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• W3087335519 abstract "To achieve CO2 emissions reductions, the automotive industries are moving towards more sustainable solutions. One of those are fuel cell electric vehicles (FCEVs) which rely on the chemical reaction of hydrogen to produce electricity. The hydrogen is stored in a gaseous and compressed form in composite pressure vessels (CPVs) which must be subjected to numerous tests for the certification. The end-of-line (EOL) test is a pressurization up to 105 MPa, compulsory for each tank before in-service life. This test could be used to quality assure the component and to verify the state of the CPV. Knowledge regarding damage formation and progression during a CPV pressurization must be obtained for the purpose. The goal of the research is to study which damage mechanisms take place and how their characteristics change when analyzing different layups. This is done pressurizing vessels with different stacking sequences in a specially designed testing chamber. During the test, optic and acoustic data are recorded. The acoustic emissions of the CPVs are detected using 120 sound pressure sensors and processed using a delay-and-sum beamforming algorithm. The optic data are analyzed with digital image correlation (DIC). The results show that only one damage mechanism takes place in the investigated pressure range (5-105 MPa). This has been identified as interfiber-fracture (IFF), happening both in the hoops and helical layers. Computer tomography scans have been used to validate the results. It is discovered that the grouping and the positioning of the hoop and helical layers has a significant influence on the acoustic behavior of the vessel. All the specimens of a layup follow a specific acoustic pattern: they have similar characteristics that can be used to associate a specimen to an analyzed stacking sequence. It has been shown that DIC has limited suitability regarding IFF detection in the hoop layers. It can identify IFF only if the hoops are the outermost plies of the laminate. However, it seems promising to predict the formation of other damage mechanisms such as IFF in the superficial helicals and delaminations. The findings contribute to a deeper understanding of the damage mechanisms taking place during an EOL pressurization. They also clarify the influence of the stacking sequence on the damage characteristics." @default.
• W3087335519 created "2020-09-25" @default.
• W3087335519 creator A5041573706 @default.
• W3087335519 date "2020-01-01" @default.
• W3087335519 modified "2023-09-27" @default.
• W3087335519 title "Combined Acoustic and Optic Characterization of Damage Mechanisms in Internally Pressurized Composite Pressure Vessels" @default.
• W3087335519 hasPublicationYear "2020" @default.
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