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Tytuł artykułu

The Viscoplastic Effect in the Heat–Treated, Thin–Walled AL–6060 Alloy Profiles Subjected to Compressive Axial Impact

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper will highlight the influence of the strain rate effect occurring during pulse loading on dynamic stability of aluminium profiles. Current work is the development of the analysis carried in [1]. The C–channel cross–section beams/columns are made of 6060 T4, T5, T6 and T66 aluminium alloy. The rectangular–shape compressing pulse is analysed. The static material characteristics had been obtained from the experimental tensile tests and afterwards modified for dynamic response according to Perzyna viscoplastic model. The results of the numerical computations are presented whereas the critical load and DLF (Dynamic Load Factor) basing on the selected dynamic buckling criterion is determined.
Rocznik
Strony
53--71
Opis fizyczny
Bibliogr. 33 poz.
Twórcy
autor
  • Faculty of Mechanical Engineering Lodz University of Technology Stefanowskiego 1/15, 90–924 Łódź, Poland
Bibliografia
  • [1] Mróz A. and Mania, R.: The complex influence of aluminium aging on the dynamic response of thin walled AL 6060 alloy profile, Thin-Walled Structures, Vol. 79, pp. 147–153, 2014.
  • [2] Betten, J.: Creep mechanics, 2nd Edition, Springer-Verlag, Berlin, Germany, 2005.
  • [3] Królak, M.: Load carrying capacity of thin walled plated structures, in Polish, PKN, Warsaw–Lodz, 1990.
  • [4] Królak, M.: Buckling, postbuckling and load carrying capacity of thin–walled orthotropic structures, monographs in Polish, Technical University of Lodz, 1995.
  • [5] Kowal–Michalska, K.: The post–buckling behavior in the elasto–plastic range and ultimate strength of orthotropic plates under compression, in Polish, Scientific Bulletin of Technical University of Lodz, No. 721, 1995.
  • [6] Lof, J.: Elasto–viscoplastic FEM simulations of the aluminium flow in the bearing area for extrusion of thin–walled sections, Journal of Materials Processing Technology, Elsevier, 2001.
  • [7] Martinez, R., Russier, W., Couzinie, J.P., Guillot, I. and Cailletaub, G.: Modelling of the influence of coarsening on viscoplastic behavior of a 319 foundry aluminum alloy, Materials Science & Engineering A, Elsevier, 2013.
  • [8] Shahani, A.R., Nodamaie, S.A. and Salehinia, I.: Parametric study on hot rolling process by the finite element method, Mechanical Engineering, Sharif University of Technology, Vol. 16, No. 2, 2009.
  • [9] Prager, W.: Introduction to mechanics of continua, Dover Publications Inc., Mineola, New York, 1961.
  • [10] Perzyna, P.: The constitutive equations for rate-sensitive plastic materials, Quart. Appl. Math., 20, pp. 321–332, 1963.
  • [11] Perzyna, P. Fundamental Problems in Viscoplasticity, Academic Press, New York, vol. 9, pp. 243–377, 1966.
  • [12] Duvaut, G. and Lions, J. L.: Les Inequations en mechanique et en physique, Dunod, Paris, France, 1972.
  • [13] Wang, W. M., Sluys, L. J. and de Borst, R.: Viscoplasticity for instabilities due to strain softening and strain rate softening, International Journal of Numerical Methods in Engineering, 40, pp. 3839–3864, 1997.
  • [14] Wang, W. M.: Stationary and propagative instabilities in metals: a computational point of view, Ph.D. thesis, Delft University of Technology, 1997.
  • [15] Lodygowski, T. and Sumelka, W.: Future perspectives for the Perzyna’s theory, 8th German–Greek–Polish Symposium, Recent Advances in Mechanics, Goslar, Germany, 2013.
  • [16] Astanin, V. V.: Eksperimentalnoe isledovanie udarnowo szatia metalom v plasticeskich volnach nagruzenii intensivnostiu do 10000 MPa, Zavodskaja Laboratoria, 1980.
  • [17] Astanin, V. V.: Vysokosjorostnoje deformirowanie metalov, Zavodskaja laboratoria, 1989.
  • [18] Zhao, H. and Gary, G.: The testing and behavior modeling of sheey metals at strain rates from 10-4 to 104 s-1, Materials and Science Engineering, 1997.
  • [19] Zhang, J., Zhang, Z., Bie, J., Zhou, L. and Chen, J.: Effect of viscosity on material behavior in friction stir welding process, Tran. Nonferrus Met. Soc., China, 2006.
  • [20] Simitses, J. G.: Dynamic stability of suddenly loaded structures, Springer-Verlag, New York, 1990.
  • [21] Wei, Z. G., Ju, J.I. and Batra R.C.: Dynamic buckling of thin cylindrical shell under axial impact, International Journal of Impact Engineering, 2005.
  • [22] Wei, Z. G. and Batra R. C.: Dynamic buckling of thin thermoviscoplastic cylindrical shell under radial impulsive loading, Thin-Walled Structures, 2006.
  • [23] Mania, R.: Dynamic buckling of thin–walled columns made of viscoplastic materials, Technical University of Lodz Academic Press, 2010.
  • [24] Mukai, T., Ishikawa, K. and Higashi, K.: Influence of strain rate on the mechanical properties in fine–grained aluminium alloys Materials Science and Engineering, A, 204, 1995.
  • [25] Kowal–Michalska, K.: Dynamic Stability of Composite Plate Structures, (in Polish), WNT, Warszawa, 2007.
  • [26] Mróz, A.: The influence of cross–section shape of the car roof rail on the quasi–dynamic buckling modes, in: Kowal–Michalska, K. and Mania, R.J. [eds.], The Stability of Structures XIIIth Symposium Proceedings, Zakopane, http://cybra.lodz.pl/publication/6250, 2012.
  • [27] Budiansky, B. and Hutchinson, J. W.: Dynamic buckling of imperfection sensitive structures, Proc. llrh hf. estimates. /AA J., 4(3), 525–530, 1966.
  • [28] Ari–Gur, J. and Elishakoff, I.: Dynamic instability of a transversely isotropic column subjected to a compression pulse, Computers & Structures, Vol. 62, No. 5. pp. 815, 1997.
  • [29] Kowal–Michalska, K.: About Some Important Parameters in Dynamic Buckling Analysis of Plated Structures Subjected to Pulse Loading, Mechanics and Mechanical Engineering, Vol. 14, No. 2, 2010.
  • [30] Kubiak, T.: Criteria of dynamic buckling estimation of thin–walled structures, Thin-walled structures, Vol. 45, 2007.
  • [31] Hutchinson, J. W. and Budiansky, B.: Dynamic buckling estimates, AIAA Journal, 1966.
  • [32] Mania, R.: Dynamic buckling of thin–walled viscoplastic columns, Thin-walled Structures, 2010.
  • [33] Ansys User Guide.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-28402c54-46b7-4e2d-b879-2fa3a9ecfe21
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