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International Journal of Material Forming

Erschienen in:

01.09.2010 | Original Research

Hypoelastic, hyperelastic, discrete and semi-discrete approaches for textile composite reinforcement forming

verfasst von: Philippe Boisse, Yamina Aimène, Abdelwaheb Dogui, Samia Dridi, Sébastien Gatouillat, Nahiene Hamila, Muhammad Aurangzeb Khan, Tarek Mabrouki, Fabrice Morestin, Emmanuelle Vidal-Sallé

Erschienen in: International Journal of Material Forming | Sonderheft 2/2010

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Abstract

The clear multi-scale structure of composite textile reinforcements leads to develop continuous and discrete approaches for their forming simulations. In this paper two continuous modelling respectively based on a hypoelastic and hyperelastic constitutive model are presented. A discrete approach is also considered in which each yarn is modelled by shell finite elements and where the contact with friction and possible sliding between the yarns are taken into account. Finally the semi-discrete approach is presented in which the shell finite element interpolation involves continuity of the displacement field but where the internal virtual work is obtained as the sum of tension, in-plane shear and bending ones of all the woven unit cells within the element. The advantages and drawbacks of the different approaches are discussed.

Vorheriger Artikel Numerical study on thermo-stamping of woven fabric composites based on double-dome stretch forming

Nächster Artikel Simulation of the mechanical behaviour of woven fabrics at the scale of fibers

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Advani SG (1994) Flow and rheology in polymeric composites manufacturing. Elsevier, Amsterdam

Saouab A, Bréard J, Lory P, Gardarein B, Bouquet G (2001) Injection simulations of thick composite parts manufactured by the RTM process. Compos Sci Technol 61:445–451CrossRef

Mouritz AP, Bannister MK, Falzon PJ, Leong KH (1999) Review of applications for advanced three-dimensional fibre textile composites. Compos Part A 30:1445–1461CrossRef

de Luycker E, Morestin F, Boisse P, Marsal D (2009) Simulation of 3D interlock composite preforming. Compos Struct 88:615–623CrossRef

Tong L, Mouritz AP, Bannister MK (2002) 3D Fibre reinforced polymer composites. Elsevier Science, Oxford

Creech G, Pickett AK (2006) Meso-modelling of non-crimp fabric composites for coupled drape and failure analysis. J Mater Sci 41:6725–6736CrossRef

Boisse P, Gasser A, Hagège B, Billoet JL (2005) Analysis of the mechanical behavior of woven fibrous material using virtual tests at the unit cell level. J Mater Sci 40:5955–5962CrossRef

Dong L, Lekakou C, Bader MG (2001) Processing of composites: simulations of the draping of fabrics with updated material behaviour law. J Compos Mater 35:138–163CrossRef

Hagège B, Boisse P, Billoët JL (2005) Finite element analyses of knitted composite reinforcement at large strain. European Journal of Computational Mechanics 14:767–776MATH

10.

Peng X, Cao J (2005) A continuum mechanics-based non-orthogonal constitutive model for woven composite fabrics. Compos Part A 36:859–874CrossRef

11.

Rogers TG (1989) Rheological characterisation of anisotropic materials. Composites 20:21–27CrossRef

12.

Spencer AJM (2000) Theory of fabric-reinforced viscous fluids. Compos Part A 31:1311–1321CrossRef

13.

ten Thije RHW, Akkerman R, Huétink J (2007) Large deformation simulation of anisotropic material using an updated Lagrangian finite element method. Comput Methods Appl Mech Eng 196:3141–3150MATHCrossRef

14.

Yu WR, Pourboghrata F, Chungb K, Zampaloni M, Kang TJ (2002) Non-orthogonal constitutive equation for woven fabric reinforced thermoplastic composites. Compos Part A 33:1095–1105CrossRef

15.

Ben Boukaber B, Haussy G, Ganghoffer JF (2007) Discrete models of woven structures. Macroscopic approach. Compos Part B 38:498–505CrossRef

16.

