Issue 39

M. Romano et alii, Frattura ed Integrità Strutturale, 39 (2016) 226-247; DOI: 10.3221/IGF-ESIS.39.22 245 of the model to the third direction as the width of the (laminated) load bearing structures, so that representative volume elements (RVEs) instead of plain representative sequences (PRS) are considered, provides a further extension for the consideration of surface structures. R EFERENCES [1] Naik, N. K., Shembekar, P. S., Elastic Behavior of Woven Fabric Composites: I-Lamina Analysis, Journal of Composite Materials, 26/15 (1992) 2196-2225. DOI:10.1177/002199839202601502 [2] Mital, S. K., Murthy, L. N., Chamis, C. C., Simplified Micromechanics of Plain Weave Composites, NASA Technical Memorandum 107165, (1996) 1-12. [3] Guan, H., Micromechanical analysis of viscoelastic damping in woven fabric-reinforced polymer matrix composites, Wayne State University, Detroit , AAI9725829 (1997). http://digitalcommons.wayne.edu/dissertations/AAI9725829. [4] Byun, J.-H., The analytical characterization of 2-D braided textile composites, Composites Science and Technology, 60(5) (2000) 705-716. [5] Huang, Z. M., The mechanical properties of composites reinforced with woven and braided fabrics, Composites Science and Technology, 60(4) (2000) 479-498. [6] Guan, H., Gibson, R.F., Micromechanic Models for Damping in Woven Fabric-Reinforced Polymer Matrix Composites, Journal of Composite Materials, 35(16) (2001) 1417-1434. [7] Tabiei, A., Yi, W., Comparative study of predictive methods for woven fabric composite elastic properties, Composite Structures, 58(1) (2002) 149-164. DOI:10.1016/S0263-8223(02)00028-4 [8] Le Page, B. H., Guild, F. J., Ogin, S. L., Smith, P. A., Finite element simulation of woven fabric composites, Composites Part A, 35/7-8 (2004) 861-872. DOI:10.1016/j.compositesa.2004.01.017 [9] Wielage, B., Müller, T., Lampke, T., Richter, U., Kieselstein, E., Leonhardt, G., Simulation der elastischen Eigenschaften gewebeverstärkter Verbundwerkstoffe unter Berücksichtigung der Mikrostruktur, in: M. Schlimmer (Ed.), Proceedings of the 15. Symposium Verbundwerkstoffe und Werkstoffverbunde, Kassel, Wiley VCH Verlag, Weinheim, (2005) 441-446. http://www.dgm.de/download/tg/706/706_77.pdf [10] Barbero, E. J., Trovillion, J., Mayugo, J. A., Sikkil, K. K., Finite Element Modeling of Plain Weave Fabrics from Photomicrograph Measurements, Composite Structures, 73(1) (2006) 41-52. [11] Ballhause, D., Diskrete Modellierung des Verformungs- und Versagensverhaltens von Gewebemembranen, University of Stuttgart, Stuttgart, (2007). [12] Matsuda, T., Nimiya, Y., Ohno N., Tokuda M., Elastic-viscoplastic behavior of plain-woven GFRP laminates: Homogenization using a reduced domain of anlysis, Composite Structures, 79 (2007) 493–500. [13] Nakanishi, Y., Matsumoto, K., Zako, M., Yamada, Y., Finite element analysis of vibration damping for woven fabric composites, Key Engineering Materials, 334-335 (2007) 213-216. [14] Badel, P., Vidal-Sallé, E., Boisse, P., Computational determination of in-plane shear mechanic behaviour of textile composite reinforcements, Computational Material Science, 40 (2007) 439-448. [15] Hivet, G., Boisse, P., Consistent mesoscopic mechanical behavior model for woven composite reinforcements in biaxial tension, Composites Part B, 39 (2008) 345-361. [16] El Mahi, A., Assarar, M., Sefrani, Y., Berthelot, J.-M., Damping analysis of orthotropic composite materials and laminates, Composites Part B, 39 (2008) 1069-1076. [17] Szablewski, P., Sinusoidal Model of Fiber-reinforced Plastic Composite, Journal of Industrial Textiles, 38(4) (2009) 277-288. DOI: 10.1177/1528083708098914. [18] Hivet, G., Duong, A.V., A contribution to the analysis of the intrinsic shear behavior of fabrics, Journal of Composite Materials, 45(6) (2010) 695–716. [19] Ansar, M., Xinwei, W., Chouwei, Z., Modeling strategies of 3D woven composites, A review, Composite Structures, 93 (2011) 1947-1963. [20] Kreikmeier, J., Chrupalla, D., Khattab, I. A., Krause, D., Experimentelle und numerische Untersuchungen von CFK mit herstellungsbedingten Fehlstellen, Proceedings of the 10. Magdeburger Maschinenbau-Tage, Magdeburg, (2011). [21] Valentino, P., Romano, M., Ehrlich, I., Furgiuele, F., Gebbeken, N., Mechanical characterization of basalt fibre reinforced plastic with different fabric reinforcements, Tensile tests and FE-calculations with representative volume elements (RVEs), in: F. Iacovello, G. Risitano, L. Susmel (Eds.), Acta Fracturae - XXII Convegno Nazionale IGF (Italiano Gruppo Frattura), Roma, (2013) 231-244.