ECO FRIENDLY HIGH EARLY STRENGTH SELF COMPACTING CONCRETE USING KAOLIN AND WASTE MARBLE DUST

Candra Latu Mowo, Dian Arumningsih
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Abstract

The growth and development of infrastructure in Indonesia is currently growing very rapidly, and the cement production process produces the second largest amount of carbon dioxide after waste, which plays an important role in the current global warming. Self compacting concrete is one of the biggest innovations in the field of construction, Self compacting concrete is one of the biggest innovations in the construction field, where this concrete has high workability but does not ignore compressive strength. Therefore, new, sustainable materials are needed to replace cement production, but they are also required for the workability required to make self-compacting concrete. Green concrete concept, the use of kaolin, and marble dust waste, can be a solution to replace some cement. This innovation research uses XRF or X-ray fluorescence methods to identify and analyze the constituent elements of self-compacting concrete innovations. In this study, self-compacting concrete was obtained using (marble dust waste) which replaced 15% cement, and kaolin which replaced 10% concrete waste. with the main element calcium oxide (CaO) and containing (SiO) can be used as an additive or partial replacement of cement in the manufacture of concrete and kaolin can be obtained from kaolin mines spread across Indonesia, and waste marble dust can be obtained from marble processing, for information 25% of the mass of marble will be lost in the cutting process obtained from marble companies in Solo Raya, the slump flow test measurement is carried out with reference to according to the rules of SNI 1972-2008 and the workability of self-compacting concrete also meets the required requirements. So it can be concluded that it can be a reference source by utilizing waste in Indonesia, easy to obtain, and effective.   Keywords: Self-compacting concrete, waste marble dust, kaolin
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环保高早强自密实混凝土采用高岭土和废大理石粉尘
印尼目前基础设施的增长和发展非常迅速,水泥生产过程产生的二氧化碳量仅次于废物,在当前的全球变暖中起着重要作用。自密实混凝土是建筑领域最大的创新之一,自密实混凝土是建筑领域最大的创新之一,这种混凝土具有很高的和易性,但也不忽视抗压强度。因此,需要新的、可持续的材料来取代水泥生产,但也需要它们具有制造自密实混凝土所需的可加工性。绿色混凝土的概念,利用高岭土,和大理石粉尘废料,可以代替一些水泥的解决方案。本创新研究使用XRF或x射线荧光方法来识别和分析自密实混凝土创新的组成元素。在本研究中,用(大理石粉尘废料)代替15%的水泥,用高岭土代替10%的混凝土废料制成自密实混凝土。以氧化钙(CaO)为主要元素,含氧化钙(SiO)可作为混凝土制造中的添加剂或部分替代水泥,高岭土可从遍布印度尼西亚的高岭土矿山中获得,废弃大理石粉尘可从大理石加工中获得,据资料显示,在索罗拉亚大理石公司获得的大理石切割过程中会损失25%的质量。参照SNI 1972-2008规程进行坍落度流动试验测量,自密实混凝土的和易性也满足要求。综上所述,它可以作为印尼废弃物的参考来源,容易获得,效果好。关键词:自密实混凝土,废大理石粉尘,高岭土
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PERENCANAAN STRUKTUR KANTOR PHICOS DENGAN SISTIM RANGKA BAJA PEMIKUL MOMEN KHUSUS DAMPAK PEMBANGUNAN ABDUL RASYID TOWER TERHADAP PERUBAHAN ARUS LALU LINTAS DI KABUPATEN KOTAWARINGIN BARAT ANALISIS PROSES PERENCANAAN DAN PENGANGGARAN BELANJA MODAL DPU KOTA SEMARANG TAHUN ANGGARAN 2019 OPTIMASI WAKTU DAN BIAYA PADA PROYEK BENDUNGAN SELESAI (STUDI KASUS PADA PROYEK PEMBANGUNAN BENDUNGAN BENDO TAHAP 2) INOVASI ECO-FRIENDLY SELF COMPACTING CONCRETE MENGGUNAKAN SERBUK CANGKANG TELUR, SERBUK GRANIT, DAN LIMBAH BETON UNTUK MENGURANGI LIMBAH DI INDONESIA
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