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JURNAL ILMIAH BERING'S Pub Date : 2021-03-08 DOI:10.36050/berings.v8i01.347

Heri Wijaya, Vike Itteridi, Tarmizi

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引用次数: 1

摘要

本研究讨论了泥灰石作为地聚合物砂浆的组成部分的使用，旨在确定Na₂SiO3: NaOH比对泥灰石地聚合物砂浆抗压强度的影响。在其制造过程中，地聚合物砂浆采用高SiO2(二氧化硅)含量的天然矿物为前驱体，并使用NaOH(氢氧化钠)和Na2SiO3(硅酸钠)等活化剂作为粘结剂，这些材料中所含的二氧化硅氧化物会发生化学反应，形成聚合物键。本研究的方法采用实验方法，即在实验室程序中进行直接测试，这些程序按照阶段进行，并计划参考适用标准。本研究中使用的Na₂SiOi: NaOH活化剂比例分别为1,1.5和2。根据地聚合物抗压强度试验结果，在组成比为Na2SiO3: NaOH, 1:1时，抗压强度最大为28天，为15,07 Mpa。分析结果表明，Na2SiO3用量越多，对沥青地聚合物石抗压强度的影响越小。因此，由石头制成的地聚合物砂浆包含在一种简单的砂浆中，这种砂浆用于非结构部件

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PENGARUH RASIO Na2SiO3 : NaOH TERHADAP KUAT TEKAN MORTAR GEOPOLIMER BATU NAPAL

This study discusses the use of marl stone as a constituent of geopolymer mortar which aims to determine the effect of the Na₂SiO3 : NaOH ratio to the compressive strength of a marl stone geopolymer mortar. In its manufacture, geopolymer mortar utilizes natural minerals with high SiO2 (silica oxide) content as precursors and uses activators as binders such as NaOH (sodium hydroxide) and Na2SiO3 (sodium silicate), silica oxides contained in these materials will react chemically and form polymer bonds. The method in this study uses an experimental method that is doing direct testing in the laboratory procedures that are carried out in accordance with the stages and planned to refer to the applicable standards. The Na₂SiOi: NaOH activator ratio used in this study is 1, 1.5, and 2. Based on the geopolymer compressive strength test results that have a maximum compressive strength at 28 days with a composition ratio of Na2SiO3: NaOH, 1: 1 for 15 , 07 Mpa. From the results of the analysis it can be concluded that the more use of Na2SiO3, the effect on compressive strength of napal geopolymer stones will decrease. So geopolymer mortar made from stone is included in a simple mortar that is mortar for non-structural parts

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JURNAL ILMIAH BERING'S

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