Enhanced mechanical properties of acrylate and 5-vinyl-2-norbornene-based ethylene terpolymers: rational design and synthesis using remotely modulated phosphine–sulfonate palladium complexes†

IF 4.1 2区化学 Q2 POLYMER SCIENCE

Polymer Chemistry Pub Date : 2024-11-04 DOI:10.1039/d4py00722k

Yong-Qing Li , Gui-Ping Cao , Yu-Cai Cao

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Abstract

From a practical perspective, it is important to maintain or increase the mechanical properties of functional ethylene copolymers to those of nonpolar polyethylene (PE). In this contribution, we report the enhanced mechanical properties of acrylate- and 5-vinyl-2-norbornene (VNB)-based ethylene terpolymers. Originally, phosphine-sulfonate and with methyl and phenyl installed para to the sulfonic group were synthesized and characterized. Subsequently, long-chain (but more challenging) polar monomers in which the polar groups combined linearly with double bonds (butyl acrylate (BA) and ethylene glycol monomethyl ether acrylate (EGMA)) were chosen to obtain more flexible chain structures. Crosslinkable and cyclic VNB were used, targeting at rapid crosslinking and enhanced material properties. Ethylene copolymerization and terpolymerization could be efficiently achieved using this strategy, and polymers exhibited improved surface and similar or enhanced mechanical properties compared with those of PE. High activity (2.9 × 10⁷ g (mol h)⁻¹) and high molecular weight (3.8 × 10⁵) were simultaneously observed in ethylene homopolymerization. E-BA(0.64) and E-EGMA(0.87) had a strain-at-break as high as 1016% and 974%, respectively, and stress-at-break up to 45 MPa compared with those of ethylene homopolymer. VNB-based terpolymers E-BA(0.68)–VNB(0.94) and E-EGMA(0.73)–VNB(1) displayed better tensile elongations (723% and 714%) than those of ENB- and DCPD-based terpolymers. Furthermore, though similar thermoplastic properties to PE (strain recovery (SR) = 10%) were observed, enhanced mechanical properties of teropolymers were obtained after sulfur vulcanization, with SR = 19–23% and Δσ (stress differences) = 3.3–10.3 MPa.

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增强丙烯酸酯和 5-乙烯基-2-降冰片烯基乙烯三元共聚物的机械性能：利用遥控调制的膦-磺酸钯络合物进行合理设计和合成

从实用的角度来看，保持或提高功能性乙烯共聚物的机械性能，使其达到非极性聚乙烯（PE）的机械性能是非常重要的。在本文中，我们报告了基于丙烯酸酯和 5-乙烯基-2-降冰片烯（VNB）的乙烯三元共聚物的增强机械性能。最初，我们合成并鉴定了磺酸基对位安装有甲基和苯基的膦磺酸盐 Pd1 和 Pd2。随后，又选择了长链但更具挑战性的极性单体，其中的极性基团与双键直接结合（丙烯酸丁酯（BA）和丙烯酸乙二醇单甲醚酯（EGMA）），从而获得了更灵活的链结构。使用了可交联和环状 VNB，目的是快速交联和提高材料性能。与聚乙烯相比，乙烯共聚和三元共聚可以有效地实现，聚合物的表面性能得到改善，机械性能与聚乙烯相似或有所提高。在乙烯均聚过程中，同时观察到了 2.9×107 g/(mol-h) 的高活性和 3.8×105 的高分子量。与乙烯均聚物相比，E-BA（0.64）和 E-EGMA（0.87）的断裂应变高达 1016% 和 974%，断裂应力高达 45 兆帕。基于 VNB 的三元共聚物 E-BA(0.68)-VNB(0.94)和 E-EGMA(0.73)-VNB(1)比基于 ENB 和 DCPD 的三元共聚物显示出更好的拉伸伸长率（723% 和 714%）。此外，虽然观察到了与聚乙烯相似的热塑性特性（应变恢复，SR = 10 %），但硫硫化后三元共聚物的机械特性得到了增强，SR = 19 - 23 %，Δσ（应力差）= 3.3 - 10.3 MPa。

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来源期刊

Polymer Chemistry POLYMER SCIENCE-

CiteScore

8.60

自引率

8.70%

发文量

535

审稿时长

1.7 months

期刊介绍： Polymer Chemistry welcomes submissions in all areas of polymer science that have a strong focus on macromolecular chemistry. Manuscripts may cover a broad range of fields, yet no direct application focus is required.