672                                                              Index

         Nanofibrous cathodes (Continued)   Nanopolymer fiber reinforced composites
           multimetal oxides, 351–354           (NPFRC)
           NFMO nanofiber, 354f               compression after impact tests, 40, 41f
           in situ synthetized Na 3 V 2 (PO4) 3 crystals,  conventional fibers, 33
             349                              GFRPs
           solvothermal synthesis, 351, 352f    interlaminar shear strength, 33, 35f
           vanadium phosphate nanostructures, 352f  tensile properties, 33, 35f
         Nanofibrous composite air filters    glass fiber-reinforced vinyl ester, 38–39
           fiber alignment, 555–556           montmorillonite, 37–38
           nonwoven air filters, 553          multiwall carbon nanotubes, 41
           packing density, 562–563           nanoclay-enhanced epoxy matrix, 44
           porosity, 562–563                  noncrimp glass fabric-reinforced clay/
           pressure drop, 553                   epoxy nanocomposites
           production methods                   flexural strength, 35–36, 37f
             electrospinning, 557–563           storage modulus, 35–36, 37f
             nonelectro fiber spinning techniques,  tensile strength, 35–36, 36f
             563–566                          treated jute fiber-reinforced biopol
           quality factor, 554–555              composites, 41–42
           reuse and cleanability, 556        untreated jute fiber-reinforced biopol
           slip flow regime, 553                composites, 41–42
           velocity profiles, 554f            vacuum assisted wet layup process, 33–35,
         Nanofillers, 29–30, 143, 240–241       36f
         Nanofiltration (NF), 408–409         woven glass fiber-reinforced laminates, 39
           membrane bioreactor, 413–414     Nanopolymer fiber-reinforced sandwich
           osmosis phenomenon, 414–415          composites (NPFRSC)
         Nanoforest technology, 635–636       CNTs, 51–52
         Nanoparticles (NPs), 29–30, 30f, 284–285,  damage analyses, 46–47, 49t
             635–636                          debond fracture toughness, 47, 50t
           dispersion of, 14                  experimental data, 45, 46t
           reinforced recycled thermoplastic  fracture pattern
             composites                         CNT core, 51–52, 52f
             recycled PVC/clay nanocomposite, 64  epoxy core, 51–52, 52f
             rHDPE, 64                        graphite/epoxy face sheet, 45–46
             RPET-OMMT system, 62, 63f        model prediction vs. experimental data, 49,
             rPET/organoclay nanocomposites, 63  51f
             rPMM, 64                         nanoclay foams, 47, 50f
           reinforced thermoplastic composites,  neat foams, 47, 50f
             60–62                            sandwich beams, 45–46, 46f
         Nanopolymer composites (NPC)       Nanopolymer natural fiber reinforced hybrid
           coefficient of friction, 30–31       composites
           coefficient of thermal expansion, 32–33,  epoxy-sisal fiber composites, 56
             33t                              flax fiber fabrics, 53
           elastic modulus values, 31–32, 32t  high-density polyethylene composites,
           hardness, 30, 31f                    53–55
           homogenous nanoclay/epoxy composites,  hybrid composite, storage modulus, 57–60,
             32                                 58–59f
           montmorillonite clays, 32–33, 32t  JPC composite, 56–57
           polyester resin, 32–33, 32t        soy protein concentrate resins, 53
           specific wear rate, 30–31, 31f     tensile modulus, 60, 61f