Effect of stacking pattern of multilayered polyetheretherketone/boron nitride composites on the mechanical and thermal properties: Experiments and molecular dynamics simulations

IF 8.1 2区材料科学 Q1 ENGINEERING, MANUFACTURING

Composites Part A: Applied Science and Manufacturing Pub Date : 2024-08-31 DOI:10.1016/j.compositesa.2024.108441

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Abstract

The effect of stacking patterns in multilayered polyetheretherketone (PEEK)/boron nitride (BN) composites was investigated to improve the thermal conductivity and mechanical properties. The thick PEEK and BN layers in the multilayered composite were the best multilayer structure, resulting in high mechanical properties and in-plane thermal conductivity due to the many strong electrostatic interaction sites between boron nitride nanosheets (BNNSs). Molecular dynamics simulations were used to clarify the enhanced mechanism of multilayered structure on thermal conductivity. The multilayered structure with combinations of PEEKs and thick BN layers composed of large BNNSs led to the optimization of heat transfer due to the effective phonon transfer path. The best multilayered composite had the highest in-plane thermal conductivity, which was 471% higher than that of a PEEK. This study provides information about the filler size and stacking patterns for more effective multilayer structures with polymer and filler layers to achieve high performance on mechanical and thermal properties.

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多层聚醚醚酮/氮化硼复合材料的堆叠模式对机械和热性能的影响：实验与分子动力学模拟

研究了多层聚醚醚酮（PEEK）/氮化硼（BN）复合材料中堆叠模式对提高热导率和机械性能的影响。多层复合材料中的厚 PEEK 层和 BN 层是最佳的多层结构，由于氮化硼纳米片（BNNS）之间存在许多强静电相互作用位点，因此具有较高的机械性能和面内热导率。分子动力学模拟用于阐明多层结构对热导率的增强机制。由于有效的声子传递路径，由 PEEKs 和由大块 BNNSs 组成的厚 BN 层组合而成的多层结构优化了热传递。最好的多层复合材料具有最高的面内热导率，比 PEEK 高出 471%。这项研究提供了有关填料尺寸和堆叠模式的信息，从而更有效地利用聚合物和填料层形成多层结构，实现高性能的机械和热性能。

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来源期刊

Composites Part A: Applied Science and Manufacturing 工程技术-材料科学：复合

CiteScore

15.20

自引率

5.70%

发文量

492

审稿时长

30 days

期刊介绍： Composites Part A: Applied Science and Manufacturing is a comprehensive journal that publishes original research papers, review articles, case studies, short communications, and letters covering various aspects of composite materials science and technology. This includes fibrous and particulate reinforcements in polymeric, metallic, and ceramic matrices, as well as 'natural' composites like wood and biological materials. The journal addresses topics such as properties, design, and manufacture of reinforcing fibers and particles, novel architectures and concepts, multifunctional composites, advancements in fabrication and processing, manufacturing science, process modeling, experimental mechanics, microstructural characterization, interfaces, prediction and measurement of mechanical, physical, and chemical behavior, and performance in service. Additionally, articles on economic and commercial aspects, design, and case studies are welcomed. All submissions undergo rigorous peer review to ensure they contribute significantly and innovatively, maintaining high standards for content and presentation. The editorial team aims to expedite the review process for prompt publication.

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