Duhovic M, Bhattacharyya D (2006) Simulating the deformation mechanisms of knitted fabric composites. Compos Part A 37:1897–1915CrossRef

17.

Pickett AK, Creech G, de Luca P (2005) Simplified and advanced simulation methods for prediction of fabric draping. European Journal of Computational Mechanics 14:677–691MATH

18.

Zhou G, Sun X, Wang Y (2004) Multi-chain digital element analysis in textile mechanics. Compos Sci Technol 64:239–244CrossRef

19.

Durville D (2005) Numerical simulation of entangled materials mechanical properties. J Mater Sci 40:5941–5948CrossRef

20.

Durville D (2008) A finite element approach of the behaviour of woven materials at microscopic scale—11th Euromech-Mecamat conference—Mechanics of microstructured solids: cellular materials, fiber reinforced solids and soft tissues, Torino, Italia. arXiv:0804.2952v1 [cond-mat.soft]

21.

Miao Y, Zhou E, Wang Y, Cheeseman BA (2008) Mechanics of textile composites: micro-geometry. Compos Sci Technol 68:1671–1678CrossRef

22.

Truesdell C (1955) Hypo-elasticity. J Ration Mech Anal 4:83–133MathSciNet

23.

Xiao H, Bruhns OT, Meyers A (1998) On objective corotational rates and their defining spin tensors. Int J Solids Struct 35:4001–4014MATHCrossRefMathSciNet

24.

Belytschko T, Liu WK, Moran B (2000) Nonlinear finite elements for continua and structures. Wiley, ChichesterMATH

25.

Crisfield MA (1997) Non-linear finite element analysis of solids and structures. Wiley, Chichester

26.

Badel P, Gauthier S, Vidal-Sallé E, Boisse P (2008) Rate constitutive equations for computational analyses of textile composite reinforcement mechanical behaviour during forming. Compos Part A. doi:10.1016/j.compositesa.2008.04.015

27.

Hughes TJR, Winget J (1980) Finite rotation effects in numerical integration of rate constitutive equations arising in large deformation analysis. Int J Numer Methods Eng 15:1862–1867MATHCrossRefMathSciNet

28.

Khan MA, Mabrouki T, Boisse P (2009) Numerical and experimental forming analysis of woven Composites with double dome benchmark. Proceedings Esaform 2009, Springer

29.

Khan MA (2009) Numerical and experimental analyses of woven composite reinforcement draping using a hypoelastic behaviour. Ph.D. Thesis, INSA Lyon

30.

Woven composites benchmark forum. http://www.wovencomposites.org/. Accessed 11 May 2009

31.

Cao J, Akkerman R, Boisse P, Chen J et al (2008) Characterization of mechanical behavior of woven fabrics: experimental methods and benchmark results. Compos Part A 39:1037–1053CrossRef

32.

Lomov SV, Boisse P, De Luycker E, Morestin F, Vanclooster K, Vandepitte D, Verpoest I, Willems A (2008) Full-field strain measurements in textile deformability studies. Compos Part A 39:1232–1244CrossRef

33.

Buet-Gautier K, Boisse P (2001) Experimental analysis and modeling of biaxial mechanical behavior of woven composite reinforcements. Exp Mech 41:260–269CrossRef

34.

Spencer AJM (1984) Continuum theory of the mechanics of fibres-reinforced composites. Springer-Verlag, New York

35.

Basar Y, Weichert D (2000) Nonlinear continuum mechanics of solids. Springer, BerlinMATH

36.

Ogden RW (1984) Non-linear elastic deformations. Wiley, New York

37.

Truesdell C, Noll W (1965) The nonlinear field theories of mechanics. Edition Handbuch der Physik Vol. III. Spinger, Berlin

38.

Aimène Y, Vidal-Sallé E, Hagège B, Sidoroff F, Boisse P (2009) A hyperelastic approach for composite reinforcement large deformation analysis. J Compos Mater. doi:10.1177/0021998309345348

39.

Daniel JL, Soulat D, Dumont F, Zouari B, Boisse P, Long AC (2003) Forming simulation of very unbalanced woven composite reinforcements. Int J Form Process 6:465–480CrossRef

40.

