The Evaluation of Mechanical Properties of Concrete Due to The Use of Glass Waste as Partial Substitution of Fine Aggregate

BERKALA SAINSTEK Pub Date : 2021-08-09 DOI:10.19184/bst.v9i3.26628

Ga Hayu, K. Dewi, A. G., Rivald Akbar

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Abstract

Increasing human awareness of the importance of protecting the environment and conserving natural resources requires concrete innovation as an environmentally friendly and sustainable material. Accumulated of solid waste begins to be processed and reused, one of which is as a constituent of concrete. Among the various types of solid waste, glass waste is considered as an alternative that can be used as a substitute for fine aggregate (sand), coarse aggregate (split stone) and cement. This study investigated the use of mix coloured glass waste consisting of clear, green, and brown as partial substitution of sand in concrete. Although the glass colors were mixed, the proportion of each color had been determined in this study, namely 25%, 25%, and 50%. The purpose of determining these proportions is to find out which type of color glass has the most effect on concrete mix. The target characteristic strength of 25 MPa was produced by replacing sand with 20% of mix coloured waste glass. Three combinations of concrete mixes were prepared for this study. Compression tests were conducted at 7, 14, and 28 days. Workability of fresh concrete, density, compressive strength, and failure mode were investigated in this study. Results showed that the use of waste glass was able to increase the workability of fresh concrete. K1, K 2, and K3 obtained slump values which were 4%, 6,7%, and 1,3% higher than normal concrete. Normal concrete and all combinations exhibited similar density values. Only normal concrete achieved the characteristic strength of 25,7 MPa at 28 days. Meanwhile K1, K2, and K3 achieved strengths of 22,4 MPa, 22,1 MPa, and 24,7 MPa, respectively. It was evident that as workability values increased, the compressive strengths were noticed to reduce.

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玻璃废料部分替代细骨料对混凝土力学性能的影响

提高人类对保护环境和养护自然资源重要性的认识需要具体的创新，作为一种环境友好和可持续的材料。积累的固体废物开始被处理和再利用，其中之一是作为混凝土的组成部分。在各类固体废物中，玻璃废物被认为是一种替代品，可以替代细骨料(砂)、粗骨料(劈裂石)和水泥。本研究研究了混合彩色玻璃废料的使用，包括透明、绿色和棕色，作为混凝土中沙子的部分替代品。虽然玻璃颜色是混合的，但在本研究中已经确定了每种颜色的比例，即25%，25%和50%。确定这些比例的目的是为了找出哪种类型的彩色玻璃对混凝土配合比的影响最大。用20%的混合有色废玻璃代替砂石，获得了25 MPa的目标特性强度。本研究准备了三种混凝土混合料组合。在第7、14和28天进行压缩试验。研究了新拌混凝土的工作性、密度、抗压强度和破坏模式。结果表明，废玻璃的使用能够提高新拌混凝土的和易性。K1、k2和K3的坍落度分别比普通混凝土高4%、6%、7%和1.3%。普通混凝土和所有组合具有相似的密度值。只有普通混凝土在28天达到了25,7 MPa的特征强度。K1、K2和K3的强度分别为22、4 MPa、22、1 MPa和24、7 MPa。随着和易性值的增加，抗压强度明显降低。

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