Index   297


              Ferrocene, 38–39                     aromatic fiber, 89–91
              FIB. See Focused ion beam (FIB)      carbon fibers, 85–89
              Fiber bundle, 158, 215               PVA fiber, 89
              Fiber helix angle, 137–138, 272      TRLs, 85
              Fiber packing fraction, 142, 144   matrix interfacial shear strength, 94–95
              Fiber tensile stress, 272–273      nano-sized carbon allotropies, 72–73
              Finite element model, 200–201      natural fibers, 71–72
              Flexible actuators, 9              perspectives, 95–96
              Flexible energy storage system, 243  properties
              Floating catalyst method, 4f, 7–8, 38–40, 42,   CNT-containing fibers, 81–85
                   46–47, 52–53, 54t, 103, 107–108,   interfacial stress, 73–74
                   112, 115–116, 120, 128–130, 172  nucleation/templating effects, 74–79
              Flyer spinning method, 23–24         PET, 74–76
              Focused ion beam (FIB), 143–144      polymer fibers, 73–74
              Foil strain gauges, 223–228        spinning technology, 72–73
              Forest-based yarns, 183–184        UHMW-PE and PVA fibers, 72
              Full-width of half-maximum (FWHM),   Intertube load transfer, 116–117,
                   63–64, 93                         196–197
              FWHM. See Full-width of half-maximum   Ionic liquid-based electrolyte, 248, 261
                   (FWHM)
                                               J
              G                                Johnson-Cook model, 167
              Gas phase pyrolysis method, 39–40  Joule heating, 281
              Gel polymer electrolyte, 253–254
              Gel spinning technique, 89       K
              Glass fiber, 142, 157, 167       Kevlar fiber, 71–72, 91
              Graphene oxide (GO), 117         Knot efficiency, 128–129
                                               Knot theory terminology, 274
              H                                Koh gel electrolyte, 247
              Hierarchically arranged helical fibers
                   (HHFs), 278–279             L
              High-sensitivity strain sensor, 221–222  Laser diffraction method, 139
              High-strength CNT yarn, 5–7      LDS. See Lithium dodecyl sulfate (LDS)
              High thermal conductivity metals, 174  Lennard-Jones potential, 192
              Human motion detection, 221–222  Lifting force, 278, 283
              Hyaluronic acid biopolymer, 287  Linear density, 47–48, 138–140, 142, 156,
              Hydrogen, 19–20, 39–40                 160
                                               Linking number, 274
              I                                Liquid-densified fibers
              Inorganic salts, 245               acetone-densified yarn, 147–149
              Interfacial shear stress, 191      solvent-densified yarn morphology,
              Internal defect distribution, 167      147–149, 150t
              Interphase structures, CNT-reinforced   TEM images, 147–149, 149f
                   polymer nanocomposites      Liquid-phase oxidation method, 107
               alignment, 93–94                Lithium dodecyl sulfate (LDS), 64–65
               artificial fibers/man-made fibers, 71–72  Load transfer, 174, 177, 184, 189–190,
               development, 79–81                    192–194, 196–197, 200–202
               dispersion, 91–92               Localized writhing, 273
               high-performance polymeric fibers  London dispersion force, 3–5