A unit-cell model of textile composite beams for predicting stiffness properties

Ishikawa, 1982, Stiffness and strength behavior of woven fabric composites, J. Mater. Sci., 17, 3211, 10.1007/BF01203485 Ishikawa, 1982, Elastic behavior of woven hybrid composites, J. Comp. Mater., 16, 2, 10.1177/002199838201600101 Ishikawa, 1983, In-plane thermal expansion and thermal bending coefficients of fabric composites, J. Comp. Mater., 17, 92, 10.1177/002199838301700201 Ishikawa, 1983, Thermoelastic analysis of hybrid fabric composites, J. Mater. Sci., 18, 2260, 10.1007/BF00541828 Ishikawa, 1983, One dimensional micromechanical analysis of woven fabric composites, AIAA J., 21, 1714, 10.2514/3.8314 Yang, 1987, Performance maps of textile structural composites, 5, 5.579 Ma, 1986, Elastic stiffness of three-dimensional textile structural composites, 404 Foye, 1993, Approximating the shear field within the unit cell of a fabric reinforced composite using replacement elements, NASA CR-189597 Whitcomb, 1991, Three-dimensional stress analysis of plane weave composites, 417 Yoshino, 1982, Inner stress analysis of plane woven fiber reinforced plastic laminates, Bull. JSME, 25–202, 485, 10.1299/jsme1958.25.485 Dasgupta, 1990, Thermoelastic properties of woven-fabric composites using homogenization techniques, 1001 Whitney, 1973, Shear correction factors for orthotropic laminates under static load, J. Appl. Mech., 40, 302, 10.1115/1.3422950 B.V. Sankar and R.V. Marrey A unit cell analysis for predicting the [A], [B], [D] matrices of a textile composite plate 2nd edn. Technical Note CAC-TN-92-01 Center for Advanced Composites, University of Florida, Gainesville, FL, USA