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IIR - short version

Polyisobutylene; but is commonly known as butyl rubber, because it is very similar in composition to natual rubber.

IIR - long version

Butyl rubber—also known as polyisobutylene and PIB (C4H8)n is a synthetic rubber, a homopolymer of 2-methyl-1-propene. Polyisobutylene is produced by polymerization of about 98% of isobutylene with about 2% of isoprene. Structurally, polyisobutylene resembles polypropylene, having two methyl groups substituted on every other carbon atom. It has excellent impermeability, and the long polyisobutylene segments of its polymer chains give it good flex properties. Polyisobutylene is a colorless to light yellow viscoelastic material. It is generally odorless and tasteless, though it may exhibit a slight characteristic odor.

TA synthetic rubber, or elastomer, polyisobutylene is impermeable to air and used in many applications requiring an airtight rubber. Polyisobutylene is used in making adhesives, agricultural chemicals, fiber optic compounds, caulks and sealants, cling film, electrical fluids, lubricants (2 cycle engine oil), paper and pulp, personal care products, pigment concentrates, for rubber and polymer modification, for protecting and sealing certain equipment for use in areas where chemical weapons are present, as a gasoline/diesel fuel additive, and even in chewing gum. The first major application of butyl rubber was tire inner tubes. This remains an important segment of its market even today.

Butyl rubber was first developed by BASF in 1931 and sold under the trade name Oppanol B. It was later developed in 1937, by researchers William J. Sparks and Robert M. Thomas, at Standard Oil's (which became Exxon in 1972) Linden, N.J. laboratory. Texas Petrochemicals and Lubrizol Corporation are one of the largest manufacturers of PIB in North America.

In 1950s and 1960s, halogenated butyl rubber (halobutyl) was developed, in its chlorinated (chlorobutyl) and brominated (bromobutyl) variant, providing significantly higher curing rates and allowing covulcanization with other rubbers like natural rubber and styrene-butadiene rubber. Halobutyl is today the most important material for inner tubes. The butyl rubber is vulcanized by elemental sulfur.


Fuel and lubricant additive
Polyisobutylene (in the form of polyisobutylene succinimide) has interesting properties when used as an additive in lubricating oils and motor fuels. Polyisobutylene added in small amounts to the lubricating oils used in machining results in a significant reduction in the generation of oil mist and thus reduces the operator's inhalation of oil mist. It is also used to clean up waterborne oil spills as part of the commercial product Elastol. When added to crude oil it increases the oil's viscoelasticity when pulled; causing the oil to resist breakup when it is vacuumed from the surface of the water.

As a fuel additive, polyisobutylene has detergent properties. When added to diesel fuel, it resists fouling of fuel injectors, leading to reduced hydrocarbon and particulate emissions. They are blended with other detergents and additives to make a "detergent package" that is blended into gasoline and diesel fuel to resist buildup of deposits and engine knock.

Polyisobutylene is used in some formulations as a thickening agent.


Polyisobutylene is usually used in basketballs. It is commonly called butyl rubber. It prevents the basketball from deflating.

Roof Repair

Butyl rubber sealant is used for rubber roof repair and for maintenance of roof membranes (especially around the edges). It is important to have the roof membrane fixed, as a lot of fixtures (i.e., air conditioner vents, plumbing and other pipes, etc.) can considerably loosen it.

Rubber roof is typically referred to a specific type of roofing materials that are made of Ethylene Propylene Diene Monomer (EPDM). The crucial component for the maintenance of the quality of such roofs is to avoid using harsh abrasive materials and petroleum-based solvents for their maintenance.

Gas Masks and Chemical Agent Protection

Butyl rubber is one of the most robust elastomers when subjected to chemical warfare agents and decontamination materials. It is a harder and less porous material than other elastomers such as natural rubber or silicon, but still has enough elastic quality to create an airtight seal. While Buytl rubber is still broken down when exposed to agents such as NH3 or certain solvents, it breaks down more slowly than similar elastomers. It therefore is one of the most robust meterials to create seals in gas masks and other protective clothing.



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