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Abstrakty
This study focuses on the rubber structure behaviour assessment under dynamic loading using numerical methods. Dynamic simulations of the TNT explosion under the tiresuspension system were performed using the explicit LS-Dyna code using Arbitrary LagrangianEulerian formulation with Jones Wilkins Lee (JWL) equation defining the explosive material. During analyses two different constitutive materials were used: Mooney-Rivlin without ratedependency and Ogden rubberlike material (MAT 181 Simplified Rubber) which includes strain rate effects. Consequently, tire rubber material behaviour was investigated and compared for two simulated cases.
Czasopismo
Rocznik
Tom
Strony
33--46
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Military University of Technology Department of Mechanics and Applied Computer Science Gen. S. Kaliskiego 2, 00-908 Warszawa, Poland
autor
- Military University of Technology Department of Mechanics and Applied Computer Science Gen. S. Kaliskiego 2, 00-908 Warszawa, Poland
autor
- Military University of Technology Department of Mechanics and Applied Computer Science Gen. S. Kaliskiego 2, 00-908 Warszawa, Poland
autor
- Military University of Technology Department of Mechanics and Applied Computer Science Gen. S. Kaliskiego 2, 00-908 Warszawa, Poland
Bibliografia
- 1. Military University of Technology Department of Mechanics and Applied Computer Science Gen. S. Kaliskiego 2, 00-908 Warszawa, Poland Ochelski S., Bogusz P., Kiczko A., Influence of hardness on mechanical properties of elastomers, Journal of KONES Powertrain and Transport, 17, 317–325, 2010.
- 2. Krawczyk A., Mechanics of polymer and composite materials, Science, 1985.
- 3. Roland C.M., Mechanical behaviour of rubber at high strain rates, Rubber Chemistry and Technology, 79, 429–459, 2006.
- 4. Chen W., Lu F., Frew D.J., Forrestal M.J., Dynamic compressive testing of soft materials, Journal of Applied Mechanics, 69, 214–223, 2002.
- 5. Quintavalla S.J., Johnson S.H., Extension of the Bergstrom-Boyce model to high strain rates, Rubber Chemistry and Technology, 77, 5, 972–981, 2005.
- 6. Song B., Chen W., One-dimensional dynamic compressive behaviour of EPDM rubber, Journal of Engineering Materials and Technology, 125, 294–301, 2003.
- 7. LS-Dyna Aerospace Working Group, Rubber Projectile Impacting a Rigid Plate, 2012.
- 8. Chen Y., Zhang Z., Wang Y., Hua H., Crush dynamics of square honeycomb thin rubber wall, Thin-Walled Structures, 47, 1447–1456, 2009.
- 9. Du Bois P.A., Kolling S., Fassnacht S., Material behaviour of polymers under impact loading, International Journal of Impact Engineering, 32, 725–740, 2006.
- 10. Hoo Fat M.S., Bekar I., High-speed testing and material modelling of unfilled styrene butadiene vulcanizates at impact rates, Journal of Materials Science, 39, 23, 6885–6899, 2004.
- 11. Bekar I., Hoo Fatt M.S., Padovan J., Deformation and fracture of rubber under tensile impact loading, Tire Science Technology, 30, 45, 2002.
- 12. Al-Maliky N.S., Parry D.J., A freely expanding ring technique for measuring the tensile properties of polymers, Materials Science Technology, 7, 746–752, 1996.
- 13. Gourdin W.H., Weinland S.L., Boling R.M., Development of the electromagnetically launched expanding ring as a high-strain-rate test technique, Review of Scientific Instruments, 60, 427–432, 1989.
- 14. Kruszka L., The study of static and dynamic properties of steel for safety and protective structures [in Polish: Badania eksperymentalne własności statycznych i dynamicznych stali budowlanych dla potrzeb konstrukcji ochronnych i obronnych], Seminar Materials of Military University of Technology, 2008.
- 15. Morka A., Kwaśniewski L., Wekezer J., Assessment of Passenger Security in Paratransit Buses, Journal of Public Transportation, 8, 47–63, 2005.
- 16. Lacome J.L., Analysis of Mine Detonation, SPH analysis of structural response to antivehicles mine detonation, LSTC, 2007.
- 17. Baranowski P., Małachowski J., Blast wave and suspension system interaction- numerical approach, Journal of KONES Powertrain and Transport, 18, 2, 17–24. 2011.
- 18. Baranowski P., Małachowski J., Niezgoda T., Numerical Analysis of Vehicle Suspension System Response Subjected to Blast Wave, Applied Mechanics and Materials, 82, 728–733, 2011.
- 19. Malachowski J., Modelling and research of interaction between gas and pipe structures subjected to pressure impulse [in Polish: Modelowanie i badania interakcji ciało stałe-gaz przy oddziaływaniu impulsu ciśnienia na elementy konstrukcji rurociągu], BEL Studio, Warsaw, 2010.
- 20. Neves R.R.V., Micheli G.B., Alves M., An experimental and numerical investigation on tyre impact, International Journal of Impact Engineering, 10, 685–693, 2010.
- 21. Cho I.R., Kim K.W., Jeong H.S., Numerical investigation of tire standing wave using 3-D patterned tire model, Journal of Sound and Vibration, 305, 795–807, 2007.
- 22. Helnwein P., Liu C.H., Meschke G., Mang H.A., A new 3-D finite element model for cord-reinforced rubber composites- application to analysis of automobile tyres, Finite Elements in Analysis and Design, 4, 1–16, 1993.
- 23. Hallquist J.O., LS-Dyna: Theoretical manual, California Livermore Software Technology Corporation, 2003.
- 24. Włodarczyk E., Introduction to the mechanics of explosion [in Polish: Wstęp do mechaniki wybuchu], PWN, Warsaw, 1994.
- 25. ANSYS, Hyperelasticity, Structural Nonlinearities, 6, Second Edition Release 5.5, 1999.
- 26. Mooney M., A theorie of elastic deformations, Journal of Application Physics, 11, 582–592, 1940.
- 27. Rivlin R.S., Large elastic deformations of isotropic materials, Philosophical Transactions of The Royal Society A, 240, 459–490, 1948.
- 28. Benson D.J., Kolling S., Du Bois P.A., A simplified approach for strain-rate dependent hyperelastic materials with damage, 9th International LS-DYNA Users Conference, 15, 29–36, 2006.
- 29. Ogden R.W., Elastic deformations of rubberlike solids, Mechanics of Solids, The Rodney Hill 60th Anniversary Volume, Oxford, 1982.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e8fd460c-fd3d-4b47-a488-e71eb062594b