Effect of alkali-silica treatments of miscanthus fibres on chemical and micro-morphological modifications

Fabrice Ntimugura , Kyra Wilson , Raffaele Vinai , Pete Walker
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Abstract

Chemical treatments can remove waxes and sugar components from the surface of bio-fibres, increasing their compatibility with mineral binders. This paper investigates the effects of alkali solutions treatments on miscanthus shives. For 8, 24, and 48 h, fibres were immersed in NaOH solutions at 1.5, 2.5, and 5.0% concentrations, with and without a 2.5% sodium silicate solution, having a silica modulus (SiO2/Na2O) of 2.0. SEM and Fourier Transform Infrared Spectroscopy (ATR-FTIR) were used to investigate the effect of different treatments on the microstructure and surface chemistry of miscanthus. The SEM results show that the morphologies of miscanthus fibres were significantly altered in the case of 5.0% NaOH treatment, with a weakening of the inner cell structures in some locations. Furthermore, the ATR-FTIR patterns of raw and treated shives were analysed, suggesting that treating miscanthus with 2.5% NaOH and 2.5% sodium silicate results in the required chemical modifications while retaining the cellular structure of miscanthus fibres. For all treatments, the absorbance was reduced by 31 to 77% at 450 cm−1 and 48–80% at 1035 cm−1.

Abstract Image

碱-硅处理对芒草纤维化学和微形态变化的影响
化学处理可以去除生物纤维表面的蜡和糖成分,增加它们与矿物粘合剂的兼容性。本文研究了碱溶液处理对芒草的影响。在8、24和48小时内,将纤维浸入浓度分别为1.5%、2.5%和5.0%的NaOH溶液中,加入和不加入二氧化硅模量(SiO2/Na2O)为2.0的2.5%硅酸钠溶液。利用扫描电镜(SEM)和傅立叶变换红外光谱(ATR-FTIR)研究了不同处理对芒属植物显微结构和表面化学的影响。SEM结果表明,在5.0%NaOH处理的情况下,芒草纤维的形态发生了显著变化,在某些位置的内部细胞结构减弱。此外,还分析了生的和处理过的水芹的ATR-FTIR模式,表明用2.5%的NaOH和2.5%的硅酸钠处理芒草会产生所需的化学修饰,同时保留芒草纤维的细胞结构。对于所有处理,在450 cm−1时吸光度降低31%至77%,在1035 cm−1处吸光度降低48%至80%。
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CiteScore
9.20
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