SUBSTITUSI FLY ASH DAN LIMBAH KACA PADA KOLOM MODULAR BETON PRAPABRIKASI YANG EKONOMIS

Indonesian Journal Of Civil Engineering Education Pub Date : 2022-04-14 DOI:10.20961/ijcee.v7i1.60714

Muhammad Nur Alifi, Chundakus Habsya, Rima Sri Agustin

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Abstract

Abstrak: Percepatan pembangunan daerah perkotaan memerlukan inovasi komponen bangunan yang ramah lingkungan. Menciptakan bangunan yang ramah lingkungan dilakukan dengan memanfaatkan limbah sebagai bahan pengganti sebagian dari material beton. Penelitian ini bertujuan untuk mengetahui pemanfaatan variasi limbah kaca dan 10% fly ash yang mampu menghasilkan produk komponen bangunan ramah lingkungan dan menjadi alternatif komponen bangunan yang ekonomis. Penelitian ini menerapkan metode kuantitatif. Pembuatan kolom praktis dilakukan dengan prapabrikasi segmen kolom. Hasil pengujian dievaluasi berdasarkan pengaruh variasi limbah kaca terhadap daya serap air segmen kolom praktis modular dan kuat tekan aksial kolom praktis modular beton. Hasil eksperimen menunjukkan substitusi fraksi limbah kaca dan 10 % fly ash dapat menurunkan daya serap air pada segmen dan meningkatkan kuat tekan aksial pada kolom praktis modular beton. Nilai daya serap air minimal sebesar 10,826% tercapai pada komposisi kaca 15%. Kuat tekan aksial maksimal kolom praktis modular beton pada umur 28 hari sebesar 8,98 MPa dengan variasi limbah kaca 10%. Prapabrikasi kolom praktis modular beton menghemat biaya pembuatan hingga 47% dibandingkan menggunakan kolom praktis konvensional.Abstract: Accelerating urban development requires environmentally friendly building component innovations. Creating environmentally friendly buildings is done by utilizing waste as a substitute for some of the concrete material. This study aims to determine the use of glass waste and fly ash to produce environmentally friendly building components and become an alternative in creating an economical building component. This research applies quantitative methods. Column manufacturing was done by prefabricated column segments. The test results are evaluated based on the effect of variations in glass waste on the water absorption capacity of the practical modular column segment and the axial compressive strength of the concrete modular practical column. The experimental results show that glass fraction substitution and 10% fly ash can reduce water absorption in the segment and increase the axial compressive strength of practical concrete modular columns. The minimal water absorption value of 10,826% was achieved at the glass composition of 15% and the maximum axial compressive strength of practical concrete modular columns at 28 days was 8,98 MPa at a composition of 10% variations glass waste. Prefabricated concrete modular columns save up to 47% manufacturing costs compared to conventional columns.

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经济预制混凝土模块化柱中的飞灰和玻璃废物

抽象:加快城市建设需要绿色的构件创新。创造环保处置废物利用的建筑作为一种替代混凝土材料的一部分。本研究旨在探讨利用废物玻璃和10%的变化能够产生的飞灰成分替代环保建筑组件产品,成为经济的结构。该研究采用定量方法。实际的列制作是通过列前制造商段进行的。测试结果是基于玻璃废水对水吸收能力的影响对一根实心模块化和强按压一根实心模块化柱的作用进行评估的。实验结果表明，有机玻璃废弃物和10%的飞烟灰的替换成分可以降低玻璃的吸水性，增加混凝土模块化柱上的轴向力。渗透性10,826%大小的水至少价值实现15%的玻璃的成分。强大实用的最大轴向压栏模块化混凝土大日28岁8.98 MPa和废物玻璃10%的变化。实际的混凝土模块化列比传统的实际列节省47%。抽象:Accelerating urban development requires environmentally友好建筑服务创新。美国创建友好environmentally能耗是完成由utilizing浪费之a substitute for一些混凝土材料。这个研究aims to个重大格拉斯荒原之用灰飞到农产品environmentally友好大厦components和成为一个另类在创建一个economical建筑组件。这个研究applies quantitative方法。纵队manufacturing干得是由prefabricated纵队segments。test results是evaluated效应》改编自格拉斯variations in浪费on The water absorption capacity of The practical模块化纵队segment《axial compressive混凝土模块化practical纵队之力量。实验results秀格拉斯那fraction substitution与飞灰可以减少10%水absorption》《axial segment和增加compressive of practical混凝土模块化专栏中拼搏。至少水上absorption value of 10,826%是格拉斯achieved at The composition of 15%《maximum axial compressive of practical混凝土模块化专栏中拼搏,在28天是8.98格拉斯MPa at a composition of 10% variations荒原。Prefabricated混凝土模块化专栏中存钱到47% manufacturing一次compared to conventional专栏中。

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Indonesian Journal Of Civil Engineering Education

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