Mechanical and Microstructural Analysis of High-Performance Concrete Incorporated with Hybrid Fibres and Graphene Oxide

IF 1.7 4区 工程技术 Q3 ENGINEERING, CIVIL Iranian Journal of Science and Technology, Transactions of Civil Engineering Pub Date : 2024-07-29 DOI:10.1007/s40996-024-01532-4
V. Anish, J. Logeshwari
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Abstract

High-Performance Concrete (HPC) is an exceptional concrete with remarkable performance mostly in all aspects and has a compressive strength more than 60 MPa. This paper investigates the characteristics of concrete by various mechanical tests like compressive, split tensile and flexural strength with the reinforcement of different types of fibres and incorporation of graphene oxide. The microstructural analysis was also done to study the effects of different materials on the concrete. The usage of various types of fibres, Graphene oxide, mineral admixtures, preparation techniques and the utilization of materials in hybrid combinations are being investigated. Denser microstructure, lesser porosity and a homogeneous mixing are the basic requirements of the HPC design. Due to the requirement for a huge quantity of cement in HPC which is responsible for CO2 emission, abrasion and excessive heat of hydration resulting in cracks, Supplementary cementitious constituents like fly ash and silica fume were used, which also reduces the cost of construction. The nanomaterials react with calcium hydroxide and creates increased C–S–H gels, also aids in attaining a denser microstructure for HPC by filling the voids and pores, thereby providing sites for the nucleation and formation of C–S–H gel. It also helps in reducing the development of nano cracks, while the fibres in concrete helps in the energy dissipation effect during loading conditions and also produces a bridging effect for micro and macro cracks. The compressive, split tensile and flexural strength was observed to be improved up to 30.65%, 91.2% and 89.58% with the reinforcement by the hybrid combination of fibres and nanomaterials. The microstructural analysis on the concrete showed petal like crystals and a denser microstructure, with the usage of graphene oxide. Higher C–S–H and calcium hydroxide crystals formation was also noticed due to the usage of mineral admixtures and graphene oxide. The bridging effect of fibres hold firm in concrete matrix were also seen on the microstructural analysis. Based on the investigations, it has been found that the hybrid usage of the medium hooked end steel fibres, micro basalt fibres and Graphene oxide aides in improving several properties of the HPC.

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加入混合纤维和氧化石墨烯的高性能混凝土的力学和微结构分析
高性能混凝土(HPC)是一种特殊的混凝土,在各方面都有显著的性能,抗压强度超过 60 兆帕。本文通过各种力学测试,如抗压强度、劈裂拉伸强度和抗折强度,以及不同类型纤维的加固和氧化石墨烯的加入,研究了混凝土的特性。同时还进行了微观结构分析,以研究不同材料对混凝土的影响。目前正在研究各种纤维、氧化石墨烯、矿物掺合料的使用、制备技术以及材料的混合使用。更致密的微观结构、更小的孔隙率和均匀的混合是 HPC 设计的基本要求。由于 HPC 需要大量水泥,而水泥会导致二氧化碳排放、磨损和过高的水化热,从而产生裂缝,因此使用了粉煤灰和硅灰等补充胶凝成分,这也降低了建筑成本。纳米材料会与氢氧化钙发生反应,生成更多的 C-S-H 凝胶,还能通过填充空隙和孔隙,为 C-S-H 凝胶的成核和形成提供场所,从而帮助 HPC 获得更致密的微观结构。它还有助于减少纳米裂缝的产生,而混凝土中的纤维则有助于在加载条件下产生能量消耗效应,并对微观和宏观裂缝产生桥接作用。纤维和纳米材料混合加固后,抗压、劈裂拉伸和弯曲强度分别提高了 30.65%、91.2% 和 89.58%。混凝土的微观结构分析表明,使用氧化石墨烯后,混凝土中出现了花瓣状晶体,微观结构更加致密。由于使用了矿物掺合料和氧化石墨烯,C-S-H 和氢氧化钙晶体的形成量也有所增加。微观结构分析还显示了纤维在混凝土基体中的桥接作用。研究发现,混合使用中钩端钢纤维、微玄武岩纤维和氧化石墨烯有助于改善 HPC 的多项性能。
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来源期刊
CiteScore
3.30
自引率
11.80%
发文量
203
期刊介绍: The aim of the Iranian Journal of Science and Technology is to foster the growth of scientific research among Iranian engineers and scientists and to provide a medium by means of which the fruits of these researches may be brought to the attention of the world’s civil Engineering communities. This transaction focuses on all aspects of Civil Engineering and will accept the original research contributions (previously unpublished) from all areas of established engineering disciplines. The papers may be theoretical, experimental or both. The journal publishes original papers within the broad field of civil engineering which include, but are not limited to, the following: -Structural engineering- Earthquake engineering- Concrete engineering- Construction management- Steel structures- Engineering mechanics- Water resources engineering- Hydraulic engineering- Hydraulic structures- Environmental engineering- Soil mechanics- Foundation engineering- Geotechnical engineering- Transportation engineering- Surveying and geomatics.
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