Parametric Structure Analysis of Workbench ACP for High Pressure Large Volume Fully Wound Gas Cylinders
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摘要: 运用ANSYS软件对高压大容积全缠绕气瓶进行Workbench ACP参数化结构分析,实现了碳纤维复合材料铺层的层数据参数化可调单一材质气瓶内胆模型与碳纤维复合材料铺层模型联合分析,并通过模拟分析结果的反馈情况,便捷地调整铺层参数,优化高压大容积全缠绕气瓶的设计。该Workbench ACP参数化结构分析研究,将大量工程缠绕试验以模拟分析的方式完成,有效缩短了产品设计周期和成本投入,为该类型气瓶的可靠性设计提供参考。
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关键词:
- Workbench ACP /
- 参数化建模 /
- 碳纤维 /
- 缠绕气瓶
Abstract: ANSYS software is used to analyze and study the parametric structure of Workbench ACP for high-pressure fully wound gas cylinders. The layer data of carbon fiber composite layer is parameterized and adjustable, and the combined analysis of the single material gas cylinder liner and carbon fiber composite layer models is realized. According to the feedback of simulation analysis results, the layering parameters are adjusted and the design of high pressure large volume fully wound cylinders is updated and optimized. The Workbench ACP parametric structure analysis research completes a large number of engineering winding tests in the way of simulation analysis, and the optimized design can effectively shortens the product design cycle and cost investment. The research provides a certain reference value for the reliability design of this type of gas cylinder.-
Key words:
- Workbench ACP /
- parametric modeling /
- carbon fiber /
- winding bottle
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[1] 吴乔国, 陈学东, 范志超, 等. 碳纤维复合材料高压气瓶缠绕层设计与自紧分析[C]//压力容器先进技术—第九届全国压力容器学术会议论文集.合肥: 合肥工业大学, 2017: 588-593. [2] 陈汝训. 固体发动机复合材料壳体变形分析[J]. 固体火箭技术, 2006, 29(4): 266-268. [3] LIU P F, CHU J K, HOU S J, et al. Numerical simulation and optimal design for composite high-pressure hydrogen storage vessel: a review[J]. Renewable and Sustainable Energy Reviews, 2012, 16(4): 1817-1827. -
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