Stock material or miscellaneous articles – Structurally defined web or sheet – Continuous and nonuniform or irregular surface on layer or...
Reexamination Certificate
2000-02-02
2004-11-16
Kelly, Cynthia (Department: 1774)
Stock material or miscellaneous articles
Structurally defined web or sheet
Continuous and nonuniform or irregular surface on layer or...
C428S058000, C428S141000, C428S331000
Reexamination Certificate
active
06818278
ABSTRACT:
This invention relates to construction materials suitable for use as, or in, a wearing course, for example for children's play areas, athletics and other games, and horse riding. It also relates to methods of making the construction materials and to polymers in particular granulated or other comminuted form for use in said materials.
During recent years there has been adopted, as the wearing course of running racks and similar surfaces on which games are played, a polymeric material in compounded form known as EPDM. “EPDM” refers to terpolymers obtained by the copolymerisation of ethylene and propylene with a small proportion of a diene monomer to permit conventional sulphur vulcanisation at sites of olefinic unsaturation. Subsequently, similar wearing courses have been used as impact-absorbent means in locations where safety is a prime requirement, for example children's play areas; commonly with a bulk (base) layer of recycled rubber granules.
However, in spite of its widespread use, these EPDM materials suffer from several disadvantages of which the major ones are as follows:
(a) Due to pressure from the sports/safety surface construction industry to reduce the cost of EPDM the formulation has been cheapened, using less polymer than originally formulated and now often relies on off-specification polymer, that is polymer of an inferior grade, to further reduce costs. This insistence of the users effectively controls the expansion of the application of sports and safety surfaces because there is insufficient off-specification EPDM available.
(b) Owing to stringent laws in USA, of-specification EPDM material cannot be used in that country.
(c) The dilution of the formulation and the use of off-specification polymer has reduced the quality of surfaces obtained using EPDM compared to the original concept.
(d) Off-specification EPDM is typically brown in colour instead of water white. The resultant compound requires the use of high levels of titanium dioxide to mask the brown background colour and/or uses high pigment concentrations. The consequence is that the product is expensive due to the large amount of pigment required to mask the brown colour.
(e) The granulation of the compounded EPDM produces high dust content (ca.20%) which has to be removed from the granules. There is a small outlet use for dust (0-0.5 mm and 0.5-1.5 mm) in texture sprays and recycling into virgin EPDM compounds. However, the disposal of dust is often expensive and reduces the cost effectiveness of the product.
(f) With regard to the important use in playground safety surfaces, British Standard BS 7188: 1989 specifies an abrasion test which, at present, materials based on current EPDM granules bound with current moisture-curing polyurethane frequently fail to meet. This prevents many safety surface constructors using coloured EPDM when their customers require full compliance with British Standard BS 5696: 1986.
It has now been found, according to the present invention, that excellent construction materials for use in the preparation of wearing courses can be obtained by using as their polymer component (or, at least one of their polymer components) a thermoplastic elastomer (also referred to below as “TPE”), thereby avoiding, or at least mitigating to a substantial extent, the disadvantages of the EPDM-based materials referred to above.
Accordingly, in a first aspect the present invention provides a construction material for use as, or in, a wearing course, which comprises an agglomerate of granules of a thermoplastic elastomer.
By way of example, the thermoplastic elastomer can be a copolymer, for instance a block copolymer of the styrene type. Suitable examples of the latter are one or more of:
styrene-butadiene-styrene (SBS) block copolymers,
styrene-isoprene-styrene (SIS) block copolymers and
styrene-ethylene-butadiene-styrene (SEBS) block copolymers.
Thermoplastic elastomers have, in general, a molecular weight in the range 50,000 to 500,000. They can be conventionally compounded but do not require a cross-linking system. Where, for example, the thermoplastic elastomer is an SBS block copolymer, when heated the blocks of polymer take up a random distribution allowing shaping and forming. On cooling, it is believed that the polystyrene blocks form domains joined by polybutadiene bridges. This mechanism produces a balance of stiffness and elasticity similar to cross-linking. On re-heating the domains disappear and the thermoplastic elastomer reverts to being thermoplastic.
Examples of thermoplastic elastomers suitable for use in the present invention are ones sold under the Trade Marks Calprene, Finaprene, and/or Europrene Sol.
The thermoplastic elastomer is normally used in a compounded form. Suitable compounds, given by way of example, are ones containing one or more of fillers, processing oils, processing aids, antioxidants and pigments.
The thermoplastic elastomer used should, in general, have a softening temperature to suit the ambient conditions in which the construction material of the invention is to be used.
In general the thermoplastic elastomer is one containing a white or coloured pigment with a view to effecting a desirable appearance in the laid wearing course though, if appropriate, the elastomer can be used without added pigment.
The granules of the agglomerate can be of any suitable shape and size. In general the size, and especially the shape, are dictated by the properties required from the wearing course, and especially in the amount of any binder used in producing the agglomerate. Thus, on the one hand, it is in general preferred to avoid using granules of spherical or spheroidal shape as such shapes do not result in good binding contact between adjacent granules. On the other hand, if the granules have too great a surface area it can result in an excess amount of binder being required. It is preferred that the granules be angular granules, that is, granules having at least one edge in their periphery. In particular, the granules can be multi-facet granules, especially granules having up to eight facets, especially five, six or seven facets. With a view to avoiding the requirement of an excess amount of binder (where used), it is preferred that the granules have smooth surfaces.
With regard to size of the granules, it is normally convenient for them to be of a size in the range from 0.5 mm to 10 mm, that is, all of the granules will pass a 10 mm mesh but all will be retained by a 0.5 mm mesh. A preferred size is in the range from 1 mm to 4 mm.
The TPE granules can be formed into an agglomerate using a liquid or other binder, for example a polyurethane binder. The binder, whether polyurethane or otherwise, can be used in any suitable amount, the amount being usually a balance between, on the one hand, achieving satisfactory agglomeration between the granules and, on the other hand, economy in the amount of binder used. Suitable amounts of binder, especially where a polyurethane binder is used, are in the range from 5 to 30 parts by weight, that is, 5 to 30 parts by weight of the binder per 100 parts by weight of the elastomer (or compounded elastomer), and especially 10, 15, 20, 25 or other amount in the range from 10 to 25 parts by weight of the binder.
As an alternative to the use of a binder—or even as an auxiliary to the use of a binder—the agglomerate can be formed by melding the granules, that is by melting or softening their surfaces to such an extent that they will bond together, if necessary, under the influence of applied external pressure. Where melding is used it can be, for example, effected by the use of infra red radiation, hot air, microwave radiation or by the use of a hot platen. Where a hot platen is used it is usually to provide a pre-fabricated wearing course sheet or other member for subsequent laying. By use of a hot platen there can be obtained pre-fabricated members having either a smooth, impervious surface or a textured surface, for example one having appropriate drainage channels or other three-dimensional effect.
In a second aspect the pres
Fay Sharpe Fagan Minnich & McKee LLP
Gray Jill M.
Kelly Cynthia
Sovereign Rubber Limited
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