陈季荷, 顾少华, 李文婷, 苑之童, 程海涛. NaOH碱处理浓度对毛竹篾及其环氧树脂复合材料性能影响[J]. 农业工程学报, 2022, 38(15): 234-240. DOI: 10.11975/j.issn.1002-6819.2022.15.025
    引用本文: 陈季荷, 顾少华, 李文婷, 苑之童, 程海涛. NaOH碱处理浓度对毛竹篾及其环氧树脂复合材料性能影响[J]. 农业工程学报, 2022, 38(15): 234-240. DOI: 10.11975/j.issn.1002-6819.2022.15.025
    Chen Jihe, Gu Shaohua, Li Wenting, Yuan Zhitong, Cheng Haitao. Effects of NaOH alkali treatment concentration on the properties of moso bamboo strips and their epoxy resin composites[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2022, 38(15): 234-240. DOI: 10.11975/j.issn.1002-6819.2022.15.025
    Citation: Chen Jihe, Gu Shaohua, Li Wenting, Yuan Zhitong, Cheng Haitao. Effects of NaOH alkali treatment concentration on the properties of moso bamboo strips and their epoxy resin composites[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE), 2022, 38(15): 234-240. DOI: 10.11975/j.issn.1002-6819.2022.15.025

    NaOH碱处理浓度对毛竹篾及其环氧树脂复合材料性能影响

    Effects of NaOH alkali treatment concentration on the properties of moso bamboo strips and their epoxy resin composites

    • 摘要: 为研究NaOH碱处理浓度对毛竹竹篾及其环氧树脂复合材料性能的影响,该研究采用热压成型制备竹篾平均质量分数为75%的复合材料,通过设置4种NaOH溶液浓度梯度,利用微观形貌观察(Scanning Electron Microscope)、热重分析(Thermogravimetric Analysis)、动态热机械分析(Dynamic Mechanical Analysis)等手段表征材料性能变化。结果表明NaOH碱处理去除了竹篾表面部分木质素、半纤维素及蜡质等杂质,使其极性发生变化,结晶度从60.0%提高至63.6%,拉伸强度和热稳定性增强;当NaOH溶液浓度为2%时,竹篾的拉伸强度提高了52.11%,其复合材料剪切强度提升了55.24%;同时,在30~90 ℃,NaOH碱处理的竹篾/环氧树脂复合材料(NaOH-BS/EP)在动态载荷作用下有更好的结构稳定性,2% NaOH溶液处理的复合材料储能模量最大值是未处理的1.3倍。NaOH碱处理可以增强竹篾的热稳定性、拉伸强度,改善与环氧树脂的界面强度,提高复合材料的静态及动态力学,可用于户外农业工程材料、建筑、户外园林等,既降低生产成本,同时提高竹篾的综合利用率。

       

      Abstract: Cost-effective bamboo strip composite materials have been developed with the low energy consumption, excellent product quality, and high utilization rate, due to the refinement, homogenization, and standardization of bamboo strip. However, there is the low interface compatibility between polar hydroxyl groups on the surface of bamboo strips and non-polar resin matrix. The purpose of this study is to fabricate the structural or sub structural bamboo strips composite materials. The alkali solution was used to treat the bamboo strips for the penetration of resin on the interface and the mechanical properties of composite materials. A systematic investigation was made to clarify the effect of NaOH alkali treatment concentration on the properties of bamboo strips and the epoxy resin composites. The bamboo strips were used as the reinforcement phase, whereas, the epoxy resin as matrix phase. The composites with an average content of 75% bamboo strips were then prepared by hot pressing. Four concentration gradients of NaOH solution were set in the treatment. The properties of bamboo strips and their epoxy resin composites were characterized by means of Fourier Transform Infrared Spectroscopy (FTIR), Scanning Electron Microscope (SEM), Thermogravimetric Analysis (TG), and Dynamic Mechanical Analysis (DMA). The experimental results showed that the alkali treatment efficiently removed some impurities, such as lignin, hemicellulose, and wax on the surface of bamboo strips, further to enhance the tensile strength and thermal stability of bamboo strips. SEM results show that the surface fiber morphology of bamboo strips tended to be regular after the proper alkali treatment. Specifically, the fine and smooth microstructure was conducive to the resin penetration. The polarity of bamboo strips first increased and then decreased with the increase of NaOH solution concentration. The crystallinity increased from 60.0% to 63.6% after treatment. The TG analysis demonstrated that there were the lower end degradation temperature of alkali treated bamboo strips, and the lower maximum decomposition rate, indicating the better performance of thermal decomposition. More importantly, the best properties were achieved at the concentration of NaOH solution of 2%, including the tensile property of bamboo strips, the interfacial bonding property with the epoxy resin, and the shear strength. Specifically, the tensile strength of bamboo strips, the shear strength of the composites increased by 52.11%, and 55.24%, respectively. The DMA test results showed that the bamboo strip/epoxy resin composites after the alkali treatment presented the better structural stability under dynamic load in the single frequency (1 Hz) test condition in the range of 30-90 ℃. Once the concentration was 2%, the maximum storage modulus of the bamboo strip/epoxy resin composite was 1.3 times that of the untreated. There was no outstanding difference of storage modulus before and after treatment in the range of 9-140 ℃. A downward trend was found in the loss modulus and loss factor of the composites after alkali treatment in the range of 60-140 ℃. Consequently, the alkali treatment can be expected to enhance the thermal stability and tensile strength of bamboo strips. The interface strength between bamboo strips and epoxy resin was improved, together with the static and dynamic mechanics of bamboo strips reinforced epoxy resin composite resin. The improved composites can also be used in the outdoor agricultural engineering, buildings, and outdoor gardens, in order to reduce the production cost and the comprehensive utilization rate of bamboo strips.

       

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