Dumont F (2003) Expérimentations et modèles de comportement de renforts de composites tissés. Ph.D. Thesis, Paris VI University

41.

Dridi S (2009) Modélisation du comportement mécanique des textiles par des lois hyperélastiques. Ph.D. Thesis, University of Monastir and INSA Lyon, to appear

42.

Badel P, Vidal-Sallé E, Maire E, Boisse P (2009) Simulation and tomography analysis of textile composite reinforcement deformation at the mesoscopic scale. Compos Sci Technol 68:2433–2440CrossRef

43.

Grave G, Birkefeld K, von Reden T, Drechsler K, Kyosev Y, Rathjens A (2009) Simulation of 3D overbraiding—solutions and challenges. Second World Conference on 3D Fabrics and their Applications, Greenville

44.

Nilakantan G, Keefe M, Gillespie JW, Bogetti TA (2009) Simulating the impact of multi-layer fabric targets using a multi-scale model and the finite element method. Recent advances in textile composites. Proceedings of the 9th International Conference on Textile Composites—TEXCOMP9), DEStech Publications, Inc., 506–515

45.

Sapozhnikov SB, Forental MV, Dolganina NY (2007) Improved methodology for ballistic limit and blunt trauma estimation for use with hybrid metal/textile body armor. Proceedings of the Conference Finite element modelling of textiles and textile composites (CD ROM), St-Petersburg

46.

Boisse P, Zouari B, Daniel JL (2006) Importance of in-plane shear rigidity in finite element analyses of woven fabric composite preforming. Compos Part A 37:2201–2212CrossRef

47.

Hamila N, Boisse P, Sabourin F, Brunet M (2009) A semi-discrete shell finite element for textile composite reinforcement forming simulation. Int J Numer Methods Eng 79(12):1443–1466MATHCrossRef

48.

Prodromou AG, Chen J (1997) On the relationship between shear angle and wrinkling of textile composite preforms. Compos Part A 28:491–503CrossRef

49.

de Bilbao E, Soulat D, Hivet G, Launay J, Gasser A (2008) Bending test of composite reinforcements. International Journal of Material Forming. doi:10.1007/s12289-008-0265-z

50.

Launay J, Hivet G, Duong AV, Boisse P (2008) Experimental analysis of the influence of tensions on in plane shear behaviour of woven composite reinforcements. Compos Sci Technol 68:506–515CrossRef

51.

Lomov SV, Verpoest I (2006) Model of shear of woven fabric and parametric description of shear resistance of glass woven reinforcements. Compos Sci Technol 66:919–933CrossRef

52.

Sabourin F, Brunet M (1995) Analyses of plates and shells with a simplified 3 node triangular element. Thin-walled Struct 21:238–251CrossRef

53.

Onate E, Zarate F (2000) Rotation-free triangular plate and shell elements. Int Numer Methods Eng 47:557–603MATHCrossRefMathSciNet

54.

Allaoui S, Boisse P, Chatel S, Hamila N, Hivet G, Soulat D (2009) Experimental and numerical analysis of a woven reinforcement forming process. Compos Part B, submitted

55.

Hamila N, Boisse P, Chatel S (2008) Finite element simulation of composite reinforcement draping using a three node semi discrete triangle. International Journal of Material Forming 1:867–870. doi:10.1007/s12289-008-0-273-z CrossRef

Titel: Hypoelastic, hyperelastic, discrete and semi-discrete approaches for textile composite reinforcement forming
verfasst von: Philippe Boisse
Yamina Aimène
Abdelwaheb Dogui
Samia Dridi
Sébastien Gatouillat
Nahiene Hamila
Muhammad Aurangzeb Khan
Tarek Mabrouki
Fabrice Morestin
Emmanuelle Vidal-Sallé
Publikationsdatum: 01.09.2010
Verlag: Springer-Verlag
Erschienen in: International Journal of Material Forming / Ausgabe Sonderheft 2/2010
Print ISSN: 1960-6206
Elektronische ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-009-0664-9

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