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Polyphenylene sulfide

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Polyphenylene sulfide

Polyphenylene sulfide (PPS) is an organic polymer consisting of aromatic rings linked by sulfides. Synthetic fiber and textiles derived from this polymer resist chemical and thermal attack. PPS is used in filter fabric for coal boilers, papermaking felts, electrical insulation, film capacitors, specialty membranes, gaskets, and packings. PPS is the precursor to a conductive polymer of the semi-flexible rod polymer family. The PPS, which is otherwise insulating, can be converted to the semiconducting form by oxidation or use of dopants.[1]

Polyphenylene sulfide is an engineering plastic, commonly used today as a high-performance thermoplastic.[2] PPS can be molded, extruded, or machined to tight tolerances. In its pure solid form, it may be opaque white to light tan in color. Maximum service temperature is 218 °C (424 °F). PPS has not been found to dissolve in any solvent at temperatures below approximately 200 °C (392 °F)[citation needed]. An easy way to identify the compound is by the metallic sound it makes when struck.

Manufacturers and trade names

PPS is marketed by different brand names by different manufacturers. The major industry players are China Lumena New Materials, Solvay, Kureha, SK Chemicals, Celanese, DIC Corporation, Toray Industries, Zhejiang NHU Special Materials, SABIC, and Tosoh.[3] Other manufacturers include Chengdu Letian Plastics, Lion Idemitsu Composites, and Initz (a joint venture of SK Chemicals and Teijin).[4]

The following are examples of brand names by manufacturer and PPS type:

  • Tedur, Albis Plastic, linear type
  • DIC.PPS, DIC Corporation, linear and cross-linked
  • DURAFIDE, Polyplastics Co. Ltd, linear type
  • ECOTRAN, INITZ, distributed and compounded via A. Schulman
  • Fortron, Ticona, linear type
  • Petcoal, Tōsō
  • Therma-Tech TT9200-5001, PolyOne Corporation
  • Ryton, Solvay Specialty Polymers, linear and cross-linked
  • Torelina Toray
  • NHU-PPS, Zhejiang NHU Company Ltd., linear type and cross-linked

Fiber characteristics

PPS is one of the most important high temperature thermoplastic polymers because it exhibits a number of desirable properties. These properties include resistance to heat, acids, alkalies, mildew, bleaches, aging, sunlight, and abrasion. It absorbs only small amounts of solvents and resists dyeing.

Production

The Federal Trade Commission definition for sulfur fiber is "A manufactured fiber in which the fiber-forming substance is a long chain synthetic polysulfide in which at least 85% of the sulfide (—S—) linkages are attached directly to two (2) aromatic rings."

The PPS (polyphenylene sulfide) polymer is formed by reaction of sodium sulfide with p-dichlorobenzene:

ClC6H4Cl + Na2S → 1/n [C6H4S]n + 2 NaCl
Hill and Edmonds, developers of PPS

The process for commercially producing PPS (Ryton) was initially developed by H. Wayne Hill Jr. and James T. Edmonds at Phillips Petroleum Company.[5] NMP is used as the reaction solvent because it is stable at the high temperatures required for the synthesis and it dissolves both the sulfiding agent and the oligomeric intermediates.

Linear, high-molecular-weight PPS that is capable of being extruded into film and melt spun into fiber was invented by Robert W. Campbell.[6]

The first U.S. commercial sulfur fiber was produced in 1983 by Phillips Fibers Corporation, a subsidiary of Phillips 66 Company.[1]

References

  1. ^ a b David Parker, Jan Bussink, Hendrik T. van de Grampel, Gary W. Wheatley, Ernst-Ulrich Dorf, Edgar Ostlinning, Klaus Reinking, "Polymers, High-Temperature" in Ullmann's Encyclopedia of Industrial Chemistry 2002, Wiley-VCH: Weinheim. doi:10.1002/14356007.a21_449
  2. ^ "Chevron Phillips Technical Library".
  3. ^ "Polyphenylene Sulfide (PPS) Market Analysis by Application (Automotive, Electronics & Electrical, Industrial, Coatings) and Segment Forecasts to 2022". {{cite web}}: Missing or empty |url= (help)
  4. ^ "Global Polyphenylene Sulfide (PPS) Market 2012-2022 - Research and Markets". Research and Markets. April 19, 2016.
  5. ^ H Wayne Hill Jr., James T. Edmonds, to the Phillips Petroleum Company Research Center (Bartlesville, Oklahoma, US). Patent 3,354,129, 1963. issued November 21, 1967
  6. ^ Robert W. Campbell to the Phillips Petroleum Company Research Center (Bartlesville, Oklahoma, US). Patent 3,919,177, 1974 issued November 11, 1975