Utilization of Ceramic Waste as Coarse Aggregate and the effect on Concrete Compressive Strength

Samuel. P. Papilaya
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引用次数: 1

Abstract

In accordance with the development of knowledge, ceramics are all items made from non-metallic inorganic materials with silicate rock soil materials whose manufacturing process is accompanied by a combustion process at high temperatures. Seeing the potential for clay soil in Indonesia is very large, of course, many industrial activities grow so that they can provide benefits for humans, but apart from the benefits there are also impacts from industrial activities. One of the impacts of industrial activities is the waste, there are industrial wastes that can damage the environment or are environmentally friendly. The method used in this study is an experimental method, namely an experiment that aims to investigate the relationship between the compressive strength of normal concrete and concrete that uses ceramic shards as a filler material for a portion of the weight of coarse aggregate. The test objects made in this experiment were 9 samples in the form of concrete cylinders with a size of 15 cm x 30 cm which would later be tested for the compressive strength of concrete using SNI 03-2834-2000 guidelines. The research objectives were to obtain the compressive strength of concrete using ceramic waste materials as an additional coarse aggregate and to obtain the results of a comparison of normal concrete compressive strength with the compressive strength of concrete using ceramic waste materials. The compressive strength of concrete using ceramic waste material as an additional coarse aggregate with a percentage of 15% and 20% ceramic waste is as follows: Trial mix with 15% ceramic gives a compressive strength of 23.91 MPa and trial mix with ceramic 20% days gives a compressive strength of 23 .89 MPa. From the results of this test the percentage of ceramic 20% has a greater compressive strength compared to the percentage of ceramic 15% and the comparison of the compressive strength values of normal concrete and concrete using ceramics proves that the compressive strength of concrete is greater than normal concrete. big. It can be seen from the compressive strength of concrete from 0% to 15% which has an increase of 0.59 MPa and the compressive strength of slate from 0% to 20% has an increase of 0.98 MPa.
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陶瓷废料作为粗集料的利用及其对混凝土抗压强度的影响
根据知识的发展,陶瓷是由非金属无机材料和硅酸盐岩土材料制成的物品,其制造过程伴随着高温燃烧过程。印尼的粘土潜力非常大,当然,许多工业活动的发展为人类带来了好处,但除了好处之外,工业活动也带来了影响。工业活动的影响之一是废物,有工业废物可以破坏环境或对环境友好。本研究采用的方法是实验法,即通过实验研究普通混凝土的抗压强度与使用陶瓷碎片作为填充材料的粗骨料的一部分重量的混凝土之间的关系。本次实验的测试对象为9个混凝土柱状试样,尺寸为15 cm × 30 cm,随后使用SNI 03-2834-2000指南进行混凝土抗压强度测试。研究的目的是获得陶瓷废料作为附加粗骨料的混凝土抗压强度,并获得普通混凝土抗压强度与陶瓷废料混凝土抗压强度的比较结果。陶瓷废料掺加15%和20%陶瓷废料粗集料的混凝土抗压强度为:掺15%陶瓷废料的试验混凝土抗压强度为23.91 MPa,掺20%陶瓷废料的试验混凝土抗压强度为23.89 MPa。从试验结果来看,掺量为20%的陶瓷比掺量为15%的陶瓷具有更大的抗压强度,通过对比普通混凝土和掺量为20%的陶瓷混凝土的抗压强度,可以证明混凝土的抗压强度大于普通混凝土。大了。由混凝土抗压强度从0% ~ 15%增加0.59 MPa,板岩抗压强度从0% ~ 20%增加0.98 MPa可知。
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