Role of expanded clay aggregate, metakaolin and silica fume on the of modified lightweight concrete properties

IF 1.5 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geosystem Engineering Pub Date : 2021-02-16 DOI:10.1080/12269328.2021.1887002
T. A. Tawfik, Doha M. AlSaffar, B. Tayeh, K. Metwally, I. Elkattan
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引用次数: 36

Abstract

ABSTRACT This investigation aimed to assess the effect of micro-cementitious materials on the mechanical properties and sulphate resistance of modified eco-efficient lightweight concrete (MDLWC). A modified lightweight concrete (MDLWC) was produced by mixing Light-expanded clay aggregate (LECA) with normal coarse aggregate (dolomite cushed rock). The impact of using different percentage of micro-cementitious materials which was micro silica fume (5–20%) and metakaolin(10–35%) on the mechanical properties (compressive strength, splitting tensile and flexural strength), waves transmission velocity of the ultrasonic pulses and sulphate resistivity of MDLWC was studied. The overall results illustrated that the use of micro-cementitious materials in MDLWC caused an enhancement on MDLWC properties. However, the MDLWC specimens containing micro silica fume showed better results than metakaolin. The best results were observed while using samples containing 10% micro silica fume and 30 % metakaolin individually or combined. In addition, the usage of combined mixture of 10% micro silica fume and 30% metakaolin MDLWC mix showed the best improvement rate in compressive, splitting tensile and flexural strengths by 25, 53.3 and 66.6%, respectively, compared to control MDLWC specimens. On the other hand, the direct empirical equations were proposed on the basis of strong and nonlinear regression analysis using the test data to predict the mechanical properties of MDLWC relationships, rationally. Experimental tests were conducted on ultrasonic pulses velocity, which showed good correlation equation strength of MDLWC. Scanning electron microscopy illustrated that the pores of concrete is smaller for SF and MK individually or combined with MDLWC compared to the control concrete, demonstrating an enhancement within the interfacial microstructure with the pozzolanas incorporation. The previous difference could be explained due to the concrete strength and sulphate penetrability to an extent.
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膨胀粘土集料、偏高岭土和硅灰对改性轻量化混凝土性能的影响
摘要本研究旨在评估微胶凝材料对改性生态高效轻质混凝土(MDLWC)力学性能和抗硫酸盐性能的影响。将轻质膨胀粘土骨料(LECA)与普通粗骨料(白云岩)混合制成改性轻质混凝土(MDLWC)。研究了不同比例的微硅粉(5–20%)和偏高岭土(10–35%)微胶凝材料对MDLWC的力学性能(抗压强度、劈拉强度和抗弯强度)、超声脉冲波传输速度和硫酸盐电阻率的影响。总体结果表明,微胶凝材料在MDLWC中的使用提高了MDLWC的性能。然而,含有微硅粉的MDLWC样品显示出比偏高岭土更好的结果。当单独或组合使用含有10%微硅粉和30%偏高岭土的样品时,观察到最佳结果。此外,与对照MDLWC试样相比,10%微硅粉和30%偏高岭土MDLWC混合物的组合使用在抗压、劈拉和弯曲强度方面显示出最佳的改善率,分别提高了25%、53.3%和66.6%。另一方面,在强非线性回归分析的基础上,利用试验数据,提出了直接的经验方程,合理地预测了MDLWC关系的力学性能。对超声波脉冲速度进行了实验测试,结果表明MDLWC具有良好的相关方程强度。扫描电子显微镜显示,与对照混凝土相比,SF和MK单独使用或与MDLWC组合使用的混凝土的孔隙较小,表明掺入火山灰后界面微观结构得到了增强。之前的差异可以在一定程度上解释为混凝土强度和硫酸盐渗透性。
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来源期刊
Geosystem Engineering
Geosystem Engineering GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
2.70
自引率
0.00%
发文量
11
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