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Synthetic polymers nanocomposites

In terms of nanocomposite reinforcement of thermoplastic starch polymers there has been many exciting new developments. Dufresne [62] and Angles [63] highlight work on the use of microcrystalline whiskers of starch and cellulose as reinforcement in thermoplastic starch polymer and synthetic polymer nanocomposites. They find excellent enhancement of properties, probably due to transcrystallisation processes at the matrix/fibre interface. McGlashan [64] examine the use of nanoscale montmorillonite into thermoplastic starch/polyester blends and find excellent improvements in film blowability and tensile properties. Perhaps surprisingly McGlashan [64] also found an improvement in the clarity of the thermoplastic starch based blown films with nanocomposite addition which was attributed to disruption of large crystals. [Pg.293]

Preparation of CNF/Synthetic Polymer Nanocomposite Materials by Surface-Initiated Graft Polymerization... [Pg.496]

As one of the possible applications of the present CNF film, authors have studied the surface-initiated ring-opening graft polymerization of cyclic monomers from the CNF film to prepare new CNF/synthetic polymer nanocomposite materials (Fig. 14.8]. [Pg.496]

Preparation ofCNF/Synthetic Polymer Nanocomposite Materials 499... [Pg.499]

Keywords Biosensor Lithography Microbiochip Microfabrication Molecularly imprinted polymer Nanocomposite Nanofabrication Nanomaterial Synthetic receptor... [Pg.83]

This volume is including information about thermal and thermooxidative degradation of polyolefine nanocomposites, modeling of catalytic complexes in the oxidation reactions, modeling the kinetics of moisture adsorption by natural and synthetic polymers, new trends, achievements and developments on the effects of beam radiation, structural behaviour of composite materials, comparative evaluation of antioxidants properties, synthesis, properties and application of polymeric composites and nanocomposites, photodegradation and light stabilization of polymers, wear resistant composite polymeric materials, some macrokinetic phenomena, transport phenomena in polymer matrix, liquid crystals, flammability of polymeric materials and new flame retardants. [Pg.434]

Graphene-polymer nanocomposites share with other nanocomposites the characteristic of remarkable improvements in properties and percolation thresholds at very low filler contents. Although the majority of research has focused on polymer nanocomposites based on layered materials of natural origin, such as an MMT type of layered silicate compounds or synthetic clay (layered double hydroxide), the electrical and thermal conductivity of clay minerals are quite poor [177]. To overcome these shortcomings, carbon-based nanofillers, such as CB, carbon nanotubes, carbon nanofibers, and graphite have been introduced to the preparation of polymer nanocomposites. Among these, carbon nanotubes have proven to be very effective as conductive fillers. An important drawback of them as nanofillers is their high production costs, which... [Pg.598]

FIGURE 4.1 Schematic illustration of the synthetic process of polymer nanocomposites. (A) Direct mixing of the two... [Pg.108]

The cellulose based materials that are used as nano-reinforcements are cellulose nanocrystals (i.e. whiskers and nanospheres), nanofibrillated cellulose, regenerated cellulose nanoparticles and electrospun nanofibers. A wide range of polymer matrices have been used to form cellulose nanocomposites. Synthetic polymers such as polypropylene, poly(vinyl chloride) (PVC) [102], waterborne epoxy [103], waterborne polyurethane [104], polyurethane [105], poly-(styrene-co-butyl acrylate) [106], poly(oxyethylene) [107], polysiloxanes [108], polysulfonates [109], cellulose acetate butyrate [110,111], poly(caprolactone) [112], poly(viny 1 alcohol) [113] and poly (vinyl acetate) [114]. Different biopolymers such as starch-based... [Pg.34]

This is a very common method for the preparation of graphene/conjugated polymer nanocomposites. In a typical synthetic procedure, surface-modified graphene or GO can be dispersed in acidic water and /or surfactant solution followed by the addition of monomer. It was then stirred obeying a certain conditions to disperse filler in the solvent and monomer homogeneously. Finally, the initiator (generally peroxides are used as initiator) is added to initiate the polymerization reaction at a certain temperature. Aniline, pyrrole, thiophene, 3,4-ethylenedioxythiophene, etc. can be polymerized by this method [73-80]. [Pg.232]

PPy nanocomposites have been extensively reported in the literatme [261-267]. In the case of inorganic nanoparticles/conducting polymer nanocomposites, various inorganic nanomaterials including silica, palladium, platinum, and maghemite have been formed via inclusion techniques using both chemical and electrochemical approaches [261]. Multifunctional nanocomposites could be fabricated by the judicious choice of synthetic techniques and inorganic materials. [Pg.217]

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See also in sourсe #XX -- [ Pg.352 , Pg.353 , Pg.354 ]



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