FKM explained

For other uses see FKM (disambiguation).

FKM is a family of fluorocarbon-based fluoroelastomer materials defined by ASTM International standard D1418,[1] and ISO standard 1629.[2] It is commonly called fluorine rubber or fluoro-rubber. FKM is an abbreviation of Fluorine Kautschuk Material.[3] All FKMs contain vinylidene fluoride as the common monomer, to which different other monomers are added for specific types and functionalities, fitting the desired application.

Originally developed by DuPont (under the brand name Viton, now owned by Chemours), FKMs are today also produced by many other companies, including: Daikin (Dai-El),[4] 3M (Dyneon),[5] Solvay S.A. (Tecnoflon),[6] HaloPolymer (Elaftor),[7] Gujarat Fluorochemicals (Fluonox),[8] and several Chinese manufacturers. Fluoroelastomers are more expensive than neoprene or nitrile rubber elastomers. They provide additional heat and chemical resistance.[9] FKMs can be divided into different classes on the basis of either their chemical composition, their fluorine content, or their cross-linking mechanism.

Types

On the basis of their chemical composition FKMs can be divided into the following types:

Cross-linking mechanisms

There are three established cross-linking mechanisms used in the curing process of FKMs.

Properties

Fluoroelastomers provide excellent high temperature (up to 500°F or 260°C[11]) and aggressive fluids resistance when compared with other elastomers, while combining the most effective stability to many sorts of chemicals and fluids such as oil, diesel, ethanol mix or body fluid.

The performance of fluoroelastomers in aggressive chemicals depends on the nature of the base polymer and the compounding ingredients used for molding the final products (e.g. o-rings). Some formulations are generally compatible with hydrocarbons, but incompatible with ketones such as acetone and methyl ethyl ketone, ester solvents such as ethyl acetate, amines, and organic acids such as acetic acid.

They can be easily distinguished from many other elastomers because of their high density of over 1800 kg/m3, significantly higher than most types of rubber.[12] [13] [14]

Applications

Because of their outstanding performance they find use in a number of sectors, including the following:

They are suitable for the production of wearables, due to low wear and discoloration even during prolonged lifetimes in contact with skin oils and frequent exposure to light, while guaranteeing high comfort and stain resistance;[15]

The automotive industry represents their main application sector, where constant reach for higher efficiencies push manufacturers towards high-performing materials.[16] An example are FKM o-rings used as an upgrade to the original neoprene seals on Corvair pushrod tubes that deteriorated under the high heat produced by the engine, allowing oil leakage. FKM tubing or lined hoses are commonly recommended in automotive and other transportation fuel applications when high concentrations of biodiesel are required. Studies indicate that types B and F (FKM- GBL-S and FKM-GF-S) are more resistant to acidic biodiesel. (This is because biodiesel fuel is unstable and oxidizing.)

FKM O-rings have been used safely for some time in SCUBA diving by divers using gas blends referred to as nitrox. FKMs are used because they have a lower probability of catching fire, even with the increased percentages of oxygen found in nitrox. They are also less susceptible to decay under increased oxygen conditions.

While these materials have a wide range of applications, their cost is prohibitive when compared to other types of elastomers, meaning that their adoption must be justified by the need for outstanding performance (as in the aerospace sector) and is inadvisable for low-cost products.

FKM/butyl gloves are highly impermeable to many strong organic solvents that would destroy or permeate commonly used gloves (such as those made with nitriles).

Precautions

At high temperatures or in a fire, fluoroelastomers decompose and may release hydrogen fluoride. Any residue must be handled using protective equipment.

See also

References

External links

Notes and References

  1. Web site: ASTM D1418 - 21 Standard Practice for Rubber and Rubber Latices—Nomenclature. 2021-06-20. www.astm.org.
  2. Web site: ISO 1629:2013. 2021-06-20. ISO. en.
  3. Schuster . Jens . Lutz . Johannes . Shaik . Yousuf Pasha . Yadavalli . Venkat Reddy . 2022-10-01 . Recycling of fluoro-carbon-elastomers – A review . Advanced Industrial and Engineering Polymer Research . Recycling of Rubbers . en . 5 . 4 . 248–254 . 10.1016/j.aiepr.2022.08.002 . 251658624 . 2542-5048. free .
  4. Web site: Fluoroelastomers . DaikinChemicals.com . 2021 . Osaka . . 5 March 2021.
  5. Web site: 3M Fluoropolymers. 20 June 2021.
  6. Web site: Tecnoflon FKM & PFR FFKM . Solvay.com . 2021 . Brussels . . 5 March 2021.
  7. Web site: Fluoroelastomers (FKM & FFKM) . HaloPolymer.com . Moscow . . 2021 . 5 March 2021.
  8. Web site: Fluonox FKM . Fluonox.co.in . 2021 . Panchmahal, India . Gujarat Fluorochemicals Ltd. (GFL) . 5 March 2021.
  9. Schuster . Jens . Lutz . Johannes . Shaik . Yousuf Pasha . Yadavalli . Venkat Reddy . 2022-10-01 . Recycling of fluoro-carbon-elastomers – A review . Advanced Industrial and Engineering Polymer Research . Recycling of Rubbers . en . 5 . 4 . 248–254 . 10.1016/j.aiepr.2022.08.002 . 251658624 . 2542-5048. free .
  10. Web site: Base Resistant FKM Technology in Oilfield_Seals . dead . 16 July 2009 . 16 July 2011 . https://web.archive.org/web/20110716172417/http://www.swjagels.com/uploads/Base_Resistant_FKM_Technology_in_Oilfield_Seals.pdf .
  11. Web site: Fluoroelastomer Polymers from Precision Associates. 2021-06-20. Precision Associates, Inc..
  12. Web site: Properties and Characteristics - Urethanes / Rubbers MISUMI USA: Industrial Configurable Components Supply. 2021-06-20. us.misumi-ec.com.
  13. News: Application And Classification Of Teflon .
  14. Web site: Density of Solid Materials. 2021-06-20.
  15. Web site: Meeting Consumer Wearables Demands with Fluoroelastomers. 2021-06-20. www.viton.com. en.
  16. Web site: Hertz. Dan jr.. Fluoroelastomer Development. 20 June 2021. SEALS EASTERN.