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2013 | Vol. 61, iss. 4 | 301--315
Tytuł artykułu

Method for Determination of the Dynamic Elastic Modulus for Composite Materials

Wybrane pełne teksty z tego czasopisma
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Majority of polymer matrix composite materials, a marked viscoelastic behavior and faculties of dissipation of energy, it thus proves necessary to know the viscoelastic properties, as the dynamic Young modulus. In this work, we will present a new experimental technique for determining the dynamic elastic modulus at high strain rates of polymer matrix composites materials by a statistical method demanding a large number of tests. This new technique is based on the split Hopkinson pressure bar. Further, we study the effect of strain rate on dynamic elastic modulus of a woven Polyamid 6 – glass fibre reinforced.
Wydawca

Rocznik
Strony
301--315
Opis fizyczny
Bibliogr. 10 poz., rys., tab., wykr.
Twórcy
autor
  • Ecole Nationale des Sciences Appliquées Avenue Abdelkrim Khattabi, 40000, Guéliz-Marrakech, Maroc, a.massaq@uiz.ac.ma
  • IbnoZohr University, Faculty of Sciences Agadir BP. 8106 Quartier Dakhla, Agadir, Morocco
autor
  • National Engineering School of Metz ENIM Laboratory of Mechanics, Biomechanics, Polymers and Structures – LaBPS, EA 4632 1 route d’Ars Laquenexy, CS 65820 57078 METZ Cedex 3, France, rusinek@enim.fr
autor
  • Universiapolis, Ecole Polytechnique d’Agadir Bab Al Madina, Qr Tilila, Agadir, Morocco, klosak@e-polytechnique.ma
  • The State School of Higher Professional Education in Kalisz 4 Nowy Swiat Street, 62-800 Kalisz, Poland
Bibliografia
  • 1. Olsen C., Fabricius L. Ida., Krogsboll A., Prasad M., Static and dynamic Young’s Modulus for Lower Cretaceous chalk. A low frequency scenario, AAPG International Conference, Cancun, Mexico, 24-27, October 2004.
  • 2. Olsen G.T., Wolfenden A., Hebsur M.G., Experimental Investigation of the Dynamic Elastic Modulus and Vibration Damping in MoSi2-30%Si3N4 as a Function of Temperature, Journal of Materials Engineering and Performance, 9, 1, 116–119, 2000.
  • 3. Srikanath N., Saravanaranganathan D., Gupta M., Lu L., Lai M.O., Modelling and determination of dynamic elastic modulus of magnesium based metal matrix composites, Materials Science and Technology, 16, 3, 309–314, 2000.
  • 4. Zheng. L., Sharon Huo X., Yuan Y., Experimental investigation on dynamic properties of rubberized concrete, Construction and Building Materials, 22, 939–947, 2008.
  • 5. Tarfaoui M., Choukri S., Neme A., Effect of fibre orientation on mechanical properties of the laminated polymer composites subjected to out-of-plane high strain rate compressive loadings, Composites Science and Technology, 68, 2, 477–485, 2008.
  • 6. Klepaczko J.R., The modified Split Hopkinson Bar, Theoretical and Applied Mechanics, 4, 479–491, 1971.
  • 7. Klepaczko J.R., Quasi-static and Dynamic Compression Behavior of Coal, Technical Report No. 1, Dept. of Mech. Engng., The University of Manitoba, Winnipeg, 1982.
  • 8. Saporta G., Probabilit´es analyse des donn´ees et statique, Ed. Technip, Paris, 1990.
  • 9. Vermeulen B., Gueguen V., Berg´e F., Perring F., Lam T.M., Reffo G., Résistance ´r l’impact des matériaux composites ´r base de tissus de polyéthylčne haute performance, polyaramide et verre, Composites, 19, 53–57, 1997.
  • 10. Word I.M., Mechanical properties of solid polymers, Ed. Wiley, London, 1983.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-b8bcabb4-1afa-4b84-be05-eb66d65c2a03
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