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Processing, polymer poly

Industrial Process Polymer Poly styrene Foam ignited at hot-wire cutting process, due to high voltage setting for nichrome wire at Polystyrene Molding Plant... [Pg.1170]

Cationic monomers are used to enhance adsorption on waste soHds and faciHtate flocculation (31). One of the first used in water treatment processes (10) is obtained by the cyclization of dimethyldiallylammonium chloride in 60—70 wt % aqueous solution (43) (see Water). Another cationic water-soluble polymer, poly(dimethylarnine-fi9-epichlorohydrin) (11), prepared by the step-growth... [Pg.318]

The inability to process PTFE by conventional thermoplastics techniques has nevertheless led to an extensive search for a melt-processable polymer but with similar chemical, electrical, non-stick and low-friction properties. This has resulted in several useful materials being marketed, including tetrafluoro-ethylene-hexafluoropropylene copolymer, poly(vinylidene fluoride) (Figure 13.1(d)), and, most promisingly, the copolymer of tetrafluoroethylene and perfluoropropyl vinyl ether. Other fluorine-containing plastics include poly(vinyl fluoride) and polymers and copolymers based on CTFE. [Pg.363]

As with the polysulphones, the deactivated aromatic nature of the polymer leads to a high degree of oxidative stability, with an indicated UL Temperature Index in excess of 250°C for PEEKK. The only other melt-processable polymers in the same league are poly(phenylene sulphides) and certain liquid crystal polyesters (see Chapter 25). [Pg.604]

The process of adsorption of polyelectrolytes on solid surfaces has been intensively studied because of its importance in technology, including steric stabilization of colloid particles [3,4]. This process has attracted increasing attention because of the recently developed, sophisticated use of polyelectrolyte adsorption alternate layer-by-layer adsorption [7] and stabilization of surfactant monolayers at the air-water interface [26], Surface forces measurement has been performed to study the adsorption process of a negatively charged polymer, poly(styrene sulfonate) (PSS), on a cationic monolayer of fluorocarbon ammonium amphiphilic 1 (Fig. 7) [27],... [Pg.7]

The United States produces more than 7 billion kilograms of vinyl chloride annually. Most is converted to the polymer poly(vinyl chloride) (PVC), which is used to make piping, siding, gutters, floor tiles, clothing, and toys. Vinyl chloride is made in a two-step process. The balanced overall equation is as follows ... [Pg.385]

The ratio of the integrated currents for the first reduction wave of V2+ and the oxidation wave of the polythiophene from 0.4 V to 1.0 V vs. Ag+/Ag is about 4. This value means that upon oxidation of poly(I) one electron is withdrawn from four repeat units in the backbone of the polymer upon scanning to +1.0 V vs. Ag+/Ag. At this potential, the polythiophene achieves its maximum conductivity (vide infra). The level of oxidation to achieve maximum conductivity is consistent with the result reported by Gamier and co-workers (31-33) that the doping level of oxidized polythiophene is about 25%, but the Garnier work did not establish that the 25% doping level corresponds to maximum conductivity. Scheme III illustrates the electrochemical processes of poly(I) showing reversible oxidation of the polythiophene backbone and reversible reduction of the pendant V2+ centers. [Pg.414]

Aromatic poly(benzothiazole)s are thermally and thermooxidatively stable and have outstanding chemical resistance and third-order nonlinear optical susceptibility. Aromatic poly(benzothiazole)s can be spun into highly-oriented ultrahigh strength and ultrahigh modulus fibers. However, this type of polymer is insoluble in most organic solvents. Therefore, hexafluoroisopropylidene units are introduced in the polymer backbone to obtain soluble or processable aromatic poly(benzothiazole)s. [Pg.147]

Stewart, M. E., Cox, A. J., and Naylor, D. M Reactive processing of poly(ethylene 2,5-naphthalene dicarboxylate)/poly(ethylene terephthalate) blends, Polymer, 34, 4060-4067 (1993). [Pg.107]

Auerbach, A. B. and Sell, J. W., Evaluation of poly(l,4-cyclohexylenedi-methylene terephthalate) blends for improved processability, Polym. Eng. Set, 30, 1041 (1990). [Pg.559]

Poly acetylenes. The first report of the synthesis of a strong, flexible, free-standing film of the simplest conjugated polymer, poly acetylene [26571-64-2], (CH), was made in 1974 (16). The process, known as the Shirakawa technique, involves polymerization of acetylene on a thin-film coating of a heterogeneous Ziegler-Natta initiator system in a glass reactor, as shown in equation 1. [Pg.35]

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