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Engineering plastics polyester

Acrylic ESTER POLYMERS Acrylonitrile POLYMERS Cellulose esters). Engineering plastics (qv) such as acetal resins (qv), polyamides (qv), polycarbonate (qv), polyesters (qv), and poly(phenylene sulfide), and advanced materials such as Hquid crystal polymers, polysulfone, and polyetheretherketone are used in high performance appHcations they are processed at higher temperatures than their commodity counterparts (see Polymers containing sulfur). [Pg.136]

Derivatives of CPD have also been incorporated into these resins. CPD and 2-butene-l,4-diol have been condensed in ethanol and catalyticaHy hydrogenated in situ to give 2,3-bis(hydroxymethyl)bicyclo[2.2.1]heptane (51). This latter compound is used as a chain extender in polyesters for engineering plastics (52). [Pg.434]

Aroma.tic-AUpha.tic Polyester Resins. Unlike most other classes of engineering plastics, which are made by only a few manufacturers, aromatic-aHphatic polyester resins are produced and compounded by several dozen firms (66). The aHphatic polyester resin marketplace is characterized by wide product differentiation and competition. Some firms make only a few hundred tons per year and presumably retain profitabiHty because of the avadabiHty of low cost monomer and the simplicity of the processes employed. Low investment and low manufacturing costs are possible even for smaH-volume operations. [Pg.267]

Aortal Aery Me ABS Alkyd Alloy /Blands Barrier Resin CeliAwie Diallyl Phthalates Engineering Plastics Epoxies Fluorepdlymars Liquid Crystal Melamine Nitrile Resins Nylon Phenolic Polyamlde-lmide Polycarbonate polyester Polyethylene Polyimictes Polypropylene Polyurethanes PVC... [Pg.12]

Special mention must be made of poly(lactic acid), a biodegradable/bio-resorbable polyester, obtained from renewable resources through fermentation of com starch sugar. This polymer can compete with conventional thermoplastics such as PET for conventional textile fibers or engineering plastics applications. Hie first Dow-Cargill PLA manufacturing facility is scheduled to produce up to 140,000 tons of Nature Works PLA per year beginning in 200245 at an estimated price close to that of other thermoplastic resins U.S. l/kg.46 Other plants are planned to be built in the near future.45... [Pg.29]

This class of polyesters consists of four major commercial polymers and their copolymers, namely PET, PTT, PBT, and PEN (see Table 2.1). They compete for engineering thermoplastics, films, and fibers markets with other semicrystalline polymers, such as aliphatic polyamides, and for some other applications with amorphous engineering plastics such as polycarbonate. The syntheses of PET and PBT, detailed in numerous reviews and books,2-5 are described in Sections 23.2.2 and 2.3.2.1. [Pg.44]

As can be deduced from plant purchases, the PRC is still at the formative stage where emphasis is on producing only the most basic petrochemicals. No plants were purchased for producing dibasic acids (phthalic and maleic anhydrides, etc.) and fluro-carbon or tetrafluoro ethylene or some of the advanced engineering plastics like ABS polyacetals, polycarbonates, polyimides or any other unsaturated polyesters. Another important area of low Chinese activity is thermoplastics for space and defense applications. ... [Pg.336]

Poly(3-hydroxyalkanoate)s have potential for application to engineering plastics endowed with biodegradable nature. One of the synthetic approaches to the polyesters is the ring-opening polymerization of -substituted /3-lactones which can be effectively produced by ring-expansion carbonylation of epox-... [Pg.234]

The continuous process is appropriate for the large-scale production of polyesters used in bottle manufacture. Currently, reactors with capacities of more than 600 t/d have been employed. The discontinuous technology based on tumble dryers allows for the successful production of specialities on a smaller scale, particularly for engineering plastics and with respect to the fiber industry. This route is preferred due to its flexibility, simple process control and the excellent quality of the final product. It is, however, restricted by the volume of the reactors, which is generally limited to 44 m3. [Pg.196]

Aromatic polyesters -as engineering resins [ENGINEERING PLASTICS] (Vol 9)... [Pg.71]

The most successful application of the RIM-process is in the production of polyurethane-based materials. Other systems, such as composites based on polycaproamide, epoxy resins, and unsaturated polyesters can also be processed by reactive injection molding. New reactive systems have also been specially created for the RIM-process260 because of the exceptional opportunities it offers for manufacture of finished articles from engineering plastics with a high modulus of elasticity and impact strength. The automotive industry, which is the main customer for RIM-articles, can utilize this technology to manufacture of massive parts such as body panels, covers, wings, bumpers and other made of newly developed plastics. [Pg.179]

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See also in sourсe #XX -- [ Pg.116 , Pg.117 ]



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