Effect of Alkaline 5% NaOH treatment with variations of immersion time on tensile strength and flexural strength of Betung bamboo internode

Journal of Integrated and Advanced Engineering (JIAE) Pub Date : 2022-09-16 DOI:10.51662/jiae.v2i2.43

Zulhanif Zulhanif, Firlli Abim Mahtata, M. Badaruddin

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Abstract

Betung bamboo has a bigger stem diameter, thicker walls, and shorter internodes than other species of bamboo, making it ideal for building materials such as bridges and interior furnishings that may also be turned into works of art. Alkaline NaOH treatment was introduced to Betung bamboo to increase its mechanical properties. The alkaline treatment used a solution consisting of 5 %NaOH. Specimens with alkaline treatment were immersed into 5%NaOH solution for one hour, two hours, and three hours, followed by two hours of drying in a furnace at 60 °C. Tensile tests (ASTM D638) and flexural tests (ASTM D790) were carried out using servo hydraulics MTS Landmark 100 kN under static loading. The tensile strength, modulus of rupture (MOR) and modulus of elasticity (MOE) were analyzed from the results tests. The average maximum tensile strength of the Betung bamboo internode immersed for two hours into 5%NaOH solution is about 195.95 MPa, whereas the average values of MOR and MOE are about 207.35 MPa and 4.56 GPa, respectively. The faults and surface conditions in the Betung bamboo internode were observed using fractographic and morphological observations.

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碱性5% NaOH处理随浸泡时间的变化对竹节间拉伸强度和弯曲强度的影响

与其他种类的竹子相比，青竹的茎直径更大，壁更厚，节间更短，这使得它成为建筑材料的理想选择，比如桥梁和室内家具，也可以变成艺术品。为提高竹材的力学性能，对竹材进行了碱性NaOH处理。碱性处理使用含有5% NaOH的溶液。经碱性处理的标本分别在5%NaOH溶液中浸泡1小时、2小时和3小时，然后在60℃的炉中干燥2小时。拉伸试验(ASTM D638)和弯曲试验(ASTM D790)在静态载荷下使用伺服液压MTS Landmark 100 kN进行。通过结果试验分析了材料的抗拉强度、断裂模量和弹性模量。竹节间在5%NaOH溶液中浸泡2 h后的最大抗拉强度平均约为195.95 MPa, MOR和MOE的平均值分别为207.35 MPa和4.56 GPa。采用断口学和形态学方法对竹节间的断裂和表面状况进行了观察。

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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Journal of Integrated and Advanced Engineering (JIAE)

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