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Articles

Numerical analysis on the flexural strength of unidirectional CFRTP composites with in-plane fiber bundle waviness

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Pages 89-100 | Received 27 Aug 2018, Accepted 28 Jul 2019, Published online: 04 Aug 2019

References

  • Nairn JA. Thermoelastic analysis of residual stresses in unidirectional high-performance composites. Polym Compos. 1985;6:123–130.
  • Hjellming LN, Walker JS. Thermal curing cycles for composite cylinders with thick walls and thermoset resins. J Compos Mater. 1989;23:1048–1064.
  • Zoller P. Specific volume of polysulfone as a function of temperature and pressure. J Polym Sci. 1978;16:1261–1275.
  • D’Amore A, Pompo A, Nicolais L. Viscoelastic effects in poly (ether ether ketone)(peek) and peek-based composites. Compos Sci Technol. 1991;41:303–325.
  • Olson BD, Lamontia MA, Gillespie JW Jr, et al. The effects and non-destructive evaluation of defects in thermoplastic compression-loaded composite cylinders. J Thermoplast Compos Mater. 1995;8:109–136.
  • Kugler D, Joyce PJ, Moon TJ. Investigation of the effect of part length on process-induced fiber-wrinkled region in composite laminates. J Compos Mater. 1997;31:1728–1757.
  • Kugler D, Moon TJ. Identification of the most significant processing parameters on the development of fiber waviness in thin laminates. J Compos Mater. 2002;36:1451–1479.
  • Mizukami K, Ogi K. Non-contact visualization of fiber waviness distribution in carbon fiber composites using eddy current testing. Adv Compos Mater. 2018;27:135–146.
  • Iizuka K, Ueda M, Takahashi T, et al. Development of a three-dimensional finite element model for a unidirectional carbon fiber reinforced plastic based on X-ray computed tomography images and the numerical simulation on compression. Adv Compos Mater. 2018. DOI:10.1080/09243046.2018.1434731
  • Mizukami K. Evaluation of size of surface and subsurface waviness in carbon fiber composites using eddy current testing: a numerical study. Adv Compos Mater. 2018. DOI:10.1080/09243046.2017.1417092
  • Liu D, Fleck NA, Sutcliffe MPF. Compressive strength of fiber composites with random fiber waviness. J Mech Phys Solids. 2004;52:1481–1505.
  • Hsiao HM, Daniel IM. Effect of fiber waviness on stiffness and strength reduction of unidirectional composites under compressive loading. Compos Sci Technol. 1996;56:581–593.
  • Adams DO, Bell SJ. Compression strength reduction in composite laminates due to multiple layer waviness. Compos Sci Technol. 1995;53:207–212.
  • Garnich M, Karami G. Finite element micromechanics for stiffness and strength of wavy fiber composites. J Compos Mater. 2004;38:273–292.
  • Karami G, Garnich M. Effective moduli and failure considerations for composites with periodic fiber waviness. Compos Struct. 2005;67:461–475.
  • Chun H, Shin J, Daniel I. Effects of material and geometric nonlinearities on the tensile and compressive behavior of composite materials with fiber waviness. Compos Sci Technol. 2001;61:125–134.
  • Potter K, Khan B, Wisnom M, et al. Variability, fiber waviness and misalignment in the determination of the properties of composite materials and structures. Compos Part A. 2008;39:1343–1354.
  • Altman A, Gesell P, Drechler K. Strength prediction of ply waviness in composite materials considering matrix dominated effects. Compos Struct. 2015;127:51–59.
  • Yokozeki T. Effects of process-induced fiber bundle waviness on the flexural strength of CFRTP. 17th US-Japan Conference on Composite Materials; 2016 Aug 1-2; Sapporo, Japan, No.29.
  • Yokozeki T, Takemura H, Aoki T. Evaluation of mechanical properties of carbon fiber reinforced thermoplastic composites with fiber bundle waviness. 15th Japan International SAMPE Symposium; 2017 Apr 27–29; Tokyo, Japan, 1C06.
  • Jones RM. Mechanics of composite materials. Washington (DC): Scripta Book Company; 1975.
  • Asp LE, Berglund LA, Talreja R. Prediction of matrix-initiated transverse failure in polymer composites. Compos Sci Technol. 1996;56:1089–1097.
  • Yoshida K, Nakagami M. Numerical analysis of bending and transverse shear properties of plain-weave fabric composite laminates considering intralaminar inhomogeneity. Adv Compos Mater. 2017;26:135–156.
  • Fujioka T, Yokozeki T, Watanabe A, et al. Analysis on temperature-dependent deployment behavior of bi-stable composite rods. Adv Compos Mater. 2019;28:245–257.
  • Puck A, Schürmann H. Failure analysis of FRP laminates by means of physically based phenomenological models. Comps Sci Technol. 1998;58:1045–1067.

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