Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method

L. Yang; J. X. Nie; Q. J. Jiao; J. Li; M. Ren

doi:10.1109/EML.2014.6920204

Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method

L. Yang^*, J. X. Nie, Q. J. Jiao, J. Li, M. Ren

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Distributed energy storage (DES) electromagnetic launcher (EML) is proved to have better efficiency in comparison with a breech-fed one since it can reduce electric and magnetic loses and avoid the secondary arc in hypervelocity electromagnetic launch. In this paper, we proposed the rail's dynamic governing equations of the DES system. A finite element code was also used to help us model the launching progress of a simplified DES EML system. The transient dynamics of both the rail and the armature were explored based on the Bernoulli-Euler beam model. Comparisons of the contact force and the contact area influenced by the armature velocity were conducted between the DES EML and the breech-fed one. We illustrated the dynamic response of the rail of the DES system under discontinuous electromagnetic force in details. The relationships between the critical velocities of the armatures and the elastic wave propagations along the rails were also explored in these two EML systems. With the finite element method, the advantages of the DES EML are more clearly presented.

Original language	English
Title of host publication	Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781479927333
DOIs	https://doi.org/10.1109/EML.2014.6920204
Publication status	Published - 10 Oct 2014
Externally published	Yes
Event	2014 17th International Symposium on Electromagnetic Launch Technology, EML 2014 - San Diego, United States Duration: 7 Jul 2014 → 11 Jul 2014

Publication series

Name	Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology

Conference

Conference	2014 17th International Symposium on Electromagnetic Launch Technology, EML 2014
Country/Territory	United States
City	San Diego
Period	7/07/14 → 11/07/14

Keywords

Distributed energy storage
EML
Finite element method
Rail vibration
Transient dynamic analysis

Access to Document

10.1109/EML.2014.6920204

Cite this

Yang, L., Nie, J. X., Jiao, Q. J., Li, J., & Ren, M. (2014). Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method. In Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology Article 6920204 (Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/EML.2014.6920204

Yang, L. ; Nie, J. X. ; Jiao, Q. J. et al. / Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method. Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology. Institute of Electrical and Electronics Engineers Inc., 2014. (Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology).

@inproceedings{43ac8c7832094a1bbce2ff6a95acc216,

title = "Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method",

abstract = "Distributed energy storage (DES) electromagnetic launcher (EML) is proved to have better efficiency in comparison with a breech-fed one since it can reduce electric and magnetic loses and avoid the secondary arc in hypervelocity electromagnetic launch. In this paper, we proposed the rail's dynamic governing equations of the DES system. A finite element code was also used to help us model the launching progress of a simplified DES EML system. The transient dynamics of both the rail and the armature were explored based on the Bernoulli-Euler beam model. Comparisons of the contact force and the contact area influenced by the armature velocity were conducted between the DES EML and the breech-fed one. We illustrated the dynamic response of the rail of the DES system under discontinuous electromagnetic force in details. The relationships between the critical velocities of the armatures and the elastic wave propagations along the rails were also explored in these two EML systems. With the finite element method, the advantages of the DES EML are more clearly presented.",

keywords = "Distributed energy storage, EML, Finite element method, Rail vibration, Transient dynamic analysis",

author = "L. Yang and Nie, {J. X.} and Jiao, {Q. J.} and J. Li and M. Ren",

note = "Publisher Copyright: {\textcopyright} 2014 IEEE.; 2014 17th International Symposium on Electromagnetic Launch Technology, EML 2014 ; Conference date: 07-07-2014 Through 11-07-2014",

year = "2014",

month = oct,

day = "10",

doi = "10.1109/EML.2014.6920204",

language = "English",

series = "Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology",

address = "United States",

}

Yang, L, Nie, JX, Jiao, QJ, Li, J & Ren, M 2014, Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method. in Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology., 6920204, Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology, Institute of Electrical and Electronics Engineers Inc., 2014 17th International Symposium on Electromagnetic Launch Technology, EML 2014, San Diego, United States, 7/07/14. https://doi.org/10.1109/EML.2014.6920204

Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method. / Yang, L.; Nie, J. X.; Jiao, Q. J. et al.
Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology. Institute of Electrical and Electronics Engineers Inc., 2014. 6920204 (Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method

AU - Yang, L.

AU - Nie, J. X.

AU - Jiao, Q. J.

AU - Li, J.

AU - Ren, M.

PY - 2014/10/10

Y1 - 2014/10/10

N2 - Distributed energy storage (DES) electromagnetic launcher (EML) is proved to have better efficiency in comparison with a breech-fed one since it can reduce electric and magnetic loses and avoid the secondary arc in hypervelocity electromagnetic launch. In this paper, we proposed the rail's dynamic governing equations of the DES system. A finite element code was also used to help us model the launching progress of a simplified DES EML system. The transient dynamics of both the rail and the armature were explored based on the Bernoulli-Euler beam model. Comparisons of the contact force and the contact area influenced by the armature velocity were conducted between the DES EML and the breech-fed one. We illustrated the dynamic response of the rail of the DES system under discontinuous electromagnetic force in details. The relationships between the critical velocities of the armatures and the elastic wave propagations along the rails were also explored in these two EML systems. With the finite element method, the advantages of the DES EML are more clearly presented.

AB - Distributed energy storage (DES) electromagnetic launcher (EML) is proved to have better efficiency in comparison with a breech-fed one since it can reduce electric and magnetic loses and avoid the secondary arc in hypervelocity electromagnetic launch. In this paper, we proposed the rail's dynamic governing equations of the DES system. A finite element code was also used to help us model the launching progress of a simplified DES EML system. The transient dynamics of both the rail and the armature were explored based on the Bernoulli-Euler beam model. Comparisons of the contact force and the contact area influenced by the armature velocity were conducted between the DES EML and the breech-fed one. We illustrated the dynamic response of the rail of the DES system under discontinuous electromagnetic force in details. The relationships between the critical velocities of the armatures and the elastic wave propagations along the rails were also explored in these two EML systems. With the finite element method, the advantages of the DES EML are more clearly presented.

KW - Distributed energy storage

KW - EML

KW - Finite element method

KW - Rail vibration

KW - Transient dynamic analysis

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U2 - 10.1109/EML.2014.6920204

DO - 10.1109/EML.2014.6920204

M3 - Conference contribution

AN - SCOPUS:84909953265

T3 - Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology

BT - Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2014 17th International Symposium on Electromagnetic Launch Technology, EML 2014

Y2 - 7 July 2014 through 11 July 2014

ER -

Yang L, Nie JX, Jiao QJ, Li J, Ren M. Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method. In Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology. Institute of Electrical and Electronics Engineers Inc. 2014. 6920204. (Conference Proceedings - EML 2014 17th International Symposium on Electromagnetic Launch Technology). doi: 10.1109/EML.2014.6920204

Transient dynamic analysis of distributed energy storage electromagnetic launcher using finite element method

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