高分子材料在高压氢气环境中的适用性、局限性及改进综述

IF 11.1 2区化学 Q1 POLYMER SCIENCE

Polymer Reviews Pub Date : 2021-03-15 DOI:10.1080/15583724.2021.1897997

W. Balasooriya, Clara Clute, B. Schrittesser, G. Pinter

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引用次数: 30

摘要

通常，聚合物材料在恶劣的环境中会随着时间的推移而经历材料降解和损坏。提高对高压氢气暴露环境中可能出现的损伤模式的物理和化学过程的理解，将有助于选择和开发非常适合应用的材料，以满足氢气作为能量载体的未来能源需求。在高压氢气暴露条件下，弹性体和热塑性材料组件的快速气体减压(RGD)和老化造成的损坏是不可避免的。综述了高分子材料在实现“氢经济”的多材料途径中的应用。它涵盖了现有聚合物组分的局限性，目前对聚合物材料测试和表征的知识，以及最新的发展。在材料开发和测试程序方面提出了一些改进建议，以填补文献中现有知识的空白。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Review on Applicability, Limitations, and Improvements of Polymeric Materials in High-Pressure Hydrogen Gas Atmospheres

Abstract Typically, polymeric materials experience material degradation and damage over time in harsh environments. Improved understanding of the physical and chemical processes associated with possible damage modes intended in high-pressure hydrogen gas exposed atmospheres will help to select and develop materials well suited for applications fulfilling future energy demands in hydrogen as an energy carrier. In high-pressure hydrogen gas exposure conditions, damage from rapid gas decompression (RGD) and from aging in elastomeric as well as thermoplastic material components is unavoidable. This review discusses the applications of polymeric materials in a multi-material approach in the realization of the “Hydrogen economy”. It covers the limitations of existing polymeric components, the current knowledge on polymeric material testing and characterization, and the latest developments. Some improvements are suggested in terms of material development and testing procedures to fill in the gaps in existing knowledge in the literature.

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来源期刊

Polymer Reviews 工程技术-高分子科学

CiteScore

24.80

自引率

0.80%

发文量

审稿时长

6 months

期刊介绍： Polymer Reviews is a reputable publication that focuses on timely issues within the field of macromolecular science and engineering. The journal features high-quality reviews that have been specifically curated by experts in the field. Topics of particular importance include biomedical applications, organic electronics and photonics, nanostructures, micro- and nano-fabrication, biological molecules (such as DNA, proteins, and carbohydrates), polymers for renewable energy and environmental applications, and interdisciplinary intersections involving polymers. The articles in Polymer Reviews fall into two main categories. Some articles offer comprehensive and expansive overviews of a particular subject, while others zero in on the author's own research and situate it within the broader scientific landscape. In both types of articles, the aim is to provide readers with valuable insights and advancements in the field of macromolecular science and engineering.