Page 416 - Mechanics Analysis Composite Materials
P. 416
Subject index 40 1
exponential approximation 322 fiber orientation angle after the
extension-shear coupling coefficient 46 deformation I94
extension-twisting coupling effect 249 fiber placement technology 24
fiber processability 15
fabric carbon<arbon composite 337 fiber properties 82
fabric composites 208, 209, 276-277, 304, fiber sensitivity to damage 66
338, 375 fiber strength 62, 82
fabric count 209 fiber strength deviation 64
fabric layers 205 fiber strength in compression I12
fabric weave 209 fiber volume fraction 55, 66, 79, 84, 91,
fabric-epoxy composites 376 96, 106,208, 304
facings 249-250 fiber with a crack 61
failure criteria 293 fiber-matrix adhesion strength I19
failure criteria for an elementary composite fiber-matrix interaction 58, 77
layer/ply 271 fiber-matrix interface 80
failure criteria of approximation type 273 fiberglass composites I80
failure criterion 271, 282, 378 fiberglass fabric 23
failure envelope 27 I, 275-276, 278, fiberglass fabric composite 209
282-283 fibcrs 9, 55
failure mechanism 95 fibers bending 107
failure mode 113, 272-273, 278, 280, fibers for advanced composites 6, 10
299-300 fibers microbuckling 107
failure mode under longitudinal fibers orientation angles 365, 378
compression 106 fibrous technology 22
failure modes of the unidirectional com- filament winding 24, 26, 184, 256, 30 1,
posite under in-plane pure shear 100 352
failure modes of unidirectional rings 102 filament wound composite pressure
failure of longitudinal plies 174 vessel 121, 123, 140
failure of the fibers 115, 176, 179 filament wound fiberglass pressure
failure of the laminate 376 vessel 299-300
failure of the matrix 179, 197, 297 filament wound glass-epoxy pressure
failure surface 271-275 vessel 331
failure under compression along the filament wound membrane shells of
fibers 103 revolution 379
failure under transverse compression 113 filament wound pressure vessel 371
fatigue curve 337 fill direction 375
fatigue diagram 337, 339 fill yarns 207-208
fatigue failure 339 filled materials 9
fatigue fracture 336, 340 finite element method 135
fatigue strength 80, 180, 336, 338 first-order micromechanical model 1 18,
fiber bending stiffness 112 307
fiber buckling 107 first-order microstructural model of a
fiber defects 76 hybrid unidirectional ply 114
fiber elasticity modulus 68 first order microstructural model 308
fiber failure 97, 102 first order model of a unidirectional
fiber fraction 91 PlY 85
fiber fragmentation test 77 first-order model of a ply 84, 90, 92, 304
fiber ineffective length 77 fixture for transverse tension and com-
fiber modulus 82, 86 pression of unidirectional strips 104
