Dynamic Aliphatic Polyester Elastomers Crosslinked with Aliphatic Dianhydrides

IF 4.7 Q1 POLYMER SCIENCE ACS polymers Au Pub Date : 2023-05-04 DOI:10.1021/acspolymersau.3c00004
Marianne S. Meyersohn, Farihah M. Haque and Marc A. Hillmyer*, 
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引用次数: 1

Abstract

Chemically crosslinked elastomers are a class of polymeric materials with properties that render them useful as adhesives, sealants, and in other engineering applications. Poly(γ-methyl-ε-caprolactone) (PγMCL) is a hydrolytically degradable and compostable aliphatic polyester that can be biosourced and exhibits competitive mechanical properties to traditional elastomers when chemically crosslinked. A typical limitation of chemically crosslinked elastomers is that they cannot be reprocessed; however, the incorporation of dynamic covalent bonds can allow for bonds to reversibly break and reform under an external stimulus, usually heat. In this work, we study the dynamic behavior and mechanical properties of PγMCL elastomers synthesized from aliphatic dianhydride crosslinkers. The crosslinked elastomers in this work were synthesized using the commercially available crosslinkers, 1,2,4,5-cyclohexanetetracarboxylic dianhydride, and 1,2,3,4-cyclobutanetetracarboxylic dianhydride and three-arm hydroxy-telechelic PγMCL star polymers. Stress relaxation experiments on the crosslinked networks showed an Arrhenius dependence of viscosity with temperature with an activation energy of 118 ± 8 kJ/mol, which agrees well with the activation energy of transesterification exchange chemistry obtained from small molecule model studies. Dynamic mechanical thermal analysis and rheological experiments confirmed the dynamic nature of the networks and provided insight into the mechanism of exchange (i.e., associative or dissociative). Tensile testing showed that these materials can exhibit high strains at break and low Young’s moduli, characteristic of soft and strong elastomers. By controlling the exchange chemistry and understanding the effect of macromolecular structure on mechanical properties, we prepared the high-performance elastomers that can be potentially reprocessed at moderately elevated temperatures.

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动态脂肪族聚酯弹性体与脂肪族二酐交联。
化学交联弹性体是一类聚合物材料,其性能使其可用作粘合剂、密封剂和其他工程应用。聚(γ-甲基-ε-己内酯)(PγMCL)是一种可水解降解和可堆肥的脂肪族聚酯,可作为生物来源,在化学交联时表现出与传统弹性体有竞争力的机械性能。化学交联弹性体的一个典型限制是它们不能再加工;然而,动态共价键的结合可以使键在外部刺激(通常是热)下可逆地断裂和重组。在本工作中,我们研究了由脂肪族二酐交联剂合成的PγMCL弹性体的动力学行为和力学性能。本工作中的交联弹性体是使用市售交联剂1,2,4,5-环己烷四羧酸二酐、1,2,3,4-环丁烷四羧酸二酸酐和三臂羟基遥爪PγMCL星形聚合物合成的。交联网络的应力松弛实验显示粘度随温度的阿伦尼斯依赖性,活化能为118±8kJ/mol,这与小分子模型研究获得的酯交换化学的活化能非常一致。动态机械热分析和流变实验证实了网络的动态性质,并深入了解了交换机制(即缔合或离解)。拉伸测试表明,这些材料可以表现出高断裂应变和低杨氏模量,这是软弹性体和强弹性体的特征。通过控制交换化学并了解大分子结构对机械性能的影响,我们制备了高性能弹性体,这些弹性体可以在适度升高的温度下进行再加工。
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