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Tytuł artykułu

Simulation by a Genetic Algorithm and Location by the Non-linear Acoustic Technique of the Shear Damage to the Fiber-Matrix Interface of a Hybrid Composite Material Alfa-Carbon / Epoxy

Treść / Zawartość
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The objective of this paper is to study the location of the shear damage to the fiber matrix interface of a hybrid composite material by using the nonlinear acoustic technique, which is commonly described by the addition of a non-linear term in Hooke’s law. The genetic simulation is based on the probabilistic Weibull model including non-linear parameter β. The results obtained show good agreement between the numerical simulation and the actual behavior of two hybrid composite materials: alfa-carbon/Epoxy and glass-carbon/ Epoxy. In addition the results are similar to those obtained by the analytical model, which based on the Cox and Weibull formalism. The extended study for nanocomposite materials is interesting in the future.
Wydawca

Czasopismo
Rocznik
Tom
2
Numer
1
Opis fizyczny
Daty
otrzymano
2014-09-12
zaakceptowano
2015-06-25
online
2015-07-27
Twórcy
autor
  • Faculty of Sciences, Department of Physics, Dr Tahar Moulay University of Saïda, Algeria
autor
  • Faculty of physics, Department of Materials and Components, U.S.T.H.B. Algiers, Algeria
autor
  • Faculty of Sciences, Department of Physics, Dr Tahar Moulay University of Saïda, Algeria
autor
  • Faculty of physics, Department of Materials Technology U.S.T.O BP 1505 Oran, Algeria
autor
  • Faculty of physics, Theoretical Physics Laboratory, U.S.T.H.B. Algiers, Algeri
autor
  • Faculty of physics, Department of Materials Technology U.S.T.O BP 1505 Oran, Algeria
Bibliografia
  • [1] Bhowmick M, Mukhopadhyay S AlagirusamyR. Mechanical Properties of Natural Fibre-ReinforcedComposites. Textile Progress., 2012,44,85.
  • [2] Chamis C C, Lark, R. F.,”Hybrid composites – State-of-the-artreview: Analysis, Design, Application and Fabrication”, NASATechnical Memorandum, NASA, TM X-73545.,2006.
  • [3] Luciana Arronche, Israel Martínez, Valeria La Saponara, EliasLedesma. Finite Element Modeling and Experimental Characterizationof Enhanced Hybrid Composite Structures for ImprovedCrashworthiness. J. Appl. Mech.,1980,80,1168.[WoS]
  • [4] Chou, Tsu-Wei, Kelly, Anthony. Mechanical properties ofcomposites., Annu. Rev. Mater. Sci. 1980,59, 229.
  • [5] Chou T. W. Mechanical behavior of hybrid composites.Emerging Technologies in Aerospace Structures, StructuralDynamics and Materials, ed. J. R. Vinson, New York: AmericanSociety of Mechanical Engineers. 1980.
  • [6] Zaitseiv V, Sutin A.M, Belyaeva TI Y, Nazarov V.E. Nonlinearinteraction of acoustical waves due to cracks and its possibleusage for cracks detection . J. Vibration & Control.,1995, 1,335.
  • [7] Mirbagheri, Jamal, Tajvidi, Mehdi, Ghasemi, Ismaeil,Hermanson, John C. Prediction of the Elastic Modulus of WoodFlour/Kenaf Fibre/Polypropylene Hybrid Composites., IranianPolymer Journal.,2007,16,271.
  • [8] Kassapoglou, C. Minimum cost and weight design of fuselageframes part B:cost consideration, optimization and results.,Composite part A, 1998, 30, 895.
  • [9] Cox H.L. The elasticity and strength of paper and other fibrousmaterials. British journal of applied physics.,1952, 12,72.
  • [10] Mokaddem A, Alami M, Doumi B and Boutaous A. Predictionby a genetic algorithm of the fiber matrix interface damage for composite material. Part1 : study of shear damage intwo composites T300/914 and Peek/APC2., Strength ofmaterials.,2014,46, 543.
  • [11] Weibull W. A statistical Eng.Sci.Proc,Theory of the strength ofmaterials Royal Swedish Academy of Eng. Sci. Proc.,1939,151,1.
  • [12] Lissart N. Damage and failure in ceramic matrix minicomposites:experimental study and model., acta mater., 1997,45,1025.
  • [13] Mokaddem A, Alami M, Boutaous A. A study by a geneticalgorithm for optimizing the arrangement of fibers on damageto the fiber-matrix interface of composite material, Journal ofthe textile institute, Taylor and Francis Group.,2012,103,1376.
  • [14] Johnson P.A, McCall K.R. Observation and Implications ofNonlinear Elastic Wave Response in Rock., GeophysicalResearch Letters.,1994,21,165.
  • [15] Moussatov A, Castagnède B, Gusev V. Observation ofnonlinear interaction of acoustic waves in granular materials :demodulation process ., Phys. Lett. A.,2001,283,216.
  • [16] Nagy P.B. « Fatigue damage assesment by nonlinear ultrasonicmaterial chracterization » Ultrasonics.,1998,36,375.
  • [17] El Guerjouma R, Faiz A, Godin N, Bentahar M, BabouxJ. C. Linear and non linear ultrasonics for materialdamage evaluation and health monitoring., Matériaux etTechniques.,2002, 48.
  • [18] Van Den Abeele K., Johnson P.A. Elastic Pulsed WavePropagation in media with second or higher-order nonlinearity.Part II. Simulation of Experimental Measurement on BereaSandstone., J. Acoust. Soc.,1996,99, 6.
  • [19] Van Den Abeele. K.E. Elastic Pulsed Wave Propagation in mediawith second or higher-order nonlinearity. Part I. Theoreticalframework., J. Acoust. Soc. , 1996, 99, 6.
  • [20] Chaboche.J.L. Mechanics of solid materials. Edition Dunod1988.
  • [21] Walker M, Smith, R. A technique for the multi-objectifoptimization of laminated composite structures using geneticalgorithms and finite element analysis. Composite Structures,,2003, 62, 123.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.-psjd-doi-10_1515_hyma-2015-0002
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