PFA Tube Shop


PFA (perfluoroalkoxy) is an ultra-tough yet flexible fluoropolymer that combines the advantages of both FEP and PTFE, offering conventional melt processability while offering higher use temperatures and chemical resistance. Read the Best info about Klik voor meer informatie over PFA tube Shop.

High-purity grades from our portfolio are an ideal solution for critical fluid transfer applications, with their molecular structures helping reduce chemical extraction, defend against ionic contamination, and offer support when working with highly corrosive chemicals.


PFA tubing excels at meeting all these temperature requirements, from the very coldest temperatures to extreme ones. Thanks to its fluoropolymer’s heat stability and tolerance to high temperatures, this flexible material makes an excellent choice when working with gases, solvents, or chemicals that heat up. Furthermore, its precision-maintaining nature helps manufacturers maintain quality production cycles.

PFA tubing is chemically inert, meaning that it won’t react with any substances that would usually attack other tubes, including solid mineral acids, inorganic bases, and organic solvents – though molten alkali and fluorine will eventually make contact.

Biotechnology companies often rely on this tubing to transport chemicals between storage and fermentation containers. With its clear exterior, this tubing allows biotech professionals on the manufacturing floor to track liquid flow more accurately as they monitor it to identify any issues or blockages within their system.

PFA tubing has long been relied upon by semiconductor, laboratory, environmental, and pharmaceutical industries as a reliable means to maintain process fluid purity during transportation. Ultra-pure solvents are vital in these fields to achieve high yield levels; due to their exceptionally high chemical resistance and shallow level of extractable in PFA material, contaminants don’t make their way into finished products.


PFA (perfluoroalkoxy) tubing combines the best attributes of both FEP and PTFE, offering high-temperature resistance, working pressure tolerance, and an easy visibility feature that makes blockages easily identifiable for technicians.

PFA tubing is widely utilized by pharmaceutical and microelectronics industries. Pharmaceutical firms rely on PFA tubing because it ensures chemical purity during its entire journey, while its corrosion resistance makes it suitable for lab environments containing solid acids such as sulfuric acid.

PFA tubing stands out among other plastics by resisting oxidation caused by oxygen presence in solutions and can alter the consistency and stability of products. PFA does not react as strongly with oxygen as other plastics do and prevents this issue.

PFA tubing stands up well to oxidation and moisture, making it an excellent choice for electrical applications that involve the insulation of wires or conducting heat. Furthermore, its low relative permittivity/dispersion factor enables it to remain flexible across a range of temperature variations. PFA is often preferred over polystyrene as a choice for high-purity chemicals or distribution lines due to its flexibility across temperature ranges.


PFA (perfluoroalkoxy) is one of the most advanced fluoropolymer materials, commonly recognized for its nonstick coating on Teflon (r) cookware, but it has numerous applications within the chemical industry as a weather-resistant rigid material ideally suited for fluid processing equipment.

PFA stands out among fluoropolymers by being extrudable into tubing, making it suitable for a wide range of chemical industry applications such as liquid transportation devices and semiconductor manufacturing. Due to its transparency, users can view internal fluid transport situations, which aids quality control; PFA tubing can even serve as a replacement for copper tubing in high-temperature environments.

Chemical resistance is another advantage of polyurethane tubing, making it suitable for pharmaceutical companies where preserving material purity is critical. It can withstand corrosive solid chemicals like nitric and phosphoric acids without suffering damage. This feature makes this tubing particularly suitable for pharmaceutical operations.

PFA also boasts excellent insulating properties that make it suitable for wire harness insulation applications. It is commonly used to protect sensitive cables from abrasion and contamination and acts as a practical jacket for fiber optic communication devices; in addition, dry lubrication techniques use PFA as part of dry lubrication processes that keep components moving smoothly.


The purity of tubing is of vital importance in industrial applications that utilize sensitive chemicals, especially when readings require accurate readings or produce predictable outcomes. Any contamination could lead to inaccurate readings and flawed outcomes for researchers; thus, scientists must select an inert and durable tube-like PFA that offers superior purity levels capable of withstanding harsh chemicals and corrosion-causing environments.

PFA plastic films are non-odorous and non-wetting materials with no leaching or absorptive properties, providing no leaching into groundwater supplies and zero leaching or absorption effects. Their low reactivity ensures the safe transport of even highly corrosive chemicals without damage to other materials – making PFA an excellent choice for pharmaceutical and environmental applications, such as chemical transfer or air quality monitoring.

PFA stands out among fluoropolymers by being capable of withstanding higher temperatures and pressures, making it an excellent material choice for fluid-handling applications such as fuel lines. Furthermore, its smooth surface finish also serves to lubricate wire-feeding processes without creating frictional forces on wire feeders.

PFA’s high purity makes it an excellent choice for semiconductor manufacturing, as our Versilon HP PFA Coax tubing has earned SEMI F-57 certification and meets industry standards. This high-purity tubing boasts an advanced molecular structure that prevents ionic and metallic contamination as well as high levels of chemical extractability; furthermore, its transparency allows technicians to spot blockages or any potential issues without disassembling systems easily.

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