Efficiency Development of Light Weight High Strength Concrete by using Carbon Fibers.

H. Ibrahim, M. Mahdi, B. H. Hashim
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Abstract

This study aims to progress brittleness of the high strength lightweight aggregate concrete (HSLWAC) by using Porcelinite stone as light weight aggregates and silica fume with water cement ratio 0.28 to give 41.34 MPa compressive strength at 28-days and reinforced with carbon fibers. Fifteen mixtures using in this work with three various lengths of (5mm, 10mm, and 20mm), five mixes for every length with volume fractions (0.25%, 0.5%, 1.0%, 1.5%, and 2%) of carbon fibers. The slump test, compression strength, flexural strength, splitting tensile strength, and modulus of elasticity were investigated to determine the mechanical properties of (HSLWAC). The density of reference (HSLWAC) that was get through the experimental work was (1835 Kg/m3) at (28) days. The results shown that at general, the brittleness of (HSLWAC) improved with increased the content and length of carbon fibers, The optimum properties was for mix (L5) of 20mm length and 2% of carbon fibers of 45.44 MPa, 3.21MPa ,and 6.97MPa for compression strength, flexural strength, splitting tensile strength respectively.
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碳纤维轻质高强混凝土的高效开发。
本研究以瓷石为轻骨料,以水灰比0.28的硅灰为原料,对高强轻骨料混凝土(HSLWAC)进行脆性研究,得到28天抗压强度41.34 MPa,碳纤维加固。在这项工作中使用了15种混合物,有3种不同的长度(5mm, 10mm和20mm),每种长度有5种混合物,碳纤维的体积分数(0.25%,0.5%,1.0%,1.5%和2%)。通过坍落度试验、抗压强度、抗弯强度、劈裂抗拉强度、弹性模量等测试来确定HSLWAC的力学性能。在(28)天,实验得到的参比密度(HSLWAC)为(1835 Kg/m3)。结果表明:总体而言,随着碳纤维含量和长度的增加,HSLWAC的脆性得到改善,当L5长度为20mm,碳纤维含量分别为45.44 MPa、3.21MPa和6.97MPa时,HSLWAC的抗压强度、抗弯强度和劈裂抗拉强度最佳;
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