Pressure Vessels
Impact behavior of thick-walled composite-overwrapped pressure vessels
More information will follow soon.
(Weerts et al., 2020) (Weerts et al., 2021) (Weerts et al., 2021) (Weerts et al., 2022) (Weerts et al., 2022) (Weerts, 2021)
The impact behavior of thick-walled composite-overwrapped pressure vessels | |
Funding | BMW Forschungs- und Innovationszentrum |
Years | 2017-2021 |
PhD-candidate | Ruben Weerts |
Supervisors | Joris Remmers, Marc Geers, Olivier Cousigné (BMW) |
References
2022
- The influence of the internal pressure on the residual strength of composite-overwrapped pressure vessels subjected to external contact loadingComposite Structures, 2022
- Novel material model to predict the residual strength of a composite overwrapped pressure vessel after impactInternational Journal of Impact Engineering, 2022
2021
- The initiation and progression of damage in composite overwrapped pressure vessels subjected to contact loadsJournal of Reinforced Plastics and Composites, 2021
- A methodological approach to model composite overwrapped pressure vessels under impact conditionsComposite Structures, 2021
- The impact behavior of thick-walled composite-overwrapped pressure vesselsEindhoven University of Technology, 2021Joris J.C. Remmers (Promotor), Marc G.D. Geers, Olivier Cousigné
2020
- Assessment of contact-induced damage mechanisms in thick-walled composite cylindersJournal of Reinforced Plastics and Composites, 2020