Relationship between internal pressure strength of flexible metal tubes and bellows shapes

IF 0.4 Q4 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
K. Fujimoto, Hiroyuki Fujiki, M. Daimaruya, H. Yamada
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引用次数: 0

Abstract

BACKGROUND: This study is concerned with the development of the hydrogen gas dispenser used in hydrogen stations for fuel cell vehicles (FCV). Most of the current flexible hoses suppling the high-pressure hydrogen gas to FCV are made of rubber and resin-based materials. They are required to have the characteristics of resistance to permeation of the gas and to inhibit the internal fractures known as blisters. If the materials can be replaced with metal materials, those difficulties may be resolved. OBJECTIVE: The relationship between the internal pressure strength of flexible metal tubes and their convolution shapes is investigated by experiments and computer-aided engineering (CAE) analyses. METHODS: Two kinds of stainless steels with high Ni equivalent are used for flexible tubing. The U-shaped bellows and the compressed bellows made by compressing them in the axial direction are fabricated, and then CAE analyses of their internal pressure strength are performed Internal pressure rupture tests are also carried out on both bellows. RESULTS: The internal pressure strength of the compressed bellows with a pitch of 1.6 mm was more than twice that of the U-shaped bellows with a pitch of 4.3 mm. CONCLUSION: It was found that the smaller the pitch of the bellows, the larger the internal pressure strength.
柔性金属管内压强度与波纹管形状的关系
背景:本研究涉及用于燃料电池汽车(FCV)加氢站的氢气分配器的开发。目前向FCV供应高压氢气的柔性软管大多由橡胶和树脂基材料制成。它们需要具有抵抗气体渗透的特性,并抑制被称为水泡的内部裂缝。如果这些材料可以用金属材料代替,这些困难就可以解决。目的:通过实验和计算机辅助工程(CAE)分析,研究了柔性金属管的内压强度与其卷曲形状之间的关系。方法:采用两种镍当量较高的不锈钢材料制作柔性卡套管。制作了U形波纹管和轴向压缩的压缩波纹管,并对其内压强度进行了CAE分析。结果:节距为1.6mm的压缩波纹管的内压强度是节距为4.3mm的U形波纹管的两倍多。结论:波纹管节距越小,内压强度越大。
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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来源期刊
Strength Fracture and Complexity
Strength Fracture and Complexity MATERIALS SCIENCE, CHARACTERIZATION & TESTING-
CiteScore
1.30
自引率
0.00%
发文量
15
期刊介绍: Strength, Fracture and Complexity: An International Journal is devoted to solve the strength and fracture unifiedly in non linear and systematised manner as complexity system. An attempt is welcome to challenge to get the clue to a new paradigm or to studies by fusing nano, meso microstructural, continuum and large scaling approach. The concept, theoretical and/or experimental, respectively are/is welcome. On the other hand the presentation of the knowledge-based data for the aims is welcome, being useful for the knowledge-based accumulation. Also, deformation and fracture in geophysics and geotechnology may be another one of interesting subjects, for instance, in relation to earthquake science and engineering.
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