Abstract
The paper presents experiences gained during work with numerical model of Geo Metro vehicle used for simulations of crash tests with road safety barriers. Attention is drawn to the subject of tire/wheel breakage during collision events. Some methods for improvement of the model are presented in the paper. Several results for the normative vehicle numerical tests are introduced. Simulations were carried out using LS-DYNA finite element code with solver version R8.1
Citations
-
6
CrossRef
-
0
Web of Science
-
0
Scopus
Authors (5)
Cite as
Full text
download paper
downloaded 256 times
- Publication version
- Accepted or Published Version
- License
- open in new tab
Keywords
Details
- Category:
- Articles
- Type:
- artykuły w czasopismach
- Published in:
-
MATEC Web of Conferences
no. 262,
pages 1 - 6,
ISSN: 2261-236X - Language:
- English
- Publication year:
- 2019
- Bibliographic description:
- Bruski D., Burzyński S., Chróścielewski J., Pachocki Ł., Witkowski W.: On the validation of the LS-DYNA Geo Metro numerical model// MATEC Web of Conferences -Vol. 262, (2019), s.1-6
- DOI:
- Digital Object Identifier (open in new tab) 10.1051/matecconf/201926210001
- Bibliography: test
-
- European Standard EN 1317-1-5, (2010) open in new tab
- British Standard PD CEN/TR 16303-1-5, (2012) open in new tab
- J.O. Halquist, LS-DYNA Theory Manual, USA, 2006
- Livermore Software Technology Corporation, LS-DYNA Keyword User's Manual, USA, (2015) open in new tab
- National Crash Analysis Center, Crash Simulation Vehicle Models (accessed 10.03.2016) open in new tab
- ROBUST PROJECT, https://www.vegvesen.no/s/robust/Computational _mechanics/Vehicle%20models/
- ROBUST PROJECT, WP5-Computational Mechanics Geo-Metro Finite Element model (GM_R3): Improvements of Steering System and Suspensions, I, (2005) open in new tab
- T. Teng, C. Liang, T. Tran, Simulation, 92(6), 565- 578, (2016) open in new tab
- K. Jamroz, S. Burzyński, W. Witkowski, K. Wilde, Advences in Mechanics: Theoretical, Computational and Interdisciplinary Issues, p.231- 234, (2016) open in new tab
- W. Borkowski, Z. Hryciów, P. Rybak, J. Wysocki, JKONESPaT, 17, 65-71, (2010) open in new tab
- M. Brovinsek, M. Vesenjak, M. Ulbin, Z. Ren, EFA, 14, 1711-1718, (2007) open in new tab
- K. Wilde, K. Jamroz, D. Bruski, S. Burzyński, J. Chróścielewski, W. Witkowski, JCEEA, XXXIII, 455-467, (2016) open in new tab
- M. Klasztorny, D. Nycz, P. Szurgott, IJoC, 21:6, 644-659, (2016) open in new tab
- K. Wilde, D. Bruski, S. Burzyński, J. Chróścielewski, W. Witkowski, DSTA, 555-566, (2017) open in new tab
- M. Klasztorny, K. Zielonka, D. Nycz, P. Posuniak, R. Romanowski, ACME, 18, 339-355, (2018) open in new tab
- K. Wilde, K. Jamroz, D. Bruski, M. Budzyński, S. Burzyński, J. Chróścielewski, W. Witkowski, ACME, 63, 187-199, (2017) open in new tab
- P. Baranowski, J. Małachowski, J. Janiszewski, J. Weekezer, Materials and Design, 96, 68-79, (2016) open in new tab
- P. Baranowski, J. Małachowski, L. Mazurkiewicz, IJoMS, 106, 346-356, (2016) open in new tab
- P. Baranowski, J. Janiszewski, J. Małachowski, JoTaAM, 55, 727-739, (2017) open in new tab
- P. Baranowski, J. Małachowski, Bulletin of the Polish Academy of Sciences, 63, 867-878, (2015) open in new tab
- F. Orengo, M. H. Ray, C. A. Plaxico, ASME, (2003) open in new tab
- J. D. Reid, D. A. Boesch, R. W. Bielenberg, ICrash, (2006)
- Y. Cai, M. Zang, Y. Chen, W. Liu, JoAE, 228(9), 1116-1124, (2014) open in new tab
- National Highway Traffic Safety Administration, Crash Simulation Vehicle Models (accessed 26.02.18) open in new tab
- Sources of funding:
-
- Project Devices for road safety
- Verified by:
- Gdańsk University of Technology
seen 159 times