The object of this work is to present a study of nanocellulose preparation from organosolv straw pulp (OSP) and its properties. OSP was obtained through thermal treatment in the system of isobutyl alcohol–H~(2)O–KOH–hydrazine followed by processing in the mixture of acetic acid and hydrogen peroxide for bleaching and removal of residual non-cellulosic components. We have obtained nanocellulose from OSP through acid hydrolysis with lower consumption of sulfuric acid and followed by ultrasound treatment. The structural change and crystallinity degree of OSP and nanocellulose were studied by means of SEM and XRD techniques. It has been established that nanocellulose has a density up to 1.3?g/cm_(3), transparency up to 70%, crystallinity degree 72.5%. The TEM and AFM methods shown that nanocellulose have diameter of particles in the range from 10 to 40?nm. Thermogravimetric analysis confirmed that nanocellulose films have more dense structure and smaller mass loss in the temperature range 220–260?°C compared with OSP. The obtained nanocellulose films had high Young’s modulus up to 11.45?GPa and tensile strength up to 42.3?MPa. The properties of obtained nanocellulose from OSP exhibit great potential in its application for the preparation of new nanocomposite materials.
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机译:这项工作的目的是提出一种从有机溶剂草浆(OSP)制备纳米纤维素及其特性的研究。 OSP是通过在异丁醇-H〜(2)O-KOH-肼系统中进行热处理,然后在乙酸和过氧化氢的混合物中进行处理以漂白和去除残留的非纤维素成分而获得的。我们已通过酸水解和较低的硫酸消耗量从OSP获得纳米纤维素,然后进行超声处理。通过SEM和XRD技术研究了OSP和纳米纤维素的结构变化和结晶度。已经确定,纳米纤维素的密度高达1.3μg/ cm 3(3),透明度高达70%,结晶度为72.5%。 TEM和AFM方法表明,纳米纤维素的颗粒直径为10至40μm。热重分析证实,与OSP相比,纳米纤维素膜在220–260°C的温度范围内具有更致密的结构和更小的质量损失。所得的纳米纤维素膜的杨氏模量高达11.45μGPa,拉伸强度高达42.3μMPa。从OSP获得的纳米纤维素的特性在其用于制备新型纳米复合材料方面显示出巨大的潜力。
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