References
- Toray Carbon Fibers America. TORAYCA T800H. (Toray Technical data sheet, No.CFA-007).
- Toray Carbon Fibers America. TORAYCA T1000G. (Toray Technical data sheet, No.CFA-008).
- Hexcel, HexTow IM10. Product data sheet. 2016. (CTA 354 FB16).
- Hayashi T. On the shear instability of structures caused by compressive load. AIAA paper, No. 65-770, presented at AIAA/RAeS/JSASS Aircraft Design and Technology Meeting; 1965 Nov 15-18; Los Angeles, CA.
- Rosen BW Mechanics of composite strengthening. 1964. (NASA-CR-60667).
- Hayashi T. The fundamental theory of strength of fiber-reinforced composite materials. J Japan Soc Aero Space Sci. 1969;17:160–175.
- Budiansky B, Fleck NA. Compressive failure of fibre composites. J Mech Phys Solids. 1993;41:183–211.
- Sun CT, Jun AW. Compressive strength of unidirectional fiber composites with matrix non-linearity. Compos Sci Technol. 1994;52:577–587.
- Pimenta S, Gutkin R, Pinho ST, et al. A micromechanical model for kink-band formation: part II–analytical modelling. Compos Sci Tech. 2009;69:956–964.
- Jumahat A, Soutis C, Jones FR, et al. Fracture mechanisms and failure analysis of carbon fibre/toughened epoxy composites subjected to compressive loading. Compos Struct. 2010;92:295–305.
- Vogler TJ, Hsu SY, Kyriakides K. On the initiation and growth of kink bands in fiber composites. Part II: analysis. Int J Solids Struct. 2001;38:2653–2682.
- Pimenta S, Gutkin R, Pinho ST, et al. A micromechanical model for kink-band formation: part I – experimental study and numerical modelling. Compos Sci Tech. 2009;69:948–955.
- Prabhakar P, Waas AM. Micromechanical modeling to determine the compressive strength and failure mode interaction of multidirectional laminates. Compos Part A. 2013;50:11–21.
- Romanowicz M. Initiation of kink bands from regions of higher misalignment in carbon fiber-reinforced polymers. J Compos Mater. 2014;48:2387–2399.
- Davidson P, Waas AM. Mechanics of kinking in fiber-reinforced composites under compressive loading. Math Mech Solids. 2016;21:667–684.
- Romanowicz M. Determination of material parameters for microbuckling analysis of fiber reinforced polymer matrix composites. Int J Appl Mech Eng. 2015;20:373–383.
- Naya F, Herraes M, Lopes CS, et al. Computational micromechanics of fiber kinking in unidirectional FRP under different environmental conditions. Compos Sci Technol. 2017;144:26–35.
- Kiuchi T, Todoroki A, Matsuzaki R, et al. Fiber-waviness model in filament winding process. J Solid Mech Mater Eng. 2010;4:63–74.
- Ueda M, Mimura K, Jeong TK. In situ observation of kink-band formation in a unidirectional carbon fiber reinforced plastic by X-ray computed tomography imaging. Adv Compos Mater. 2016;25:31–43.
- Yoshimura A, Hosoya R, Koyanagi J, et al. X-ray computed tomography used to measure fiber orientation in CFRP laminates. Adv Compos Mater. 2016;25:19–30.
- Wang Y, Burnett TL, Chai Y, et al. X-ray computed tomography study of kink bands in unidirectional composites. Compos Struct. 2017;160:917–924.
- Matsuo T, Kageyama K. Compressive failure mechanism and strength of unidirectional thermoplastic composites based on modified kink band model. Compos Part A. 2017;93:117–125.
- Czabaj MW, Riccio ML, Whitacre WW. Numerical reconstruction of graphite/epoxy composite microstructure based on sub-micron resolution X-ray computed tomography. Compos Sci Technol. 2014;105:174–182.
- Emerson MJ, Jespersen KM, Dahl AB, et al. Individual fibre segmentation from 3D X-ray computed tomography for characterising the fibre orientation in unidirectional composite materials. Compos Part A. 2017;97:83–92.
- 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. DOI:10.1080/09243046.2018.1434731
- Yokozeki T, Ogasawara T, Ishikawa T. Nonlinear behavior and compressive strength of unidirectional and multidirectional carbon fiber composite laminates. Compos Part A. 2006;37:2069–2079.
- Toray Carbon Fibers America. TORAYCA T800S. (Toray Technical data sheet, No. CFA–019).
- Ueda M, Saito W, Imahori R, et al. Longitudinal direct compression test of a single carbon fiber in a scanning electron microscope. Compos Part A. 2014;67:96–101.
- Ueda M, Akiyama M. Compression test of a single carbon fiber in a scanning electron microscope and its evaluation via finite element analysis. Adv Compos Mater. DOI:10.1080/09243046.2018.1433506