Polyisobutylene adhesives adhesion

Because high-molecular weight polyisobutylene is an inert hydrocarbon polymer, a very small amount of major tackifiers and oils can be dissolved in polyisobutylene. Consequently, a common polyisobutylene adhesive is composed of both high- and low-molecular weight polyisobutylene, which is also the major reason for the relatively low tack and adhesion of polyisobutylene-based adhesives. 

The advantage of a polyisobutylene adhesives is its chemical inertness thus the stability of drugs in this adhesive is better than that of other adhesives. However, the solubility of drugs is usually lower than those of SIS and acrylic adhesives. 

One mechanism for doing this is to use a transdermal patch. This is essentially an adhesive plaster with the drug mixed into the adhesive. Polyisobutylene adhesives are often used for this purpose. The drug then diffuses out of the polymer and through the skin at a preplanned rate. Of course this only works for drugs that can be absorbed through the skin. 

Other Uses. Large quantities of hydrocarbon resins are used in mastics, caulks, and sealants (qv). Polymers for these adhesive products include neoprene, butyl mbber, polyisoprene, NR, SBR, polyisobutylene, acryHcs, polyesters, polyamides, amorphous polypropylene, and block copolymers. These adhesives may be solvent or water-borne and usually contain inorganic fillers. 

Polyisobutylene is produced ia a range of mol wts, and has found a host of uses. The low mol wt Hquid polybutenes have appHcations as adhesives, sealants, coatings, lubricants, and plasticizers, and for the impregnation of electrical cables (7). Moderate mol wt polyisobutylene was one of the first viscosity-iadex modifiers for lubricants (8). High mol wt polyisobutylene is used to make uncured mbbery compounds, and as an impact additive for thermoplastics. 

Other polymers used in the PSA industry include synthetic polyisoprenes and polybutadienes, styrene-butadiene rubbers, butadiene-acrylonitrile rubbers, polychloroprenes, and some polyisobutylenes. With the exception of pure polyisobutylenes, these polymer backbones retain some unsaturation, which makes them susceptible to oxidation and UV degradation. The rubbers require compounding with tackifiers and, if desired, plasticizers or oils to make them tacky. To improve performance and to make them more processible, diene-based polymers are typically compounded with additional stabilizers, chemical crosslinkers, and solvents for coating. Emulsion polymerized styrene butadiene rubbers (SBRs) are a common basis for PSA formulation [121]. The tackified SBR PSAs show improved cohesive strength as the Mooney viscosity and percent bound styrene in the rubber increases. The peel performance typically is best with 24—40% bound styrene in the rubber. To increase adhesion to polar surfaces, carboxylated SBRs have been used for PSA formulation. Blends of SBR and natural rubber are commonly used to improve long-term stability of the adhesives. 

One of the shorter-term applications is the use of protective films on vehicles for shipment from the manufacturer to the dealers. These protective films are typically polyolefins coated with a removable adhesive for easy application and removal without leaving hard to clean adhesive residue on the vehicle. Several adhesives have been reported for this type of application, including the less common polyisobutylene-based PSAs [139]. A possible advantage of combining a polyolefin backing with a polyisobutylene-based adhesive is that the protective... 

The elastomers considered in this section have been selected considering the most commonly used in rubber base adhesives natural rubber butyl nibber and polyisobutylenes styrene-butadiene rubber nitrile rubber polychloroprene rubber (neoprene). Typical properties of these rubbers are shown in Table 2. 

Butyl rubber (BR) and polyisobutylene (PIB) are widely used in adhesives as primary elastomeric binders and as tackifiers and modifiers. The main difference between these polymers is that butyl is a copolymer of isobutylene with a minor amount of isoprene (which introduces unsaturation due to carbon-carbon double bonds), while polyisobutylene is a homopolymer. 

All grades of regular butyl rubber are tacky, rubbery and contain less unsaturation than natural rubber or styrene-butadiene rubber. On the other hand, low molecular weight grades of polyisobutylene are permanently tacky and are clear white semi-liquids, so they can be used as permanent tackifiers for cements, PSAs, hot-melt adhesives and sealants. Low molecular weight polyisobutylenes also provide softness and flexibility, and act as an adhesion promoter for difficult to adhere surfaces (e.g. polyolefins). 

Cohesive strength of these adhesives can be modified by blending butyl rubber and polyisobutylene. Higher strength is obtained by using high molecular weight PIB or butyl rubber. On the other hand, blends of butyl rubber or PIB with chlorinated butyl rubber show improved cure properties. 

P. Huber, BelgP 644290 (1964), claims polystyrene and/or polyisobutylene (3-5%) can be used as a gelling agent for inflammable hydrocarbons other org liquids, such as CS2. Depending on the intended use, the compositions can be made shock-resistant, adhesive, and/or productive of thick black smoke... 

P.W. Pretzer and R.P. Sweet, Silicone pressure sensitive adhesive composition containing functionalized polyisobutylene, US Patent 5 939 477, assigned to Dow Coming Corporation (Midland, MI), August 17,1999. 

Polyisobutylene fractions of particular molecular weights are very tacky and are used as adhesives for pressure-sealing tapes. 

The question immediately raised is would this technique portray an opposite or negative adhesion response if applied to a polymer blended system where no interfacial bonding could be present Such a system would be cis-polybutadiene and high molecular weight polyisobutylene restricted to that portion of the blend system where polyisobutylene is the minor dispersed phase in cis-polybutadiene. A high molecular weight polyisobutylene [L-300 Vistanex (Enjay Chemical Co.)] was compounded with zinc oxide, sulfur, and TMTDS and then dissolved in hexane. cis-Polybutadiene (Phillips Chemical Co.) was also mixed with... 

Three classes of PSAs used most widely in transdermal systems are polyisobutylene (PIB), polyacrylate, and polydimethylsiloxane (silicone). More recently, hydrophilic adhesive compositions, hydrogels composed of high-molecular-weight polyvinylpyrrolidon (PVP) and oligometric polyethylene oxide (PEO), have been shown to be compatible with a broad range of drugs and are used in several commercial products.60... 

Adhesives on the basis of a rubber are applied as watery dispersions, as solvents, or as solvent-free fluids. Sometimes the rubber is vulcanised after the gluing process, sometimes it remains uncured. Polymers often used are butyl rubber, polyisobutylene, and polychloroprene. A more recent development is the use of... 

Polyisobutylenes are easily made via the acid-catalyzed polymerization of isobutylene. The low molecular weight polymers are used as additives for gasoline and lubricating oils, whereas higher molecular weight polymers are used as adhesives, sealants, caulks, and protective insulation. 

Butyl Rubber. Butyl rubber is used in conjunction with other thermoplastic hydrocarbon rubbers (for example, polyisobutylene) to make pressure-sensitive hot-melt adhesives. Such formulations include also tackifying resins and oils. Adhesives of low viscosity are produced, and these may be applied by the hot-melt spray technique (see page 106). 

Occasionally, low molecular weight polymers are required as sealants, adhesives, or in rocket solid propellants. F. P. Baldwin and co-workers report on the manufacture of a low molecular weight carboxy terminated product made by depropagating ozonization of a higher molecular weight polyisobutylene. 

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