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
2000-08-04
2002-07-30
Buttner, David J. (Department: 1712)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Mixing of two or more solid polymers; mixing of solid...
C526S340400, C473S357000, C473S361000, C473S371000, C473S374000, C473S377000
Reexamination Certificate
active
06426387
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates generally to a golf ball core and more particularly to golf ball cores comprised of materials that optimize the performance properties of golf balls incorporating the cores.
Golf balls generally are made of a core and at least one cover layer surrounding the core. Balls can be classified as two-piece, multi-layer, or wound balls. Two-piece balls include a spherical inner core and an outer cover layer. Multi-layer balls include a core, a cover layer, and one or more intermediate layers. Wound balls include a core, a rubber string wound under tension around the core to a desired diameter, and a cover layer. For each of these types of ball, the performance of the ball depends in part on the properties of the core. The composition and resulting mechanical properties of the core are important in determining the ball's coefficient of restitution (C.O.R.), i.e., the ratio of the ball's post-impact to pre-impact speed, and its PGA compression, i.e., a measure of the deflection on the surface of the ball when a standard force is applied. A high C.O.R. improves ball speed and distance when hit, and generally, a high C.O.R. is achieved by having a high PGA compression.
Golf ball cores generally are made from blends of polybutadiene rubbers. As noted above, it is desirable that these cores have a high C.O.R. for optimum performance of the ball incorporating the core. It is the conventional wisdom that to achieve a high C.O.R. in ball cores, the cores should be comprised of polybutadiene rubber having a high content of 1,4 cis-polybutadiene (referred to as the “cis-content”) and high Mooney viscosity. Current practice favors use of materials with cis-content over 96% and Mooney viscosity around 50. Also, rubbers that are lanthanide-catalyzed, particularly neodymium-catalyzed, have been preferred for use in maximizing core C.O.R., while those catalyzed by other metals, such as cobalt, have not been thought of as best for high C.O.R. Other characteristics of rubbers used in ball cores generally have not been considered of importance in maximizing C.O.R.
However, use of these high cis-content, high-viscosity polybutadiene rubbers leads to processing difficulties during the manufacture of the ball cores. Also, use of lanthanide-catalyzed materials leads to processing difficulties not present in the use of, for example, cobalt-catalyzed rubbers. These difficulties are apparent in, for example, dispersing ingredient materials during rubber compounding processes and preshaping of the materials prior to molding processes. To overcome these difficulties, the high cis-content and high-viscosity lanthanide-catalyzed polybutadiene rubbers typically are blended either with polybutadiene rubbers having low cis-content and Mooney viscosity, or with other types of low viscosity rubber, such as trans-polybutadiene, polyisoprene, or low molecular weight liquid rubber. Blending with these rubbers improves ease of processing of the core material, but it also leads to lowering of the C.O.R. and the performance of the resulting golf ball.
There remains a need for a golf ball core having a high C.O.R. and good performance, without the processing difficulties associated with current materials generally used. The present invention fulfills this need and other needs, and provides further related advantages.
SUMMARY OF THE INVENTION
The present invention is embodied in a golf ball core incorporating a cobalt-catalyzed polybutadiene rubber having: a mean molecular weight of at least about 300,000; a molecular weight distribution of at most about 3 and preferably at most about 2.5; a 1,4 cis-polybutadiene content of at least about 90%, preferably at least about 94%, and most preferably at least about 96%; a Mooney viscosity of at most about 50, and a linearity index of at least about 0.8 and preferably at least about 0.85.
The present invention also is embodied in a golf ball core incorporating the cobalt-catalyzed rubber specified above and a polybutadiene rubber having a Mooney viscosity greater than about 50, and a cis content of at least about 96%. This second rubber preferably is catalyzed by cobalt, nickel, tin, or a lanthanide, most preferably by neodymium. In this embodiment of the invention, the ball core preferably incorporates up to about 50% of the second rubber, more preferably up to 40% of the second rubber, and most preferably up to 30% of the second rubber.
Ball cores of the present invention preferably have PGA compressions of from about 25 to 110, and more preferably from about 40 to 100. Ball cores within the scope of the present invention may be used in golf balls having wound thread layers, intermediate layers, multiple cores, or combinations of the three in various physical configurations. The specified cobalt-catalyzed polybutadiene rubber can be incorporated into inner cores, outer cores, or both. In a preferred embodiment, a golf ball has a core incorporating the specified cobalt-catalyzed polybutadiene rubber, a wound thread layer, an intermediate layer made from thermoplastic resin, and a cover layer. In another preferred embodiment, a golf ball has an inner core incorporating thermoplastic resin and an outer core incorporating the specified cobalt-catalyzed polybutadiene rubber.
The present invention also is embodied in a golf ball core comprising the above-specified cobalt-catalyzed polybutadiene rubber, and a neodymium-catalyzed rubber having a Mooney viscosity of about 63 and a 1,4 cis-polybutadiene content of at least about 97%.
Other features and advantages of the present invention should become apparent from the following detailed description of the invention.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The present invention is embodied in a core for a golf ball incorporating a cobalt-catalyzed polybutadiene rubber having specified material characteristics. The present invention also is embodied in a core for a golf ball further incorporating polybutadiene rubber having high cis content and high Mooney viscosity, catalyzed by cobalt, nickel, titanium, or a lanthanide, particularly neodymium.
As discussed above, prior practice in the manufacture of golf ball cores has been to focus on using high cis-content, high-viscosity, lanthanide-catalyzed butadiene rubber to achieve a high C.O.R., without considering other characteristics of the core materials. It has become surprisingly apparent that several other material properties, in combination with cis content, lead to a core having high C.O.R. and ease of processability. In the present invention, materials are selected outside the scope of those generally preferred for ball cores, based on consideration of these other material characteristics. These characteristics include the material's catalyzation, molecular weight, molecular weight distribution, Mooney viscosity, and linearity index. Molecular weight distribution of a polymer is defined as the ratio of the polymer's weight average molecular weight to its number average molecular weight. Linearity index is a measure of the ratio of branched polymer chains to linear polymer chains in a polymer. The linearity index (L.I.) of a polymer is determined by the following equation:
L.I.=(dilute solution viscosity)/(Mooney viscosity 1+4 @100° C./3.5)
0.3623
To resolve the difficulties in processing ball cores comprising high cis-content, high-molecular weight polybutadiene rubber without sacrificing the superior performance of these cores, the present invention uses polybutadiene rubbers having cis-content lower than that generally used in ball cores and high molecular weight, but low Mooney viscosity. The present invention is embodied in a golf ball core comprising a cobalt-catalyzed polybutadiene rubber having the following properties: a cis content of at least about 90%, preferably higher than about 94%, and most preferably higher than about 96%; a Mooney viscosity less than about 50; a weight-average molecular weight of about 300,000 or greater; a molecular weight distribution of less than about 3,
Buttner David J.
Caglar Oral
Taylor Made Golf Company Inc.
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