Table Of ContentIndex
Cooling rate, p. 108 Elastic-wave scattering, p. 1272
Corrugation sandwich panels, p. 526 Elastic work factor, p. 962
Crack propagation, p. 684 Elasticity analysis, p. 195
Cracked lap shear specimen, p. 962 Elasticity solutions, pp. 540, 572
Creep, pp. 1009, 1214 Elastomers, pp. 589, 830
Critical load, p. 272 Electronic packaging, p. 1493
Crystallinity measurements, p. 862 Energy release rate, pp. 962, 1077
Curing Environmental humidity, p. 1578
autoclave, p. 613 epoxy resins, pp. 613, 1030, 1428, 1465
optimal cycle, p. 613 Erosion, p. 21
optimization, p. 1352 Extension-shear coupling, p. 1762
partial, p. 613 Fabric, triaxial woven, p. 1428
simulation, p. 216 Fabric processing, p. 996
Cyclic degradation, p. 782 Failure
Damage, p. 352 analysis, p. 1257
accumulation, p. 1214 compression, pp. 83, 471, 572
anisotropic, p. 782 criterion, pp. 272, 436, 1257
cavitation erosion, p. 1522 fatigue, p. 491
composites, pp. 152, 408 kink-band, p. 471
impact, pp. 526, 1257 mechanisms, pp. 152, 272, 589
mechanisms, p. 782 mode, p. 272
modeling, p. 764 random, p. 1097
parameters, p. 152 stochastic, p. 1097
processing, p. 1214 strength, p. 40
volumetric strain, p. 782 theories, p. 471
Damkohler number, p. 613 Fastener hole defects, p. 2
Darcy’s law, p. 996 Fatigue, pp. 2, 272, 782
Debonding, p. 1678 failure, p. 491
Deformation, p. 195 tension-tension, p. 272
Delamination, pp. 2, 251, 272, 352, 436, Fiber/matrix interface, pp. 303, 572, 1030
526, 764, 962, 1097, 1443 Fiber optics, pp. 1618, 1663
crack, p. 684 Fabry-Perot, pp. 1618, 1663
growth, p. 436 strain sensors, pp. 1618, 1663
initiation, p. 272 temperature sensors, pp. 1618, 1663
multiple, pp. 1077, 1172 Fiber Reinforced Plastic (FRP),
propagation, p. 272 pp. 21, 352
Design-for-manufacture, p. 175 Fiber reinforced thermoplastics,
Dirichlet tesselations, p. 1128 pp. 59, 108
Doppler interferometry, p. 332 Fibers
Double cantilever beam (DCB) specimen, arrangement, p. 139]
p. 383 carbon, pp. 637, 1030, 1428, 1465
Double Torsion (DT), p. 921 clustering, p. 1128
Drive shafts, p. 702 coated, pp. 195, 589, 1114
Drop weight impact tests, p. 684 continuous, pp. 513, 1312
Dynamic elastic constants, p. 934 discontinuous, p. 1391
Edge singularity, p. 272 fracture, p. 1678
Effective modulus theories, p. 934 glass, p. 1li4
Elastic constants, p. 934 misalignment, p. 471
Elastic foundation, p. 383 modification, p. lll4
Elastic modulus, p. 782 (continued)
1788
Subject Index (continued) In-plane shear nonlinearity, p. 138
Fibers (continued) Interface
orthotropic, p. 637 fiber/matrix, pp. 303, 572
PAN/pitch-based carbon, p. 1739 layers, p. 1272
push-out, p. 1678 microfracture, p. 1678
reinforcement, p. 21 properties, p. 152
strength, p. 1214 strength, pp. 21, 303
Fickian diffusion, p. 1146 Interfacial thermal barrier, p. 637
Filament winding, p. 613 Interlaminar stress, p. 272
Finite element analysis, pp. 138, 332, Interlayers, p. 195
408, 436, 646, 702, 1214, 1238, Interphase, pp. 589, 830, 1030, 1678
1379, 1391 J-integral, p. 962
