Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – At least one aryl ring which is part of a fused or bridged...
Reexamination Certificate
2001-09-22
2004-11-09
Buttner, David J. (Department: 1712)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
At least one aryl ring which is part of a fused or bridged...
C524S394000, C524S399000, C524S400000, C525S09200D, C473S357000, C473S371000, C473S372000, C473S373000, C473S377000
Reexamination Certificate
active
06815480
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to highly-resilient thermoplastic elastomer compositions, their manufacture and their use as a substitute for thermoset and thermoplastic materials, particularly in the manufacture of one-, two-, three-piece, and multi-layered golf balls, particularly to thermoplastic polymer blend compositions useful therein. These compositions are also useful as foamed materials in footware and other sport balls such as softballs.
2. Description of Related Art
Typically, thermoset materials such as polybutadiene rubber, cross-linked EVA, cross-linked SBS, and cross-linked urethanes have been used in applications where properties such as resilience, durability, and low hardness are needed. For example, polybutadiene rubber has traditionally been used in the cores and centers of golf balls.
There currently exist several types of premium golf balls, particularly three-piece balls, two-piece balls and multi-layered balls. “Three-piece” balls typically have a spherical molded center, having an elastomeric thread-like material wound around it, covered with either a thermoplastic or thermoset material. “Two-piece” balls typically have a spherical molded core covered with a thermoplastic material. “Multi-layered” balls typically have a core and one or more intermediate layers or mantles between the core and a cover.
The material used to mold the three-piece centers and the two-piece and multi-layer cores has traditionally been a thermoset rubber such as polybutadiene rubber. There are, however, major disadvantages in using thermoset rubbers such as the inability to recycle scrap materials and the need for complex multi-step manufacturing processes. There has been only limited success in attempts to replace the thermoset materials with more-easily-processed thermoplastic materials, the scrap of which can be recycled.
Also, three-piece balls, two-piece balls, and multi-layered balls are by their very nature more complicated and costly to manufacture than the long sought after one-piece golf ball. Attempts to make a premium one-piece ball have heretofore not been successful. Limited-flight range balls, however, have been produced from thermoset rubber and from certain thermoplastic material as set forth in U.S. Pat. No. 5,155,157.
U.K. Patent Application 2,164,342A describes one attempt to replace centers and cores and achieve a one-piece golf ball. It teaches moldable compositions comprising ionic copolymers (or potentially ionizable acid copolymers) blended with certain thermoplastic materials such as a polyether block copolyamide, polyether block copolyester and the like. Those compositions are said to be useful as three-piece centers, two-piece cores and one-piece solid golf balls, but they lack properties such as durability. Also, U.S. Pat. No. 5,155,157 describes a thermoplastic material for cores, centers and one-piece balls. The resins described in this patent can be molded into golf ball parts but the resulting balls are too hard and not resilient enough to perform as a premium golf ball and they are probably too expensive.
There still exists the need for a thermoplastic material that is resilient and durable enough with a low enough hardness or compression to be useful as a three-piece center, two-piece core, a one-piece golf ball, and in cores and mantles in a multi-layered golf ball in premium golf balls. Particularly, there is a need for such a material that is not too expensive.
SUMMARY OF THE INVENTION
The subject invention provides thermoplastic compositions having high resilience, methods of manufacturing such compositions, and products made therefrom, such as components of one-, two- and three-piece golf balls or multi-layered golf balls, sport balls and footware.
More specifically, the thermoplastic composition of this invention is a composition comprising (a) an ethylene, C
3−8
&agr;,&bgr;-ethylenically unsaturated carboxylic acid copolymer; (b) a high molecular weight, monomeric organic acid or salt thereof; (c) a thermoplastic elastomer polymer selected from copolyetheresters, copolyetheramides, block styrene polydiene thermoplastic elastomers, elastomeric polyolefins, and thermoplastic polyurethanes; (d) a cation source; and (e) a filler (optionally present). Preferably, component (b) is present at about 10 to about 45 weight percent (wt. %) of (a), (b) and (c) provided that component (b) does not exceed 50 wt. % of (a) plus (b); component (c) is present at about 1 to about 35 wt. % of (a), (b) and (c); and (d) is present at a level sufficient to neutralize 80 to 110 (preferably 90 to 110, or 95 to 110) percent of the combined acid content of (a) and (b). Component (e) is optionally added as needed to adjust density in a preferred range of up to 60 parts per 100 parts by weight of components (a) through (d).
