热塑性淀粉力学性能的提升途径及作用机理
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摘要
以可再生资源(如淀粉、纤维素和蛋白质等)为基础发展而来的生物可降解塑料受到人们越来越多的关注,是可降解塑料行业发展的重要方向之一。天然淀粉由于来源广、低成本和可生物降解的特点,广泛用于制备淀粉塑料,并用于农业、食品、医药和包装等行业,有望取代石油基衍生聚合物。淀粉大分子具有结晶结构,所含大量羟基可形成较强的分子间和分子内氢键,使其不能热塑加工,而当加入增塑剂后可破坏其结晶结构,从而用于制备热塑性淀粉。目前,热塑性淀粉的力学性能差,是影响其使用性能的首要问题。近年来国内外开展了大量的研究以试图增强其力学性能。本文主要以不同类型的热塑性淀粉为基础,以淀粉自身改性和外加组分改性两种提高其力学性能的途径为主线,以其力学性能的提升方法和作用机理为重点,系统总结了近年来国内外以提高热塑性淀粉材料的力学性能为目的的研究工作,归纳了影响力学性能的相关因素以及提升途径,并对该领域重点研究的内容进行了总结和展望。
Great attention has been paid to the biodegradable plastics based on renewable resources(such as starch, cellulose and protein), which is one of the important trends in the development of the degradable plastics industry. Due to its wide source, low cost and biodegradability, natural starch is widely used in the preparation of starch plastics and is used in agriculture, food, medicine and packaging industries, which is expected to replace petroleum-based derived polymers. Starch molecules contain a large amount of hydroxyl groups, which easily form intermolecular hydrogen bonds and intermolecular hydrogen bonds, so as to affect their processing. Adding plasticizer to destroy the crystalline structure of starch can produce thermoplastic starch, but the poor mechanical properties of thermoplastic starch are the primary problem affecting its performance. In recent years, extensive research has been carried out at home and abroad in an attempt to enhance its mechanical properties. In this paper, based on the different classification of thermoplastic starch materials, and with the emphasis on the way to improve the mechanical properties and the mechanism, the research work in recent years to improve the mechanical properties of thermoplastic starch materials is summarized. In addition, the related factors affecting mechanical properties and the ways to improve are introduced, and the key research in this field is also summarized and prospected.
Great attention has been paid to the biodegradable plastics based on renewable resources(such as starch, cellulose and protein), which is one of the important trends in the development of the degradable plastics industry. Due to its wide source, low cost and biodegradability, natural starch is widely used in the preparation of starch plastics and is used in agriculture, food, medicine and packaging industries, which is expected to replace petroleum-based derived polymers. Starch molecules contain a large amount of hydroxyl groups, which easily form intermolecular hydrogen bonds and intermolecular hydrogen bonds, so as to affect their processing. Adding plasticizer to destroy the crystalline structure of starch can produce thermoplastic starch, but the poor mechanical properties of thermoplastic starch are the primary problem affecting its performance. In recent years, extensive research has been carried out at home and abroad in an attempt to enhance its mechanical properties. In this paper, based on the different classification of thermoplastic starch materials, and with the emphasis on the way to improve the mechanical properties and the mechanism, the research work in recent years to improve the mechanical properties of thermoplastic starch materials is summarized. In addition, the related factors affecting mechanical properties and the ways to improve are introduced, and the key research in this field is also summarized and prospected.
引文
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