Fluoron PTFE fine powder F100 is a soft, white polymer made from an aqueous dispersion of PTFE. These fine powders have the lowest friction coefficient of all fluoropolymers and the highest heat resistance, chemical resistance, electrical properties and non-stick properties. It has the unique ability to shear a lubricating paste by extruding it into a bonded fiber matrix with useful structural integrity. Fluoron PTFE F100 is designed for machining with low compression ratios of 10:1 to 300:1. It aims to promote the production of high-quality, low-density tapes Processing suggestion PTFE F100 is extruded using liquid processing AIDS, such as naphtha. During the paste extrusion process, the powder is mixed with a lubrication agent and then compressed under light pressure (1.5-2.0 MPa[220-290 psi]) into a cylindrical preformed blank. The preformed blank is placed into the barrel of the paste extruder, where the composition is passed through the finishing mold under high pressure to produce foaming, tubing or wire coating. After extrusion, the product has a low density but coherent fiber structure. PTFE F100 is usually further processed under heat into solid resin products, such as tubes. Heating is carried out in two steps, either simultaneously with extrusion or separately. Usually the lubricant must be removed first by heating in a temperature range of 100-300°C(212-572°F). A sintering step is then performed to melt the resin above its melting point of approximately 342°C(648°F) and produce a non-porous solid PTFE resin.
Constant-fluron PTFE particle resin G401 is a free-flowing white powder composed of relatively large particles that is ideal for isobaric molding. Its most unique features are improved moldability at lower pressures and improved surface smoothness of finished parts. PTFE G401 is often used to form thicker sheets, and sometimes for the stamping of rods and pipes with thicker cross sections. Properly processed products made from high purity PTFE G401 have the superior properties typical of fluoroplastic resins Processing suggestion Fluoron PTFE is processed in two steps: preforming and sintering. The powder is first pressed into a preformed shape close to the desired molded product and then consolidated at temperatures higher than the melting point of the pure powder crystal using precise heating (sintering) and cooling cycles. The performance of the finished product depends on the bottle failure pressure, sintering time and temperature, and cooling rate. PTFE is used to make relatively large objects in molds that can be manually filled. Small particles of resin do not flow properly in the automatic feeding system.
Everflon is a registered trademark of the C&F Group for its fluoropolymer resins.Everflon PTFE fluoropolymer resins are part of the C&F family of fluorine-based products that also includes Everflon FEPEverflon ETFE and verflontm PFA fluoropolymer resins and Everflontm PVDF fluoropolymers.These materials can be used to make a variety of articles having a combination of mechanical, electrical, chemical, temperature, and friction-resisting properties unmatched by articles made of any other material. Commercial use of these and other valuable properties combined in one material has established Everflontn resins as outstanding engineering materials for use in many industrial and military applications Everflon resins may also be compounded with fillers or reinforcing agents to modify their performance in use. The design and engineering data presented in this handbook are intended to assist the design engineer in determining where and how Everflontn resins may best beused. lt is recommended that the design engineer work closely with an experienced fabrica tor because the method of fabrication may markedly affect not only production costs, but also the properties of the finished article.
