Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Mixing of two or more solid polymers; mixing of solid...
Reexamination Certificate
2000-05-11
2001-12-04
Nutter, Nathan M. (Department: 1711)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Mixing of two or more solid polymers; mixing of solid...
C525S232000, C525S235000, C525S240000, C525S241000
Reexamination Certificate
active
06326433
ABSTRACT:
FIELD OF INVENTION
This invention relates to isobutylene based polymers (IBP), particularly halogenated isobutylene based polymers, and more particularly to brominated butyl rubber of improved green strength and improved impermeability and methods for its preparation.
BACKGROUND OF THE INVENTION
Isobutylene based polymers have been blended with numerous compositions such as natural rubber in order to increase its various properties, such as elasticity, strength, air impermeability, etc. Natural rubber (NR) is known to crystallize upon extension and is known to have very high molecular weight fractions, both of which help in its green properties. Such properties are important in fabricating rubber articles from green compounds, particularly composites such as tires, but can be important in extruded items such as innertubes and molded articles such as pharmaceutical stoppers. Isobutylene based polymers are therefore blended with natural rubber when green properties need to be improved. However, green strength properties of isobutylene based polymers are defensive to those of natural rubber, particularly at elevated temperatures up to about 50° C. Addition of natural rubber reduces the barrier properties of IBP/NR blends significantly which is undesirable for applications requiring low permeability to gases, such as in tires and in bladder applications. Heat stability of cured compounds is also diminished in natural rubber blends.
Isobutylene based polymers, particularly halogenated isobutylene based polymers, and more particularly brominated butyl rubber are the primary compositions of most tire liners, heat resistant tubes, bladders and other commercially known products such as pharmaceutical ware. The term “butyl rubber” as employed herein is intended to refer to a vulcanizable rubbery copolymer containing, by weight, from about 85% to about 99.5% combined isoolefin having from 4 to 8 carbon atoms. Such copolymers and their preparation are well known. Halogenated butyl rubber, particularly brominated butyl rubber, is also well known. It may be prepared by treating a solution of butyl rubber, in an organic solvent, with bromine and recovering the brominated butyl rubber by contacting it with steam and drying the resulting aqueous slurry.
Brominated butyl rubber typically contains less than one bromine atom per carbon-carbon double bond originally present in the polymer or from about less than 3-wt. percent bromine. The Mooney viscosity of the halobutyl rubbers useful in the instant invention are measured at 125° C. (ML 1+8) range from about 20 to about 80, more preferably from about 25 to about 55, and most preferably from about 30 to about 50. It is a relatively chemically resistant, rubbery polymer which can be compounded and cured to produce synthetic rubber with an outstanding air impermeability, useful in making tire innerliners and innertubes.
Brominated butyl rubber has a greater degree of reactivity than butyl rubber, so that it can be blended with other unsaturated polymers and co-vulcanized therewith, which the unreactivity of butyl precludes. Brominated butyl rubber vulcanizates, however, show good air impermeability, heat aging characteristics and general chemical resistance. It finds one of its principal uses in the tubeless tire innerliners. Such liners are in effect thin sheets of rubber, adhered to the tire carcass by co-vulcanization with the rubbers comprising the tire carcass. The heat aging characteristics air impermeability and co-vulcanizability of brominated butyl rubber render it suitable for use in such tire innerliners. Other known uses for halogenated butyl rubber include white sidewall compounds for tires, heat resistant tubes and bladders.
A deficiency of butyl and halobutyl rubber is its lack of green strength. Green strength is a term applied to denote the strength, cohesiveness and dimensional stability of rubber compounds before they are vulcanized or cured. In addition, the present application includes the elongation characteristics of the uncured compounds as a valuation of green strength. Lack of green strength renders difficult the processing and molding of rubber compounds based on butyl rubber. For example, in the manufacture of tire liners, very thin sheets of butyl rubber compound have to be prepared, applied to the green tire carcass and then cured. If the butyl or halobutyl rubber compound is deficient in green strength, there is risk of rupturing the thin sheets unless very careful handling thereof is undertaken.
The prior art has addressed some of the aforementioned deficiencies. U.S. Pat. No. 4,256,857 discloses the improvement of green strength by treating the brominated butyl rubber with relatively small amounts of certain organic amine compounds. Examples of suitable amine compounds include N,N-dimethyl hexylamine, N,N-dimethyldodecylamine, N,N-dimethyloctadecylamine, N,N-diethyldecylamine and N,N-dimethylbenzylamine. These amine compounds have been found to provide green strength and allow the retention of good processing properties. While other amine compounds may be reacted with brominated butyl rubber to improve the strength of the rubber compound they generally also cause the rubber compound to be of inferior processing properties, which is believed to be due to the formation of permanent crosslinks. However, such a process requires extreme heating and time requirements that are not efficient or practical for quick application for compounding in industrial applications.
U.S. Pat. No. 5,162,409 to Morocskowski describes a rubber composition suitable for use in automobile tire treads wherein the composition comprises a halogenated isobutylene rubber which can be the sole rubber of the composition or one of a combination of rubbers. A preferred embodiment comprises a rubber component comprising 20 to 60 weight percent styrene/butadiene rubber, 20 to 60 weight percent butadiene rubber, and 10 to 30 weight percent of a halogenated rubber, a silica filler, and an organosilane cross-linking agent. It is disclosed that in a preferred embodiment, the rubber compositions comprise 10 to 30 parts per 100 parts rubber of untreated, precipitated silica employed with an effective amount of organosilane coupling agent, for example, 1 to 8 parts per hundred rubber. However, the green strength properties of the isobutylene rubber or blends thereof are not significantly improved.
The prior art has not addressed the full complement of green strength properties. The present application provides for a novel composition which addresses the present need for improved green strength.
SUMMARY OF THE INVENTION
In accordance with the present invention, an embodiment is directed to a blend comprising an isobutylene-based polymer and a semi-crystalline polymer (SCP) which improves green strength properties with reduced damage to barrier or oxidative heat aging properties. The semi-crystalline polymers are generally semi-compatible with isobutylene based polymers and have crystalline melting points below the temperatures used in the mixing and shaping operations. Another embodiment comprises a barrier membrane comprising an isobutylene based polymer and a semi-crystalline polymer wherein the semi-crystalline propylene polymer comprises a melting point of from about 25° C. to about 105° C. and a heat of fusion from about 9 J/g to about 50 J/g as determined by DSC.
In accordance with another embodiment of the present invention, a blend comprising an isobutylene based polymer and a semi-crystalline propylene polymer having a propylene content at least from about 75 weight percent.
In accordance with a further embodiment, a tire innerliner or innertube comprises a brominated butyl rubber polymer and a semi-crystalline polymer wherein the semi-crystalline propylene polymer comprises a melting point of from about 25° C. to about 105° C. and a heat of fusion from about 9 J/g to about 50 J/g as determined by DSC.
DETAILED DESCRIPTION OF THE INVENTION
In a broad embodiment of the present invention, a blend comprises an isobutylene-based elastomer and a semi-c
Datta Sudhin
Duvdevani Ilan
Qian Connie R.
Wang Hsien-Chang
ExxonMobil Chemical Patents Inc.
Faulkner Kevin M.
Nutter Nathan M.
Peebles Brent M.
Reidy Joseph F.
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