|Product||Dimensions||Material||Hardness (Shore A)||Certification||Stock|
|O-ring Black||174 mm x 3 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||105 mm x 4 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||215 mm x 4 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||365 mm x 6 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||75.58 mm x 5.33 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||78 mm x 3 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||34 mm x 3 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||716 mm x 8.4 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||240 mm x 4 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||531 mm x 6 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||185 mm x 4 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||65 mm x 5.5 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||24.3 mm x 3 mm||IIR Butyl||90 Shore A||Nee|
|O-ring Black||86 mm x 3.5 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||32.93 mm x 3.53 mm||IIR Butyl||95 Shore A||Nee|
|O-ring Black||20.30 mm x 2.62 mm||IIR Butyl||90 Shore A||Nee|
Polyisobutene, also known as PIB or polyisobutene, is the homopolymer of isobutylene, or 2-methyl-1-propene, on which butyl rubber is based.
Butyl rubber is produced by polymerization of approximately 98% isobutylene with approximately 2% isoprene. Polyisobutylene is structurally similar to polypropylene, but it has two methyl groups that are substituted on each other carbon atom instead of one. Polyisobutylene is a colorless to slightly yellow visco-elastic material. It is generally odorless and tasteless, although it may have a slight characteristic odor.
After isobutylene and polyisobutylene were already discovered, it was later developed into butyl rubber in 1937 by researchers William J Sparks and Robert M Thomas in the Standard Oil of New Jersey laboratory in Linden, NJ. Today, most of the worldwide supply of butyl rubber is produced by two companies. Exxonmobil and Polymer Corporation.
In the 1950s and 1960s, halogenated butyl rubber (halobutyl) was developed, in the chlorinated (chlorobutyl) and brominated (bromobutyl) variants, with considerably higher curing speeds and covulcanization with other rubbers such as natural rubber and styrene-butadiene rubber. Halobutyl is today the most important material for the inner linings of tubeless tires.
• Excellent low gas permeability
• Good flexibility
• Good electrical properties
• Good chemical resistance
• Good moisture resistance
• Good wear resistance
• It can function for a longer time at -50 degrees to +120 degrees
• It has good ozone and aging resistance
• Excellent air impermeability
• Good flex properties
• Is known for its high degree of gas tightness
• Good weather resistance
• Resistant to acids and alkalis oxidation sunlight
Downsides of IIR:
- Cannot be used with mineral oils
On this page we offer our range of 90 Shore A O-Rings. Search for your specific O ring by using the filters on the left of the page or take your time and browse our wide range of our products. When you can not find the product you are looking for in our 90 Shore A made from IIR, please send us a Direct Enquiry. Together we can discuss the specifications and find the right product for you.