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In situ characterization methodology...

Nebe, Martin.

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In situ characterization methodology for the design and analysis of composite pressure vessels

Record Type:	Electronic resources : Monograph/item
Title/Author:	In situ characterization methodology for the design and analysis of composite pressure vessels/ by Martin Nebe.
Author:	Nebe, Martin.
Published:	Wiesbaden :Springer Fachmedien Wiesbaden : : 2022.,
Description:	xxxiv, 179 p. :ill., digital ;24 cm.
Notes:	"Publication as doctoral thesis in the Faculty of Mechanical Engineering of TU Dortmund University"--T.p. verso.
[NT 15003449]:	Motivation and scope -- Literature review -- Material and methods -- In situ characterization methodology -- FE modeling and correlation -- Influence of stacking sequence -- Application on fullscale geometry -- Design considerations to composite pressure vessels -- References.
Contained By:	Springer Nature eBook
Subject:	Pressure vessels. -
Online resource:	https://doi.org/10.1007/978-3-658-35797-9
ISBN:	9783658357979

In situ characterization methodology for the design and analysis of composite pressure vessels
Nebe, Martin.

In situ characterization methodology for the design and analysis of composite pressure vessels[electronic resource] /by Martin Nebe. - Wiesbaden :Springer Fachmedien Wiesbaden :2022. - xxxiv, 179 p. :ill., digital ;24 cm. - Werkstofftechnische Berichte = Reports of materials science and engineering. - Werkstofftechnische Berichte..

"Publication as doctoral thesis in the Faculty of Mechanical Engineering of TU Dortmund University"--T.p. verso.

Motivation and scope -- Literature review -- Material and methods -- In situ characterization methodology -- FE modeling and correlation -- Influence of stacking sequence -- Application on fullscale geometry -- Design considerations to composite pressure vessels -- References.

With his work, Martin Nebe provides principal insights into the mechanical response of composite pressure vessels subjected to internal pressure. By establishing and validating an in situ characterization methodology, the vessel's geometry, its deformation behavior and the damage evolution process under internal pressure loading become accessible. This not only permits to trace back certain phenomena related to the manufacturing of these components but also allows to verify analytical and numerical modeling strategies. The exercised correlation of predicted and experimental results delivers detailed insights into design considerations to composite pressure vessels such as the definition of stacking sequence. The transfer of knowledge to a fullscale vessel geometry, which is representative for the use in fuel cell electric vehicles underlines the industrial application of this work. By combining numerical modeling, filament winding and experimental characterization, this work provides a sound foundation for future developments in the area of composite pressure vessels used for hydrogen storage. About the author Martin Nebe worked as Ph.D. candidate at the Fuel Cell Department of an automotive company. In cooperation with the Department of Materials Test Engineering (WPT) at the TU Dortmund University, he completed his Ph.D. about the characterization, the analysis and the design of composite pressure vessels used for hydrogen storage.

ISBN: 9783658357979

Standard No.: 10.1007/978-3-658-35797-9doiSubjects--Topical Terms:

3592797
Pressure vessels.

LC Class. No.: TS283 / .N43 2022

Dewey Class. No.: 681.76041

In situ characterization methodology for the design and analysis of composite pressure vessels
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520 $a With his work, Martin Nebe provides principal insights into the mechanical response of composite pressure vessels subjected to internal pressure. By establishing and validating an in situ characterization methodology, the vessel's geometry, its deformation behavior and the damage evolution process under internal pressure loading become accessible. This not only permits to trace back certain phenomena related to the manufacturing of these components but also allows to verify analytical and numerical modeling strategies. The exercised correlation of predicted and experimental results delivers detailed insights into design considerations to composite pressure vessels such as the definition of stacking sequence. The transfer of knowledge to a fullscale vessel geometry, which is representative for the use in fuel cell electric vehicles underlines the industrial application of this work. By combining numerical modeling, filament winding and experimental characterization, this work provides a sound foundation for future developments in the area of composite pressure vessels used for hydrogen storage. About the author Martin Nebe worked as Ph.D. candidate at the Fuel Cell Department of an automotive company. In cooperation with the Department of Materials Test Engineering (WPT) at the TU Dortmund University, he completed his Ph.D. about the characterization, the analysis and the design of composite pressure vessels used for hydrogen storage.
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