Page 420 - Engineered Interfaces in Fiber Reinforced Composites
P. 420
Subject index 40 1
transverse tensile test 62, 72-73 Weibull probability of Failure 106
triaxial stress 280 wet oxidation 187
triaxial tension 306 wet-spinning 196
tungsten core 216 wettability 5, 7-8, 175, 191, 201, 205, 212,
tungsten fiber 45 216, 226
tungsten substrate 214 whiskerization 187, 189
tungsten wire-copper matrix system 280 wide-angle X-ray diffraction 199
turbostratic BN layer 222 wide-angle X-ray scattering (WAXS) 17,
Twaron fiber 196 32
two rail shear test 71 width tapered double-cantilever-beam
two-way debonding 149 (WTDCB) test 77
Wilhelmy balance method 36
ultrahigh modulus polyethylene fiber 202 Wilhelmy slide technique 34
ultrahigh molecular weight (UHMW) work hardening 58
polyethylene 3, 202 work of adhesion 7-8, 50
ultrasonic C-scan 342 work of matrix shearing 247
ultrasonic horn 293 wrapping 347
uniaxial tension 69
unloading path 80 X-ray diffraction 212, 214
unstable crack. propagation 82 X-ray monochromator 26
X-ray photoelectron spectroscopy
van der Waal force 6, 14, 184 (XPS) 20, 24, 177, 205, 210, 287
Vickers microhardness indenter 57 X-ray photon energy 24
vinyl 14, 175, 295 X-ray radiography 342
vinylester matrix composite 200 XA 1 fiber 108
visco-elastic coating 96 XA 100 fiber 104, 108
viscosity 8, 285, 293
viscous fluid 285 yield strength 316, 337
Young-Dupre equation 8
warpage 313 Young's modulus 45, 66, 303
water absorption 180 Young's modulus ratio 50, 95, 97, 136,
water resistant bond 180 150
wavelength 2 1
weak interface-bond layer; 306 zirconia-based matrix 222
weaving 352 [ *45"], tensile test 62, 69
Weibull modulus 48, 106 [IO"] off-axis tensile test 62, 70
