自由聚合物链在聚二甲基硅氧烷弹性体与固体黏附中的作用

IF 5.2 1区化学 Q1 POLYMER SCIENCE

Macromolecules Pub Date : 2025-09-30 DOI:10.1021/acs.macromol.5c01996

Kurt R. VanDonselaar, , , Maryam Safaripour, , , David G. T. Boucher, , , Dean C. Webster, , and , Andrew B. Croll*,

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引用次数: 0

摘要

像藤壶和冰这样的污物会对基础设施造成许多问题，因为它们与未受保护的表面有很强的附着力。用于减少污染物粘附的最常见的缓解类型之一是简单地在表面涂上相对柔软的弹性体。通常通过在弹性体中加入“油”或非交联链来进一步降低附着力；然而，这些减少背后的物理原理尚不清楚。在这里，我们表明附着力降低可以发生在弹性体表面没有流体层形成。具体来说，我们使用Johnson-Kendall-Roberts （JKR）方法测量了注入四种不同聚合物链（聚二甲基硅氧烷、苯基甲基硅氧烷、随机二苯基硅氧烷-二甲基硅氧烷或随机苯基甲基硅氧烷-二甲基硅氧烷共聚物）的聚二甲基硅氧烷弹性体的附着力。附着力与弹性体模量相关，而弹性体模量本身受交联过程中自由链稀释剂的影响。考虑到模量的依赖性，我们发现含苯基的油导致最大程度的粘附性降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Role of Free Polymer Chains in the Adhesion of Polydimethylsiloxane Elastomers to Solids

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Role of Free Polymer Chains in the Adhesion of Polydimethylsiloxane Elastomers to Solids

Foulants like barnacles and ice cause many problems for infrastructure due to their strong adhesion to unprotected surfaces. One of the most common types of mitigation used to reduce foulant adhesion is simply coating a surface with a relatively soft elastomer. Further reductions in adhesion are often gained by the inclusion of “oils” or uncross-linked chains in the elastomer; however, the physics behind these reductions is not clear. Here, we show that adhesion reductions can occur without a fluid layer forming on the elastomer surface. Specifically, we use the Johnson–Kendall–Roberts (JKR) method to measure adhesion in polydimethylsiloxane elastomers infused with four different polymer chains (polydimethylsiloxane, phenylmethylsiloxane, random diphenylsiloxane-dimethylsiloxane, or random phenylmethylsiloxane-dimethylsiloxane copolymer). Adhesion is shown to correlate with elastomer modulus, which itself is influenced by the inclusion of free chain diluents during cross-linking. Accounting for the modulus dependence, we show that phenyl-containing oils lead to the greatest reduction in adhesion.

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来源期刊

Macromolecules 工程技术-高分子科学

CiteScore

9.30

自引率

16.40%

发文量

942

审稿时长

2 months

期刊介绍： Macromolecules publishes original, fundamental, and impactful research on all aspects of polymer science. Topics of interest include synthesis (e.g., controlled polymerizations, polymerization catalysis, post polymerization modification, new monomer structures and polymer architectures, and polymerization mechanisms/kinetics analysis); phase behavior, thermodynamics, dynamic, and ordering/disordering phenomena (e.g., self-assembly, gelation, crystallization, solution/melt/solid-state characteristics); structure and properties (e.g., mechanical and rheological properties, surface/interfacial characteristics, electronic and transport properties); new state of the art characterization (e.g., spectroscopy, scattering, microscopy, rheology), simulation (e.g., Monte Carlo, molecular dynamics, multi-scale/coarse-grained modeling), and theoretical methods. Renewable/sustainable polymers, polymer networks, responsive polymers, electro-, magneto- and opto-active macromolecules, inorganic polymers, charge-transporting polymers (ion-containing, semiconducting, and conducting), nanostructured polymers, and polymer composites are also of interest. Typical papers published in Macromolecules showcase important and innovative concepts, experimental methods/observations, and theoretical/computational approaches that demonstrate a fundamental advance in the understanding of polymers.