes of 12.5&#xa0;mm, 16&#xa0;mm, and 19&#xa0;mm, with and without a superplasticizer (Conplast 430). The compressive strength was determined on cubes of 150 × 150 × 150&#xa0;mm, with samples cured for 7, 21, and 28 days, while the flexural strength was determined on unreinforced beams of 150 × 150 × 750&#xa0;mm, with samples cured for 28 and 56 days. To evaluate drying shrinkage, 100 × 100 × 500&#xa0;mm short concrete columns were cast and investigated for 90 days. The compressive strength results showed that samples made with 12.5&#xa0;mm coarse aggregate and superplasticizer developed a maximum compressive strength (34.85&#xa0;N/mm²) at 28 days. The concrete samples made with 12.5&#xa0;mm, when compared with 16&#xa0;mm and 19&#xa0;mm, showed average strength increases of 6.5% and 9.7%, respectively. The flexural strength results showed that samples made with 12.5&#xa0;mm coarse aggregate and superplasticizer developed a maximum flexural strength of 4.72&#xa0;N/mm² at 56 days of curing. The drying shrinkage results showed that the shrinkage strain of concrete made with a smaller-size coarse aggregate (12.5&#xa0;mm) without superplasticizer increased by 14.5% and 20.3% for 16&#xa0;mm and 19&#xa0;mm coarse aggregate sizes, respectively, whereas for concrete made with superplasticizer, the 12.5&#xa0;mm coarse aggregate showed 7.77% and 13.04% increases when compared with 16&#xa0;mm and 19&#xa0;mm coarse aggregate sizes, respectively.</p>

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The effects of superplasticizer and coarse aggregate sizes on the mechanical properties of concrete and its drying shrinkage

  • Yetunde Oyebolaji Abiodun,
  • Abiodun Abdulfatai Fatokun,
  • Joseph Ifeolu Orisaleye,
  • Sulaiman Oyeyemi Kolawole

摘要

This study presents the effects of superplasticizer and varying aggregate size on the mechanical properties of concrete. Six concrete sample groups were prepared using a prescribed mix ratio of 1:1½:3, with three aggregate sizes of 12.5 mm, 16 mm, and 19 mm, with and without a superplasticizer (Conplast 430). The compressive strength was determined on cubes of 150 × 150 × 150 mm, with samples cured for 7, 21, and 28 days, while the flexural strength was determined on unreinforced beams of 150 × 150 × 750 mm, with samples cured for 28 and 56 days. To evaluate drying shrinkage, 100 × 100 × 500 mm short concrete columns were cast and investigated for 90 days. The compressive strength results showed that samples made with 12.5 mm coarse aggregate and superplasticizer developed a maximum compressive strength (34.85 N/mm²) at 28 days. The concrete samples made with 12.5 mm, when compared with 16 mm and 19 mm, showed average strength increases of 6.5% and 9.7%, respectively. The flexural strength results showed that samples made with 12.5 mm coarse aggregate and superplasticizer developed a maximum flexural strength of 4.72 N/mm² at 56 days of curing. The drying shrinkage results showed that the shrinkage strain of concrete made with a smaller-size coarse aggregate (12.5 mm) without superplasticizer increased by 14.5% and 20.3% for 16 mm and 19 mm coarse aggregate sizes, respectively, whereas for concrete made with superplasticizer, the 12.5 mm coarse aggregate showed 7.77% and 13.04% increases when compared with 16 mm and 19 mm coarse aggregate sizes, respectively.