Improvement in Long Term Bonding and Mechanical Performance by Using Glass Concrete in Combination with Xanthan Gum Exposed to Harsh Environment

IF 1 Q4 ENGINEERING, CIVIL
Humaira Kanwal, M. Adil, Naushaba Azhar, N. Amin, M. Faisal Rehman, A. Javed, A. R. Awan, M. Tahir, Sadia Mughal, M. Asim
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Abstract

Abstract Concrete is the mostly used construction material composed of a mixture of cement, water, aggregates (such as sand, gravel, or crushed stone), and often additional additives or admixtures. It is widely used in the construction industry for various applications due to its strength, durability, and versatility. Key characteristics of concrete include strength, durability, versatility, fire resistant, cost effective, weather resistant, insulation and decorative options. Concrete plays a vital role in the construction industry, providing the foundation for most buildings, infrastructure, and many other structures worldwide. Its composition and properties can be tailored to meet specific project requirements, making it an indispensable material in modern construction. Various fibers can be used to enhance the mechanical and bonding properties of concrete. Also waste fibers after recycling can be reduced the environmental burden. Keeping in this view, glass powder sodium silicate glass (SSG) is used as replacement of cement with different percentages 0%,4%,8%, and 12% in combination of xanthan gum 0.2% for all mixes. An experimental study is conducted to investigate the mechanical and durability properties of concrete by performing compression test, flexural test, alkali silica reactivity test, sulfate resistivity test and drying shrinkage test. For this, forty-eight concrete cylinders are prepared for compression test, forty-eight concrete prisms for flexural test and thirty-six mortar bars of four mixes are prepared for durability testing. Workability is checked of fresh concrete during the pouring of concrete cylinders. Poured cylinders’ samples are left for 7, 14, 21 and 28 days of curing. Different tests are performed on hardened concrete and mortar samples to evaluate the mechanical and durability properties. Results concluded that workability of four mixes lies between 60-80mm and compressive strength of concrete has been improved using glass powder (SSG). Optimum results have been achieved at 12% as compared to other mixes 4% and 8% of concrete samples. Fibrous material is used as a binding agent and fibrous concrete is suitable for humid environment where high strength and voids less concrete are required. Quantity of cement can be reduced by using different fibers as a replacement of cement. Research recommended that recycled glass powder can be used in concrete as construction material and 12% replacement is suitable for optimum results.
将玻璃混凝土与黄原胶结合使用可改善暴露于恶劣环境下的长期粘结性能和机械性能
混凝土是一种常用的建筑材料,由水泥、水、骨料(如沙子、砾石或碎石)和附加的添加剂或外加剂混合而成。由于其强度,耐久性和多功能性,它被广泛用于建筑行业的各种应用。混凝土的主要特性包括强度、耐久性、多功能性、防火性、成本效益、耐候性、绝缘性和装饰性。混凝土在建筑业中起着至关重要的作用,为世界上大多数建筑物、基础设施和许多其他结构提供了基础。它的成分和性能可以定制,以满足特定的工程要求,使其成为现代建筑中不可缺少的材料。各种纤维可用于增强混凝土的机械性能和粘结性能。另外,废纤维经过回收后可以减少环境负担。因此,在所有混合料中,玻璃粉硅酸钠玻璃(SSG)分别以0%、4%、8%和12%的不同比例(黄原胶0.2%)替代水泥。通过压缩试验、抗弯试验、碱硅反应性试验、硫酸盐电阻率试验和干燥收缩试验,对混凝土的力学性能和耐久性进行了试验研究。为此,准备了48个混凝土圆柱体进行压缩试验,48个混凝土棱镜进行弯曲试验,36个4种混合料的砂浆条进行耐久性试验。在混凝土钢瓶浇筑过程中,对新拌混凝土的工作性进行校核。浇注的钢瓶试样分别养护7、14、21、28天。对硬化混凝土和砂浆样品进行不同的测试,以评估其力学和耐久性性能。结果表明,4种配合比的和易性在60 ~ 80mm之间,玻璃粉的掺入提高了混凝土的抗压强度。与混凝土样品的4%和8%的其他混合料相比,在12%的混合料中取得了最佳结果。纤维材料作为粘结剂,纤维混凝土适用于要求混凝土强度高、空隙少的潮湿环境。采用不同纤维替代水泥可减少水泥用量。研究建议,再生玻璃粉可用于混凝土作为建筑材料,以12%的替代量为最佳效果。
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9.10%
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