A comparative study on failure pressure estimations of GFRP pressure vessels using Acoustic Emission technique

Recent Advances in Space Technology Services and Climate Change 2010 (RSTS & CC-2010) Pub Date : 2010-11-01 DOI:10.1109/RSTSCC.2010.5712807

R. Joselin, M. Enamuthu, K. Usha, E. Vasudev, T. Chelladurai

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引用次数: 2

Abstract

There is a need of design a reliable light weight composite pressure vessel for a launch vehicle or missile system. The composite pressure vessel acted upon by static internal pressure and dynamic during flight, but for practical structural integrity purposes, consideration of internal pressure is all that is necessary. This paper examines the performance of 6-litre capacity cylindrical Glass fiber reinforced plastic (GFRP) pressure vessel under cyclic loading cum burst tests using Acoustic Emission (AE) technique. AE data was acquired only up to 50% of the theoretical burst pressure. Based on the inferences a relation was developed to predict the burst performance of this class of bottles. In fact, one could infer that impending failure was significant even at 50 to 60% of maximum expected operating pressure (MEOP) with a reasonable error margin. Comparative studies were performed with identically machined GFRP pressure vessels which are also within the limit.

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基于声发射技术估算GFRP压力容器失效压力的对比研究

运载火箭或导弹系统需要设计一种可靠的轻质复合压力容器。复合材料压力容器在飞行过程中受到静态内压和动态内压的作用，但为了实际结构的完整性，考虑内压是必要的。本文利用声发射(AE)技术研究了容量为6升的圆柱形玻璃钢(GFRP)压力容器在循环加载和爆破试验中的性能。仅获得了理论爆破压力的50%的声发射数据。在此基础上，建立了预测该类瓶爆炸性能的关系式。事实上，即使在最大预期操作压力(MEOP)的50%到60%的范围内，也可以推断出即将发生的故障是显著的，误差是合理的。比较研究进行了相同的加工GFRP压力容器，也在限制范围内。

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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Recent Advances in Space Technology Services and Climate Change 2010 (RSTS & CC-2010)

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