DURABILITY BEHAVIOR OF BANANA FIBER-REINFORCED NATURAL POZZOLAN GEOPOLYMER

IF 0.7 4区艺术学 0 ARCHITECTURE

Journal of Green Building Pub Date : 2023-12-01 DOI:10.3992/jgb.18.4.149

K. Bariş, L. Tanaçan

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引用次数: 0

Abstract

This research investigates the durability of waste banana fiber (BF) reinforced Earth of Datça (ED)-based geopolymer (EDBG) mortar under consecutive cycles of freeze-thaw, wetting-drying, and sulfate attack tests. ED is the volcanic tuff of the Datça Peninsula in Türkiye and was utilized as an aluminosilicate source, while sodium silicate (SS) and potassium hydroxide (KOH) solutions were used for alkaline activation. BF with a 20-mm length was added to the geopolymer mortar in the contents of 0.5, 1.0, and 1.5%. Mortars were cured at 70°C and 95±5% RH for 24h, followed by ambient air curing at 20 °C and 55±5% RH for 28 days. In parallel with the increase in the fiber content added to the geopolymer (EDG) mortar, there was a slight decrease in compressive strengths but a significant increase in flexural strengths, as expected. This trend was also observed after all aging tests except after the sodium sulfate (Na2SO4) attack. With the 1.5% BF inclusion, the gain in compressive strength, flexural strength and weight was 27.31%, 12.79%, and 1.58% respectively, which might be due to the crystallization of the absorbed salts inside the structure. Among the aging tests, although freeze-thaw has the most deteriorating effect on both EDG and EDBG mortars, the utilization of fiber decreased the damage to the material, and the integrity of the material was maintained. The behavior of the material under the effect of wetting-drying can be defined as “0-specimen intact.” Therefore, it was proven that the use of banana fiber enhanced the durability of EDBG mortars under the aforementioned aging tests, and the building material produced within this experimental study can be used safely.

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香蕉纤维增强天然灰泥土工聚合物的耐久性能

研究了废香蕉纤维(BF)加筋土(EDBG)砂浆在冻融、干湿、硫酸盐侵蚀等连续循环试验下的耐久性。ED为 rkiye data半岛的火山凝灰岩，作为硅酸铝源，而硅酸钠(SS)和氢氧化钾(KOH)溶液用于碱性活化。在地聚合物砂浆中添加长度为20mm的BF，含量分别为0.5、1.0和1.5%。砂浆在70℃、95±5% RH条件下固化24h，然后在20℃、55±5% RH条件下环境空气固化28 d。随着添加到地聚合物(EDG)砂浆中的纤维含量的增加，正如预期的那样，抗压强度略有下降，但抗折强度显着增加。除硫酸钠(Na2SO4)攻击外，所有老化试验均观察到这一趋势。当添加1.5% BF时，抗压强度、抗折强度和重量分别提高27.31%、12.79%和1.58%，这可能是由于结构内部吸收盐的结晶所致。在老化试验中，虽然冻融对EDG和EDBG砂浆的恶化作用最大，但纤维的使用降低了材料的损伤，保持了材料的完整性。材料在干湿作用下的行为可以定义为“0试件完整”。因此，上述老化试验证明，香蕉纤维的使用提高了EDBG砂浆的耐久性，本试验研究生产的建筑材料可以安全使用。

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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来源期刊

Journal of Green Building ARCHITECTURE-

CiteScore

2.30

自引率

7.10%

发文量

期刊介绍： The purpose of the Journal of Green Building is to present the very best peer-reviewed research in green building design, construction, engineering, technological innovation, facilities management, building information modeling, and community and urban planning. The Research section of the Journal of Green Building publishes peer-reviewed articles in the fields of engineering, architecture, construction, construction management, building science, facilities management, landscape architecture, interior design, urban and community planning, and all disciplines related to the built environment. In addition, the Journal of Green Building offers the following sections: Industry Corner that offers applied articles of successfully completed sustainable buildings and landscapes; New Directions in Teaching and Research that offers guidance from teachers and researchers on incorporating innovative sustainable learning into the curriculum or the likely directions of future research; and Campus Sustainability that offers articles from programs dedicated to greening the university campus.