基于固态混合的多形状记忆聚合物材料制备策略

IF 5.1 Q1 POLYMER SCIENCE

ACS Macro Letters Pub Date : 2025-01-12 DOI:10.1021/acsmacrolett.4c00601

Salim-Ramy Merouani, Roman Kulagin, Vladislav Bondarenko, Ramin Hosseinnezhad, Fahmi Zaïri, Iurii Vozniak

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引用次数: 0

摘要

传统上，多重形状记忆聚合物（multiple- smps）是通过形成具有高相连续性（共连续或多层相形态）的非混相共混物或在纳米尺度上表现出成分非均质性的混相共混物来创建的。在此，提出了一种制造多个smp的新策略。它包括不混相聚合物在高压和剪切变形条件下在固体状态下均匀混合的可能性。以这种方式形成的共混物在纳米尺度下表现出均匀性，最高可达40-95纳米。从非混相到混相共混物的转变不仅改善了形状记忆，而且改善了所形成的共混物的机械性能。选择聚丙烯（PP）和聚苯乙烯（PS）作为不混相聚合物对。固相混合的方法是高压扭转（HPT）。结果表明，hpt处理的50% PP/50% PS共混物能够表现出优异的三重形状记忆效应（形状固定为~ 94-95%，恢复为~ 85-95%），并具有广泛可调的（低和高）转变温度。

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Strategy for Fabricating Multiple-Shape Memory Polymeric Materials Based on Solid State Mixing

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Strategy for Fabricating Multiple-Shape Memory Polymeric Materials Based on Solid State Mixing

Traditionally, multiple shape memory polymers (multiple-SMPs) are created by forming either immiscible blends with high phase continuity (cocontinuous or multilayer phase morphology) or miscible blends that exhibit compositional heterogeneity at the nanoscale. Here, a new strategy for the fabrication of multiple-SMPs is proposed. It consists of the possibility of homogeneous mixing of immiscible polymers in the solid state under high pressure and shear deformation conditions. The blends formed in this way exhibit homogeneity of mixing down to the nanoscale, up to 40–95 nm. The transition from immiscible to miscible blends leads to an improvement not only in shape memory but also in the mechanical performance of the blends formed. Polypropylene (PP) and polystyrene (PS) were selected as pairs of immiscible polymers. The method of solid phase mixing is high pressure torsion (HPT). It was shown that the HPT-processed 50% PP/50% PS blend is able to exhibit an excellent triple shape memory effect (shape fixation of ∼94–95%, and recovery of ∼85–95%) with widely tunable (low and high) transition temperatures.

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来源期刊

ACS Macro Letters 化学-

CiteScore

10.40

自引率

3.40%

发文量

209

审稿时长

1 months

期刊介绍： ACS Macro Letters publishes research in all areas of contemporary soft matter science in which macromolecules play a key role, including nanotechnology, self-assembly, supramolecular chemistry, biomaterials, energy generation and storage, and renewable/sustainable materials. Submissions to ACS Macro Letters should justify clearly the rapid disclosure of the key elements of the study. The scope of the journal includes high-impact research of broad interest in all areas of polymer science and engineering, including cross-disciplinary research that interfaces with polymer science. With the launch of ACS Macro Letters, all Communications that were formerly published in Macromolecules and Biomacromolecules will be published as Letters in ACS Macro Letters.