- Very high maximum allowable service temperature in air (220°C continuously, up to 260°C for short periods of time)
- High mechanical strength, stiffness and creep resistance, also at elevated temperatures
- Excellent chemical and hydrolysis resistance
- Excellent wear & frictional behaviour
- Very good dimensional stability
- Physiologically inert (suitable for food contact)
- Excellent resistance to high energy radiation (gamma- and X-rays)
- Good UV-resistance
- Inherent low flammability
- Good electrical insulating and dielectric properties
PPS (polyphenylene sulfide) products offer the broadest resistance to chemicals of any advanced engineering plastic. They have no known solvents below 200 °C (392 °F) and offer inertness to steam, strong bases, fuels and acids. Minimal moisture absorption and a very low coefficient of linear thermal expansion, combined with Quadrant's proprietary stress relieving processes, make these PPS products ideally suited for precise tolerance machined components. In addition, PPS products exhibit excellent electrical characteristics and are inherently flame retardant.
Components used in high pressure liquid chromatography are fabricated from Techtron PPS stock shapes due to its chemical inertness. (Prior materials: PEEK, Stainless Steel, Titanium)
Socket assemblies extensively machined from Techtron PPS plate are used during high power / high speed testing of semiconductor packages. (Prior material: Vespel® PI)
Retaining rings used to retain wafers in chemical-mechanical polishing equipment are fabricated from Techtron PPS.
40% Glass-Reinforced Quadrant® PPS
This product is the most recognized PPS. It is compression molded and offers better dimensional stability and thermal performance than Techtron PPS and maintains its strength to above 220 °C (425 °F).
Precision machined, 40% Glass-reinforced Techtron PPS components allow high efficiency in a broad range of chemical pump environments. (Prior material: Stainless Steel)
Bearing-Grade Techtron® PPS
This grade is an internally lubricated and carbon fiber reinforced compression molded PPS offering a low coefficient of thermal expansion and uncompromised chemical resistance. It is well suited for and wear applications or when an electrically conductive material is required.
Rings made of Bearing-grade Techtron PPS eliminate galling and corrosion problems in centrifugal mining pumps, and allow closer running clearances -- reducing recirculation and increasing efficiency. (Prior material: Bronze)
Techtron® HPV PPS
Techtron HPV PPS (colour: deep blue) demonstrates an excellent combination of properties including wear resistance, load-bearing capabilities and dimensional stability when exposed to chemicals and high temperature environments.
Techtron HPV PPS is found in applications where PA, POM, PET and other plastics fall short or where PI, PEEK and PAI are over-engineered and a more economical solution must be found.
Thanks to the uniformly dispersed internal lubricant, Techtron HPV PPS exhibits an excellent wear resistance and a low coefficient of friction. It overcomes the disadvantages of virgin PPS caused by a high coefficient of friction and of a glass fiber reinforced PPS which causes premature wear of the counterface in moving-part applications.
Techtron HPV PPS can be used in all kinds of industrial equipment such as industrial drying and food processing ovens (bearings, rollers, ...), chemical process equipment (pump-, valve & compressor components) and electrical insulating systems.
Techtron HPV PPS (rods, plates, tubes) is available as a "Food Grade".
All Quadrant-EPP's PPS products offer dimensional stability and strength at moderate temperatures. They are rated for continuous service to 220 °C (425 °F), but strength and stiffness vary based on temperature and grade. Unreinforced Techtron PPS is generally not recommended for wear applications. Products like Duratron® PAI or Ketron® PEEK are better selections for high temperature wear applications. When designing with compression molded grades, it is important to note its relatively low elongation and impact strength.