New Experimental Technique for Dynamic Bending of Composite Materials

• Autorzy: Massaq A. , Rusinek A. , Klósak M.
• Języki publikacji: EN

Abstrakty

EN

The paper is reporting a new experimental technique to study the dynamic behaviour of composite materials subjected to bending direct impact. It is based on the Hopkinson bar system allowing to observe material behaviour at very high impact velocities. The material used to perform the tests is a woven glass-fibre-reinforced Polyamide 6.

Słowa kluczowe

EN

impact velocity; dynamic bending; composite; shock; Hopkinson bar

PL

prędkość uderzenia; zginanie dynamiczne; kompozyt; pręt Hopkinsona

• Wydawca: Instytut Podstawowych Problemów Techniki PAN
• Czasopismo: Engineering Transactions
• Rocznik: 2014
• Tom: Vol. 62, iss. 3
• Strony: 269–--289
• Opis fizyczny: Bibliogr. 20 poz., rys., tab., wykr.

Twórcy

autor

Massaq A.

• Ecole Nationale des Sciences Appliqu´ees BP575, Avenue Abdelkrim Khattabi, 40000, Gu´eliz-Marrakech, Morocco
• Ibn Zohr University – Faculty of Sciences Agadir BP. 8106 Quartier Dakhla, Agadir, Morocco

autor

Rusinek A.

• 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

autor

Klósak M.

• Universiapolis, Ecole Polytechnique d’Agadir Bab Al Madina, Quartier Tilila, Agadir, Morocco

Bibliografia

• 1. Jiang F., Vecchio K.S., Hopkinson Bar Loaded Fracture Experimental Technique: A Critical Review of Dynamic Fracture Toughness Tests, Appl. Mech. Rev., 62, 060802, 2009.
• 2. Charpy G., Note sur l’essai des m´etaux `a la flexion par choc de barreaux entaill´es, M´emoire et compte-rendus de la Soci´et´e des ing´enieurs civils de France, 1901.
• 3. Fazal A., Kevin S., Viscoelastically prestressed polymeric matrix composites – Effects of test span and fibre volume fraction on Charpy impact characteristics, Composites, 44, 472–479, 2013.
• 4. Hopkinson B., A method of measuring the pressure produced in the detonation of explosives or by impact of bullet, Phil. Trans, 213, 437, 1914.
• 5. Nicholas T., Notched bend behavior of beryllium over a wide range of strain rates, Technical Report AFML-TR-75-177, Wright-Patterson AFB, Ohio, 1975.
• 6. Ruiz C., Mines R.A., The Hopkinson pressure bar: on alternative to the instrumented pendulum for Charpy tests, Int. J. Fracture., 29, 101, 1985.
• 7. Yokoyama T., Kishida K., A novel impact three-point bend test method for determining dynamic fracture-initiation toughness, Exp. Mech., 29, 188, 1989.
• 8. Tanaka K., Kagatsume T., Impact bending test on steel at low temperatures, Bull. JSME., 23, 1736, 1980.
• 9. Fengchun J., Kenneth S.V., Hopkinson Bar Loaded Fracture Experimental Technique: A Critical Review of Dynamic Fracture Toughness Tests, Appl. Mech. Rev., 62, 6, 2009.
• 10. Delvare F., Hanus J.L., Bailly P., A non-equilibrium approach to processing Hopkinson Bar bending test data: Application to quasi-brittle materials, International Journal of Impact Engineering, 37, 1170–1179, 2010.
• 11. Govender R.A., Langdon G.S., Nurick G.N., Cloete T.J., Impact delamination testing of fibre reinforced polymers using Hopkinson Pressure Bars, Engineering Fracture Mechanics, 101, 80–90, 2013.
• 12. Nazarenko E., Comportement `a rupture d’un composite `a fibres c´eramiques et matrice vitroc´eramique sous sollicitations statiques et dynamiques, Th`ese de l’Ecole Centrale de Paris, 1992.
• 13. Hanus J.L., Magnain B., Durand B., Rodrigueza J., Bailly P., Processing dynamic split Hopkinson three-point bending test with normalized specimen of quasi-brittle material, Mechanics & Industry, 13, 06, 381–393, 2012.
• 14. Zhao H., Analyse de l’essai aux barres d’Hopkinson. Application `a la mesure du comportement dynamique des mat´eriaux, Th`ese de l’ENPC et de l’Ecole Polytechnique, 1992.
• 15. Klepaczko J.R., An experimental technique for shear testing at high and very high strain rates. The case of mild steel, Int. J. Impact. Engng., 15, 25, 1994.
• 16. Klepaczko J.R., Matysiak S.J., Analysis of longitudinal impact on semi-infinite circular bars and tubes, Appendix No. 2, The Final Technical Report Contract DAJA 45-90- C-0052, Metz, October, 1992.
• 17. NFEN 10045-1, Essai de flexion par choc sur ´eprouvettes entaill´ees, M´ethodes d’essais, Partie I, Octobre, 1992.
• 18. Lorriot L., Charpy impact test analysis. Dynamic behaviour of a 2D-carbon/carbon composite material, Thesis of university Bordeaux, 1996.
• 19. Clough R.W., Penzien J., Dynamique des structures, Tome I, Editions PLURALIS, 1980.
• 20. Williams J.G., The analysis of instrumented impact tests using a mass spring model, International Journal of Fracture, 33, 209, 1987.