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Polyvinyl chloride, oxidation

Unplasticized polyvinyl chlorides (type I) have excellent resistance to oxidizing acids other than concentrated and to most nonoxidizing acids. Resistance is good to weak and strong alkahne materials. Resistance to chlorinated hydrocarbons is not good. Polyvinyhdene chloride, known as Saran, has good resistance to chlorinated hydrocarbons. [Pg.2457]

Cellulose Esters Epoxy Resins Lignins Polystyrene Poly (2-vinyl pyridine) Polyvinyl Chloride Polymethyl methacrylate Polyphenylene Oxide Phenolics Polycarbonate Polyvinyl Acetate, etc. Polyvinyl butyral SBR rubber, etc., etc. [Pg.161]

Property ASTM Test Phenolics Foamedin Syntactic Place Castable Polyvinyl Chloride Rigid Closed Cell Phenylene Oxide Foamable Resin Polycarbonate Polystyrene Medium-Density Foam Polystyrene Molded Extruded Polyurethane Rigid Closed Cell... [Pg.497]

Another advantage cited for organic electronics is their perceived low environmental impact and high expected consumer safety. This assumption is generally based on the notion that plastics are easily recycled and are considered safe to humans and animals. However, the materials used are often completely new compositions with poorly understood health and safety attributes. The assumption that all plastics are completely safe for humans is inaccurate, as is exemplified by recent concerns about the toxicity of polyvinyl chloride (PVC).39 In contrast, most inorganic nanoparticle materials are already on the consumer market and have extensive historical data on their safety in a variety of applications. Some materials, such as zinc oxide, are even considered reasonably safe for ingestion and therefore are commonly used in food and cosmetics. However, the health effects and interactions of nanoparticles on the human body are still a topic of debate.40... [Pg.383]

INCOMPATIBILITY DS2 is a corrosive material and because of its content, it is incompatible with some metals (e.g., cadmium, tin and zinc) some plastics (e.g., Lexan, cellulose acetate, polyvinyl chloride, Mylar, and acrylic) some paints wool leather oxidizing materials (e.g., Super Tropical Bleach or High Test Hypochlorite) and acids. [Pg.468]

NHE OCP ONO OPS PCD PDS PL PLE PMMA PP PP PS PSG PSL PTFE PVC PVDF normal hydrogen electrode (= SHE) open circuit potential oxide-nitride-oxide dielectric oxidized porous silicon photoconductive decay photothermal displacement spectroscopy photoluminescence photoluminescence excitation spectroscopy polymethyl methacrylate passivation potential polypropylene porous silicon phosphosilicate glass porous silicon layer polytetrafluoroethylene polyvinyl chloride polyvinylidene fluoride... [Pg.246]

Antimony has few other uses except as an alloy to harden other materials. One recent development was to add antimony oxide to polyvinyl chloride (PVC pipe) to act as a flame retardant. [Pg.219]

Abbreviations for plastics ABS, acrylonitrile-butadiene-styrene CPVC, chlorinated poly vinyl chloride ECTFE, ethylene-chlorotrifluoroethylene ETFE, ethylene-tetrafluoroethylene PB, polybutylene PE, polyethylene PEEK, poly ether ether ketone PFA, perfluoroalkoxy copolymer POP, poly phenylene oxide PP, polypropylene PVC, polyvinyl chloride PVDC, poly vinylidene chloride PVDF, poly vinylidene fluoride. [Pg.77]

Chlorine (from the Greek chloros for yellow-green ) is the most abundant halogen (0.19 w% of the earth s crust) and plays a key role in chemical processes. The chlor-alkali industry has been in operation since the 1890s and improvements in the technology are still important and noticeable, for example, the transition from the mercury-based technology to membrane cells [60]. Most chlorine produced today is used for the manufacture of polyvinyl chloride, chloroprene, chlorinated hydrocarbons, propylene oxide, in the pulp and paper industry, in water treatment, and in disinfection processes [61]. A summary of typical redox states of chlorine, standard potentials for acidic aqueous media, and applications is given in Scheme 2. [Pg.281]

Other compatible commercial systems are as follows polystyrene (PS) and polyphenylene oxide (PPO) polyvinyl chloride (PVC) and nylon 66 PVC and acrylonitrile-butadiene rubber (NBR) and PS and polycarbonate (PC) (up to 60% PC). [Pg.97]

Arcites are rocket propellants developed recently in the US by Atlantic Research Corp, Alexandria, Virginia. They usually contain oxidizers(sueh as AN or NH4C104), binders (such as polyvinyl chlorides) and plastici-zers(such as dibutyl sebacate)... [Pg.477]

Mitsubishi Kasei introduced a process to manufacture isononyl alcohol, an important PVC (polyvinyl chloride) plasticizer, via the hydroformylation of octenes (a mixture of isomers produced by dimerization of the C4 cut of naphtha cracker or FCC processes).95 First a nonmodified rhodium complex exhibiting high activity and selectivity in the formation of the branched aldehyde is used. After the oxo reaction, before separation of the catalyst, triphenylphosphine is added to the reaction mixture and the recovered rhodium-triphenylphosphine is oxidized under controlled conditions. The resulting rhodium-triphenylphosphine oxide with an activity and selectivity similar to those of the original complex, is recycled and used again to produce isononanal. [Pg.379]

Highlighting some of these post-phenolic developments, we saw polyvinyl chloride introduced in 1927, acrylics in 1936, nylon in 1938, and fluorocarbon in 1943. ABS (acrylonitrile-butadiene-styrene) was introduced in 1948, acetal in 1956, polycarbonate in 1957, polyphenylene oxide in 1964, and polysulfone in 1965. [Pg.10]

Scurlock et al (Ref 3) claim that the presence of approx 40% free metallic Th or Th hydride in a propint formulation will maximize the impulse obtained from a fixed volume of propint by burning to yield CO. Th oxide and free H2. Compn requirements include an oxidizer such as Amm perchlorate, added in sufficient quantity to give an oxidn ratio of 0.48—0.60 (The ratio being defined as Q/[0+C+2Th], where O, C and Th are the number of atomic equivalents of 0, C and Th in the compn). A typical formulation would include Th powder (ca 40), polyvinyl chloride (ca 7), dioctyl phthallate (ca 8), AP (ca44) and a wetting agent (ca 0,25%)... [Pg.717]


See other pages where Polyvinyl chloride, oxidation is mentioned: [Pg.175]    [Pg.138]    [Pg.2463]    [Pg.7]    [Pg.69]    [Pg.654]    [Pg.341]    [Pg.832]    [Pg.47]    [Pg.44]    [Pg.197]    [Pg.171]    [Pg.186]    [Pg.184]    [Pg.399]    [Pg.254]    [Pg.172]    [Pg.645]    [Pg.659]    [Pg.115]    [Pg.374]    [Pg.82]    [Pg.152]    [Pg.265]    [Pg.17]    [Pg.82]    [Pg.1618]    [Pg.482]    [Pg.152]   
See also in sourсe #XX -- [ Pg.244 ]




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Oxidation chloride

Oxide chlorides

Polyvinyl chloride

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