Finite strip method, p. 332 Kinking, p. 83
Flexed plates, p. 332 Laminate behavior, p. 152
Flow Laminate modelling, p. 152
in-plane, p. 996 Laminates, pp. 40, 1009
plastic, pp. 1009, 1545 beams, p. 806
Prendtl-Reuss, p. 1545 composite, pp. 83, 108, 216, 251, 272,
resin, p. 1695 436, 513, 684, 721
transverse, p. 996 crossply, p. 646
viscous, p. 1695 damage onset, p. 1443
Fluid-filled porous materials, p. 408 delamination, p. 1443
Force transmissibilities, p. 1598 indentation, p. 1443
Fracture, pp. 352, 383, 540, 782, 962 loading, p. 1443
bending, p. 1257 processing, p. 1695
fiber, p. 1678 thick section, p. 216
intralaminar, p. 921 Layer angle distribution, p. 1479
matrix, p. 1678 Linear work hardening, p. 1545
mechanics, pp. 436, 921, 1054, 1428 Manufacturing uncertainties, p. 175
mixed mode, p. 1054 Mass diffusion, p. 408
toughness, pp. 383, 684, 764, 1054 Materials processing, p. 613
Free edge, p. 272 Matrix
Galerkin finite element, p. 195 brittle, p. 540
Glass reinforced plastic material, p. 32 cracking, pp. 251, 436, 540, 764, 1054
Graphite/epoxy composites, pp. 216, fracture, p. 1678
684, 830 material, p. 21
Graphite-thermoplastic panels, p. 526 rubber-modified, p. 921
Heat shields, p. 408 thermoplastic, p. 862
Heat transfer, p. 613 Maxwell Garnett approach, extended,
Hertz law, p. 1443 p. 1203
Holographic interferometry, p. 332 Mechanical impedances, pp. 32, 1598
Impact Metallic particles, p. 1203
angle, p. 21 Microbuckling, pp. 83, 572
damage, pp. 526, 1257 Microcracking, p. 1030
low velocity, p. 684 Micromechanics, pp. 303, 589, 830,
non-penetrating, p. 764 1379, 1678
rigid ball, p. 1238 Moisture transport, p. 1146
test, p. 1238 Monte Carlo procedure, p. 721
Indentation law, p. 1238 Nondestructive evaluation, p. 1272
Inelasticity, p. 352 Non-Fickian transport, p. 1146
Index
Nonlinear systems, p. 195 flow, p. 1695
Notch sensitivity, p. 1257 injection, p. 1257
Optimality criterion method, p. 1479 polyester, p. 1114
Optimum interphase, p. 589 pressure, p. 1695
Optimum stress distribution, p. 195 thermoplastic, p. 21
PACM-12 polymer, p. 862 thermosetting, p. 21
annealing effects, p. 862 Resin transfer molding, pp. 613, 996
morphology, p. 862 Robust design, p. 175
multiple melting points, p. 862 Shear correction factor, p. 806
processing, p. 862 Shear strength, p. 303
thermal analysis, p. 862 Shear testing, p. 152
X-ray diffraction, p. 862 Sheet molding compound (SMC), p. 782
Parametric resonance, p. 1722 Silica particles, p. 1114
Pin bearing joint, p. 2 Silicon carbide, p. 152
Plane-strain compression, p. 921 Solid rocket motor nozzles, p. 408
Plastic flow, p. 1545 Splitting crack, p. 1054
Plastic potential, p. 1379 Statistical strength model, p. 944
Plastics, reinforced, p. 806 Stiffness reduction, p. 272
Plugging, p. 251 Strain
Poisson's ratio, p. 195 energy release rate, pp. 383, 646,
Poly(bis-4-4 ’-dicyclohexylmethane) 684, 1678
n-dodecane-dizmide, p. 862 crystallization, pp. 59, 108
Polymers, pp. 613, 1146, 1352 history, p. 1443
diffusion, p. 756 residual, pp. 59, 108
in marine environment, p. 756 sensor, p. 1618
