Mechanical Behavior of Shape Memory FibersL Spun from Nanoclay-Tethered Polyurethanes

Seok Jin Hong; Woong-Ryeol Yu; Ji Ho Youk

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Mechanical Behavior of Shape Memory FibersL Spun from Nanoclay-Tethered Polyurethanes

机译：纳米黏结聚氨酯纺制的形状记忆纤维L的力学行为

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This study examined the effect of nanoclays on the shape memory behavior of polyurethane (PU) in fibrous form. A cation was introduced into the PU molecules to disperse the organo-nanoclay (MMT) into poly(ε-caprolactone) (PCL)-based PU (PCL-PU). The MMT/PCL-PU nanocomposites were then spun into fibers through melt-processing. The shape memory performance of the spun fibers was examined using a variety of thermo-mechanical tests including a new method to determine the transition temperature of shape memory polymers. The MMTs showed an improved the fixity strain rate of the MMT/PCL-PU fibers but a slight decrease in their recovery strain rate. This was explained by the limited movement of PU molecules due to the presence of nanoclays. The shape memory performance of the MMT/PCL-PU fibers was not enhanced significantly by the nanoclays. However, their recovery power was improved significantly up to a strain of approximately 50%.

机译：这项研究检查了纳米粘土对纤维状聚氨酯（PU）的形状记忆行为的影响。将阳离子引入PU分子中，以将有机纳米粘土（MMT）分散到基于聚（ε-己内酯）（PCL）的PU（PCL-PU）中。然后将MMT / PCL-PU纳米复合材料通过熔融加工纺成纤维。使用各种热机械测试来检查纺制纤维的形状记忆性能，包括确定形状记忆聚合物转变温度的新方法。 MMTs显示出MMT / PCL-PU纤维的固定应变率有所提高，但恢复应变率略有下降。由于存在纳米粘土，PU分子的运动受到限制，可以解释这一点。纳米粘土并未显着增强MMT / PCL-PU纤维的形状记忆性能。但是，它们的恢复能力显着提高，直至达到大约50％的应变。

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《Macromolecular Research》 |2008年第7期|共7页
作者
Seok Jin Hong; Woong-Ryeol Yu; Ji Ho Youk;
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正文语种 eng
中图分类高分子化学（高聚物）;
关键词
shape memory polymers; polyurethane; fibers; nanoclay;

机译：形状记忆聚合物;聚氨酯;纤维;纳米粘土;

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1. Mechanical Behavior of Shape Memory FibersL Spun from Nanoclay-Tethered Polyurethanes [J] . Seok Jin Hong, Woong-Ryeol Yu, Ji Ho Youk Macromolecular Research . 2008,第7期

机译：纳米黏结聚氨酯纺制的形状记忆纤维L的力学行为
2. Nanoclay-tethered shape memory polyurethane nanocomposites [J] . Feina Cao, Sadhan C.Jana Polymer: The International Journal for the Science and Technology of Polymers . 2007,第13期

机译：纳米黏结的形状记忆聚氨酯纳米复合材料
3. Melt-Spun Ribbons of Shape-Memory Ferromagnets: Structure, Magnetic and Thermomechanical Behavior and Prospects for Application in the Sensor and Actuator Technology [J] . F. Albertini, S. Besseghini, A. S. Bugaev, Journal of Communications Technology and Electronics . 2005,第6期

机译：形状记忆铁磁体的熔喷带：结构，磁和热机械行为以及在传感器和执行器技术中的应用前景
4. Mechanical Behavior of Nanostructured Melt Spun NiTi Shape Memory Alloy [C] . Dabin Wu, Wendy C. Crone, John Perepezko SEM Annual Conference and Exposition on Experimental and Applied Mechanics . 2002

机译：纳米结构熔化纺成型记忆合金的力学行为
5. Structure and Thermal-Mechanical Properties of Shape Memory Polyurethanes and Textiles. [D] . Yeung, Lap Yan. 2011

机译：形状记忆聚氨酯和纺织品的结构和热机械性能。
6. Thermomechanical data of polyurethane shape memory polymer: Considering varying compositions [O] . Hailey Fisher, Payton Woolard, Colton Ross, 2020

机译：聚氨酯形状记忆聚合物的热机械数据：考虑到不同的组合物
7. Thermo-mechanical behavior and structure of melt blown shape-memory polyurethane nonwovens [O] . David L. Safranski, Jennifer M. Boothby, Cambre N. Kelly, 2016

机译：熔喷形状记忆聚氨酯非织造叶的热机械行为和结构
8. Empirical Study of the Multiaxial, Thermomechanical Behavior of NiTiHf Shape Memory Alloys. [R] . Shukla, D., Noebe, R. D. 2013

机译：NiTiHf形状记忆合金多轴热机械行为的实验研究。

Mechanical Behavior of Shape Memory FibersL Spun from Nanoclay-Tethered Polyurethanes

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