聚己二酸丁烯-对苯二甲酸酯的形状记忆性能

Laiming Yu, Yaqin Fu, Yubing Dong
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引用次数: 1

摘要

目的研究影响聚己二酸丁二酯形状记忆性能的热力学条件。PBAT是一种研究广泛、发展迅速的生物可降解共聚聚酯。在拉伸试验中,我们发现PBAT断裂样品具有热驱动的形状记忆效应,这引起了我们的兴趣,这将为PBAT在新领域(如热收缩膜)的应用奠定基础。设计/方法/方法采用热力学分析仪和拉伸试验机,系统研究了PBAT的形状记忆效应和热力学条件对其形状记忆性能的影响。结果表明,PBAT薄膜具有较宽的形状记忆转变温度,具有优异的热稳定性和形状记忆性能。PBAT薄膜的形状记忆固定比(Rf)随着预应变温度和预应变的升高而升高,最高Rf超过90%。PBAT薄膜的形状记忆恢复比(Rr)随形状记忆恢复温度的升高而升高,随预应变值的升高而降低,最高时接近100%。PBAT薄膜具有较高的形状记忆恢复应力,随预应变值的增大而增大,随预应变温度的升高而减小,最高形状记忆恢复应力可达7.73 MPa。结果表明,PBAT具有较宽的形状记忆转换温度,表现出优异的热稳定性和形状记忆性能,特别是对高温下编程的样品具有较大的预应力,这将为PBAT基热收缩膜和智能材料的设计、加工和应用提供参考。本研究证实并系统地研究了PBAT的形状记忆效应,以及热力学条件对PBAT形状记忆性能的影响。
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Shape memory property of polybutylene adipate-co-terephthalate
Purpose The purpose of this study is to investigate the thermomechanical condition on the shape memory property of Polybutylene adipate-co-terephthalate (PBAT). PBAT is a widely researched and rapidly developed biodegradable copolyester. In a tensile test, we found that the fractured PBAT samples had a heat-driven shape memory effect which piqued our interest, and it will lay a foundation for the application of PBAT in new fields (such as heat shrinkable film). Design/methodology/approach The shape memory effect of PBAT and the effect of the thermomechanical condition on its shape memory property were confirmed and systematically investigated by a thermal mechanical analyzer and tensile machine. Findings The results showed that the PBAT film had broad shape memory transform temperature and exhibited excellent thermomechanical stability and shape memory properties. The shape memory fixity ratio (Rf) of the PBAT films was increased with the prestrain temperature and prestrain, where the highest Rf exceeded 90%. The shape memory recovery ratio (Rr) of the PBAT films was increased with the shape memory recovery temperature and decreased with the prestrain value, and the highest Rr was almost 100%. Moreover, the PBAT films had high shape memory recovery stress which increased with the prestrain value and decreased with the prestrain temperature, and the highest shape memory recovery stress can reach 7.73 MPa. Research limitations/implications The results showed that PBAT had a broad shape memory transform temperature, exhibited excellent thermomechanical stability and shape memory performance, especially for the sample programmed at high temperature and had a larger prestrian, which will provide a reference for the design, processing and application of PBAT-based heat shrinkable film and smart materials. Originality/value This study confirmed and systematically investigated the shape memory effect of PBAT and the effect of the thermomechanical condition on the shape memory property of PBAT.
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