Multi scale systematisation of damage and failure modes of high-pressure hydrogen composite vessels in aviation, Part 1: Methodology
David Schlegel, Max Vater, S. Spitzer, Μaik Gude, Antonio Hurtado
Abstract
In the development of composite Compressed Gaseous Hydrogen (CGH 2 ) storage vessels the multitude of design, material and manufacturing parameters introduce uncertainties. In addition with complex interacting failure modes such as delamination, matrix and fibre failure high safety margins are needed. The aim of this paper is to enable the decrease of safety margins by developing a fundamental methodology to systematise superimposed loads and their propagation across length scales and load domains to enable the reliability assessment and development of CGH 2 vessels in aircraft with high reliability and maximum gravimetric storage density. Therefore, the objectives are to analyse existing development strategies, to derive requirements for a new development approach and to define its underlying logic and procedure. This results in a methodology to systematise potentially occurring load cases, corresponding stresses and resulting failure modes of CGH 2 vessels in aircraft along the length scales from the aircraft super-system to the material level. • Deficits in existing development strategies for the design of efficient CGH 2 vessel. • Requirements for CGH 2 vessel development with high gravimetric efficiency. • Cross length scale and load domain systematisation to improve gravimetric efficiency. • Novel approach for the reliability assessment in the development of CGH 2 vessels.