Ji, p. 862 thermal, pp. 59, 108
PACM-12, p. 862 Strength
surfaces, p. 1203 bearing, p. 2
water transport in, p. 756 calculation, p. 944
Pore pressure, p. 408 compression, pp. 303, 1054, 1077, 1172
Postbuckling, pp. 138, 1077 failure, p. 40
Potential function, p. 1009 fiber, p. 1214
Prandtl-Reuss flow, p. 1545 interface, pp. 21, 303
Preforms model, p. 944
anisotropic, p. 996 residual, p. 272
fiber, p. 996 shear, p. 303
isotropic, p. 996 tensile, p. 1214
orthotropic, p. 996 transverse, p. 589
Prepregs, p. 613 Stress
Pultrusion, p. 613 concentrations, pp. 589, 944, 1272
Punch test, p. 251 crystallization, pp. 59, 108
Quasi-impact, p. 436 distribution, p. 1391
Quasi-static penetration model, p. 251 hydrostatic, p. 1379
Radiant heating, p. 408 intensity factor, pp. 383, 1054
Radius of curvature, p. 108 interlaminar, p. 272
Reinforced plastics, p. 806 moisture-induced, p. 1146
Reinforcing particles, p. 195 principal, p. 589
Reinforcing patch, p. 1257 residual, pp. 59, 108, 684, 830, 1338,
Residual strength, p. 272 1352, 1578
Resin (continued)
1790
Subject Index (continued) Thermoplastic resin, p. 21
Stress (continued) Thermosetting resin, p. 21
shear, pp. 195, 1428 Timoshenko beam theory, p. 806
tensile, p. 195 Torque capacity, p. 702
thermal, pp. 59, 108, 540, 684, 830, Transcrystalline layer, p. 862
1030, 1545 Transverse cracks, pp. 589, 646
torsional shear, p. 1428 Transverse load, p. 436
triaxial, p. 1338 Transverse strength, p. 589
Von Mises, p. 195 Tresca yielding and flow, p. 1545
Tensile testing, p. 152 Ultrasonics, pp. 934, 1272
Thermal conductivity, pp. 637, 1493 Vibrations, pp. 32, 1598
Thermal profile, p. 216 Viscoelastic analysis, p. 1097
Thermal strain, p. 59 Viscoelasticity, pp. 921, 1578
Thermal stress, pp. 59, 108, 540, 684, Viscosity simulation, p. 216
830, 1030, 1545 Work potential, p. 352
Thermoforming, p. 526 X-ray diffraction, pp. 862, 1338
Thermoplastic composites, p. 1009 X-ray radiography, p. 272
Thermoplastic matrices, p. 862 Young’s modulus, pp. 195, 1391
AUTHOR INDEX
Amateau, M. F., p. 1522 Dillard, D. A., p. 303
Andrews, S. D., p. 2 Ditri, J. J., p. 934
Argento, A., p. 1722 Donaldson, K. Y., p. 637
Averill, R. C., p. 589 Doxsee, L. E., p. 764
Avrashi, J., p. 332 Dunn, M. L., p. 1493
Barbero, E. J., pp. 806, 1214 Elms, K., p. 1193
Berthelot, J.-M., p. 1391 Ernst, H. A., p. 962
Bogan, S. D., p. 1272 Everett, R. K., p. 1128
Brou, K. A., p. 1391 Fang, C., p. 721
Cameron, J., p. 11l4 Fann, Y. J., p. 1238
Camponeschi, E. T., Jr., p. 471 Fenn, R. H., p. 1338
Carman, G. P., pp. 303, 589 Frassine, R., p. 921
Chamis, C. C., p. 1678 Fujita, A., p. 1428
Chan, A. W., p. 996 Fukunaga, H., p. 1479
Chang, F-K., p. 436 Gandhi, M. V., p. 175
Chang, I. Y., p. 1009 Gardner, S. D., p. 830
Chao, LLS. P.,.p. 175 Geil, P. H., pp. 216, 862, 886, 908
Chen, AA.. W.-L., pp. 862, 886, 908 Gillespie, J. W., Jr., p. 471
Chen, JJ.. L., p. 3799 Goree, J. G., p. 702
Chen, RR.. S., p. 1578 Gross, R. S., p. 702
Chou, zi T.-W., p. 1054 Guild, F. J., p. 646
Chu, J. H., p. 1128 Hackett, R. M., p. 830
