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Employment (4)

TU Dresden: Dresden, DE

(Boysen-TU Dresden-Research Training Group)
Employment
Source: Self-asserted source
David Schlegel

Technische Universität Dresden: N/A, DE

2022-10-01 to present | Academic Staff (Chair of Lightweight System Engineering and Multi-Material Design)
Employment
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FIS TU Dresden

Technische Universität Dresden: N/A, DE

2022-02-01 to present | Academic Staff (Boysen TUD Research Training Group)
Employment
Source: check_circle
FIS TU Dresden

Technische Universität Dresden: N/A, DE

2021-03-01 to present | Academic Staff (Institute of Lightweight Engineering and Polymer Technology)
Employment
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FIS TU Dresden

Works (7)

Multi scale systematisation of damage and failure modes of high-pressure hydrogen composite vessels in aviation, Part 2: Analysis

International Journal of Hydrogen Energy
2025-01 | Journal article
Contributors: David Schlegel; Max Vater; Sebastian Spitzer; Maik Gude; Antonio Hurtado
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Crossref
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Preferred source (of 2)‎

Multi scale systematisation of damage and failure modes of high-pressure hydrogen composite vessels in aviation, Part 1: Methodology

International Journal of Hydrogen Energy
2024-12 | Journal article
Contributors: David Schlegel; Max Vater; Sebastian Spitzer; Maik Gude; Antonio Hurtado
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Crossref
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Preferred source (of 2)‎

Multi-scale systematization of damage and failure modes of composite cryogenic hydrogen vessels according to the Fault Tree method

IOP Conference Series: Materials Science and Engineering
2024-07-05 | Journal article | Author
SOURCE-WORK-ID:

9b327d82-4fe8-4094-9439-6bd8867ab60c

WOSUID:

001329223100071

Contributors: David Schlegel; Antonio Hurtado; Maik Gude
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FIS TU Dresden

Aerodynamic high-pressure hydrogen CFRP vessels with increased storage energy density: method for the optimization of a manufacturable laminate

Proceedings of the 2023 International Conference on Composite Materials (ICCM23)
2023-08-03 | Conference paper | Author
SOURCE-WORK-ID:

c8cb425b-7976-44de-a8f4-6f5154a15e40

EID:

2-s2.0-85187544372

Contributors: David Schlegel; Florian Schmidt; Michael Birke; Sebastian Spitzer; Maik Gude
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FIS TU Dresden

Aerodynamic high-pressure hydrogen CFRP vessels with Increased storage energy density for green aviation

SAMPE EUROPE Conference and Exhibition 2022
2022 | Conference paper | Author
SOURCE-WORK-ID:

d94a2164-a590-4769-9722-9ad532f29188

Part of ISBN: 978-90-829101-7-9
Contributors: David Schlegel; Sebastian Spitzer; Michael Birke; Axel Lange; Maik Gude
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FIS TU Dresden

Improvement potential for CFRP pressure vessels to reach future required gravimetric storage densities

Proceedings of the 20th European Conference on Composite Materials
2022-12-12 | Conference paper | Author
SOURCE-WORK-ID:

fbd4dac5-8aa7-422f-bbd1-9db1c94f1fff

EID:

2-s2.0-85149288776

Part of ISBN: 978-2-9701614-0-0
Contributors: Sebastian Spitzer; David Schlegel; Linus Tönnishoff; Shiwoo Lee; Sang-Eui Lee; Maik Gude
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FIS TU Dresden

Safety-relevant composite structures for future resource saving jet engines

SAMPE EUROPE Conference and Exhibition 2022
2022-11-28 | Conference paper | Author
SOURCE-WORK-ID:

8e7c29e2-a445-4659-b255-29f39d8f2b95

Part of ISBN: 978-90-829101-7-9
Contributors: Alrik Dargel; David Schlegel; Jakob Violet; Mathias Röth; Maik Gude
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FIS TU Dresden

Peer review (1 review for 1 publication/grant)

Review activity for Applied energy (1)