聚乳酸复合材料的研究进展
综述
CHINA SYNTHETIC RESIN AND PLASTICS
合 成 树 脂 及 塑 料 , 2017,34(6): 88
聚乳酸(PLA)是一类常见的脂肪族聚酯,以丙交酯为原料,采用配位聚合法制备[1-5]。由于PLA主链中含有大量的酯基,赋予其较为优异的生物相容性和可生物降解性,其降解产物无生物毒性,且可通过新陈代谢排出生物体外,使其可以应用于生物组织工程、医疗器械[5-11]。另外,作为生物来源塑料,PLA用于包装材料降低了对石油资源的依赖,其优异的降解性能在很大程度上缓解了环境污染的压力[12-16],是一种应用前景广泛的材料;但由于其聚合物主链中存在酯基,导致其力学性能远不及聚烯烃。而且,PLA还具有较为明显的机械脆性,在很大程度上限制了其应用。将PLA与无机增强材料[17-18]、天然高分子材料[19-20]或合成高分子材料[21-22]共混,制备改性PLA复合材料是一种有效提高PLA力学性能的手段,国内
聚乳酸复合材料的研究进展
王惠娟1,杨丽娟2
(1.河北工业职业技术学院环境与化学工程系,河北省石家庄市 050091;2.华北电力大学科技学院,河北省保定市 071000)
摘要:综述了采用无机材料、天然高分子材料或合成高分子材料增强增韧聚乳酸(PLA)的研究进展,并研究了其制备、性能及应用等。无机材料的增强增韧效果较好,但与PLA的相容性较差,易团聚;高分子材料与PLA具
有较好的相容性,但其改性效果稍逊于无机材料;同时添加高分子材料和无机材料,并辅以界面处理手段,可制备
性能优异的改性PLA。通过改变增强增韧材料的类型、用量,可以有效调节复合材料的性能,添加共混增容剂以及
利用多种增强增韧材料的协同效应可以进一步提高PLA的机械强度和韧性。
关键词:聚乳酸 增强 增韧 复合材料
中图分类号:TQ 317文献标识码: A 文章编号:1002-1396(2017)06-0088-05
Research progress of PLA composites
Wang Huijuan1, Yang Lijuan2
(1.Department of Environment and Chemical Engineering, Hebei College of Industry and Technology, Shijiazhuang 050091,China;
2. Science and Technology College, North China Electric Power University, Baoding 071000, China)
Abstract:This paper reviews the research progress of polylactic acid(PLA)composites reinforced and toughened by inorganic materials,natural and synthetic polymer materials respectively as well as the
preparation,properties and application of the composites. The inorganic materials perform excellently in
reinforcing and toughening,while they are difficult to be compatible with PLA and apt to be aggregated;
polymers show better compatibility with PLA than inorganic materials,while perform inferiorly in modification.
The PLA reinforced and toughened by inorganic materials and polymers together with interfacial treatment
provides promising properties. The controlled properties of the PLA composites are obtained by switching
different reinforcing and toughening materials as well as their proportion. Moreover,the mechanical strength
and toughness of the composites can be further enhanced via the synergistic effects of multiple reinforcing and
toughening materials or by adding the compatibilizer.
Keywords: polylactic acid; reinforcing; toughening; composite material
收稿日期:2017-06-07;修回日期:2017-09-05。
作者简介:王惠娟,女,1980年生,理学硕士,讲师,2005年
毕业于河北师范大学无机化学专业,研究方向为物理化
学。E-mail:whj800124@https://www.360docs.net/doc/bb4442411.html,。
万方数据