Chung, I., p. 1009 Hahn, H. T., p. 1352
Cornwell, L. R., p. 1312 Hahn, T. A., p. 1545
Cupcic, A., p. 1391 Hamada, H., p. 1428
Davalos, J. F., p. 806 Hammond, D. A., p. 1522
Demain, A., p. 668 Hansen, J. S., pp. 59, 108
Index
Hasselman, D. P. H., p. 637 Mascia, L., p. 195
Hatta, H., p. 1493 Mital, S. K., p. 1678
Herrington, P. D., p. 491 Miyase, A., pp. 862, 886, 908
Hiemstra, D. L., p. 1030 Miyazaki, N., p. 21
Hill, S. C., p. 1762 Morgan, R. J., pp. 996, 1465
Hilton, H. H., p. 1097 Murthy, P. L. N., p. 1678
Hinders, M. K., p. 1272 Nakajima, Y., p. 1493
-Y., p. 782 Nassehi, V., p. 195
» Pp: 222 Neilson, H. C., p. 1598
P. 138 Ochoa, O. O., p. 2
Huang, K. ¥. 3: E2356 Ogin, S. L., p. 646
Ismail, Y., p. 1663 Owens, S. D., p. 2
Issi, J.-P., p. 668 Pagano, N. J., p. 540
Jegley, D., p. 526 Pavan, A., p. 921
Jen, M.-H. R., p. 272 Peddicord, K. L., p. 1312
Jih, C. J., p. 684 Penado, F. E., p. 383
Jones, A. M., p. 1338 Peppas, N. A., p. 1146
Kamat, S. V., p. 1714 Pitchumani, R., p. 613
Kau, Y. S., p. 272 Pittman, C. U.. Jr., p. 830
Kaw, A. K., p. 540 Pluvinage, P., p. 152
Kelly, K. W., p. 1214 Poursartip, A., p. 1695
Kim, K.-S., pp. 1618, 1663 Queeney, R. A., p. 1522
Kinsella, M., p. 195 Quenisset, J. M., p. 152
Kollar, L., p. 1618 Rauch, B. J., p. 332
Krempl, E., p. 973 Reddy, J. N., p. 589
Reifsnider, K. L., pp. 303, 572, 589
Kubomura, K., p. 1739
Kutlu, Z., p. 436 Rhee, J., p. 332
Lagoudas, D. C., p. 83 Rhee, K. Y., p. 962
Lakes, R. S., p. 1193 Rink, M., p. 921
Lakhtakia, A., p. 1203 Rockett, T., p. 756
Lamborn, M. J., p. 352 Roscoe, A. J., pp. 32, 1598
Larive, D. E., p. 996 Rose, J. L., p. 934
Lee, Cc” Y.. p. IS? Rowlands, R. E., p. 332
Eee E5..\p: E256 Rubbrecht, P., p. 764
Lee, M. C., p. 1146 Sabbaghian, M.., p. 491
Lee, S.-B., p. 756 Saleh, A. M., p. 83
Lee, S-W. R., p. 251 Schapery, R. A., p. 352
Lesko, J. J., p. 303 Scholle, M., p. 764
Li, L., p. 764 Sehitoglu, H., p. 782
Lin, Sekine, H., p. 1479
Lin, Senor, D. J., p. 1312
Lin, Shanker, B., p. 1203
Liu, Shyu, K., p. 1443
Liu, S., p. Sloan, F., p. 1606
Lopez-Anido, R., p. 806 Smith, G. D., p. 1695
Lu, X., p. 1257 Smith, P. A., p. 646
Lu, Y. P., pp. 32, 1598 Socie, D. F., p. 40
Maekawa, Z., p. 1428 Sottos, N. R., p. 1030
Maikuma, H., p. 1739 Springer, G. S., pp. 721, 1618, 1663
Mancharan, M.., p. 1714 (continued)
1792
Author Index (continued) Wang, J. Z., p. 40
Suemasu, H., pp. 1077, 1172 Wang, S. S., pp. 862, 886, 908
Sullivan, R. M., p. 408 Wells, G. M., p. 1338
Sun, C. T., pp. 251, 684, 1009, 1379 White, S. R., p. 1352
Takeda, N., p. 21 Wilkins, D. J., p. 471
Takei, T., p. 1493 Winckler, S. J., p. 1762
Taya, M., p. 1493 Wu, E., p. 1443
Thomas, J. R., Jr., p. 637 Xu, Y.L.;:p..572
Thompson, B. S., p. 175 Yang, S. H., p. 513
Tohgo, K., p. 1054 Yao, S.-C., p. 613
Tsai, H. S., p. 1578 Yeh, N.-M., p. 973
hi CY. ;p: BS Vi, S.;:p: a0o/
Tucker, W. C., p. 756 Zhang, Y., p. 1ll4
Twardowski, T. E., p. 216 Zheng, Q., p. 1465
Unger, W. J., pp. 59, 108 Zhu, Y. T., p. 944
Verpoest, I., p. 764 Zong, G., p. 944
Wang, A. S. D., p. 1054