The present invention further provides golf ball components, particularly cores, centers, and mantles (one or more layers between the cover and the central portion of ball) and one piece golfballs, comprising the compositions of (a) an ethylene, C
3−8
&agr;,&bgr;-ethylenically unsaturated carboxylic acid copolymer; (b) about 10 to about 45 weight percent (wt. %) of (a), (b) and (c) provided that component (b) does not exceed 50 wt. % of (a) plus (b) of a high molecular weight, monomeric organic acid or salt thereof; (c) about 1 to about 35 wt. % of (a), (b) and (c) of a thermoplastic elastomer polymer selected from copolyetheresters, copolyetheramides, block styrene polydiene thermoplastic elastomers, elastomeric polyolefins, and thermoplastic polyurethanes; (d) a cation source present at a level sufficient to neutralize 50 to 110 (preferably 80 to 110, 90 to 110, or 95 to 110) percent of the combined acid content of (a) and (b); and optionally (e) a filler in a preferred range of up to 60 parts per 100 parts by weight of components (a) through (d).
Preferable ranges, particularly for use in golf ball components, for components (a) through (e) are as set forth in the following table (Component (a) is always present and component (d), in each case, is present at a level sufficient to neutralize 50 to 110 percent or the combined acid content of (a) and (b). Percentages of (b) and (c) are the approximate weight percentages based on the total weight of (a) through (c). Component (e) is reported as parts per hundred parts of by weight of (a) through (d). Component (b) should be within the ranges set forth provided that component (b) does not exceed 50 wt. % of (a) plus (b)).
(b)
(c)
(e)
1
5-40%
1-35%
0-60 parts
2
5-40%
1-35%
Sufficient to raise density to 1.14-1.8 gms/cc
3
10-30%
1-30%
Sufficient to raise density to 1.14-1.22 gms/cc
4
10-30%
1-30%
15-25 parts
5
15-30%
1-25%
15-35 parts
6
18-22%
1-15%
18-22 parts
7
5-10%
10-35%
Sufficient to raise density to 1.8 gms/cc
8
5-10%
10-35%
40-60 parts
9
5-10%
25-35%
40-55 parts
10
5-10%
28-35%
50-55 parts
11
5-30%
1-35%
0-60 parts
One embodiment of a product using such composition is a piece golf ball comprising (a) ethylene acid copolymer, (b) 10-45 wt. % molecular weight, monomeric organic acid or salt thereof provided component (b) does not exceed 50 wt. % of (a) plus (b), (c) 1-30 wt. % moplastic, (d) sufficient cation to neutralize 50 to 110 percent of the in the acid copolymer and organic acid, and (e) sufficient filler, preferably 15-25 parts per hundred weight of polymer (a)-(d), to adjust density of ball to 1.14 grams/cubic centimeter (gm/cc). Preferably the filler a density of about 4 gm/cc or greater.
Another embodiment of such a product is a two-piece golf ball having a core and a cover. The core is made of a composition comprising (a) ethylene acid copolymer, (b) 10-45 wt. % high molecular weight, monomeric organic acid or salt thereof provided that component (b) does not exceed 50 wt. % of (a) plus (b), (c) 1-30 wt. % thermoplastic elastomer, (d) sufficient cation to neutralize 50 to 110 percent of the acid in the acid copolymer
Chen John C.
Hagman John Francis
Statz Robert Joseph
Buttner David J.
E. I. du Pont de Nemours and Company
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