Thermoplastic resin composition and shaped body thereof

Details Thermoplastic resin composition and shaped body thereof Thermoplastic resin composition and shaped body thereof

2001-09-17

2003-04-15

Cain, Edward J. (Department: 1714)

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

active

06548583

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to a thermoplastic resin composition capable of being combusted in a high efficiency. The present invention is also directed to a shaped body, such as films, plates, columns, cylinders, blocks, spheres, etc. formed of the thermoplastic resin composition.
Thermoplastic resins are now used for various applications such as electric, mechanical and automobile parts, construction materials, receptacles and packaging materials because of excellent moldability, and mechanical and physical properties thereof. As the thermoplastic resins are used in a large amount in a wide variety of fields, disposal thereof is now one of the important social problems.
One customarily employed method for the disposal of thermoplastic resins is a combustion treatment. The combustion treatment, however, poses problems of generation of combustion waste gas containing carbon monoxide, nitrogen oxides and sulfur oxides. Depending upon kinds of thermoplastic resin, the combustion gas may contain dioxins. The conventional combustion treatment of thermoplastic resins also has a difficulty, since a treatment at a high temperature under a high oxygen concentration is effective for the reduction of carbon monoxide in the combustion gas but is disadvantageous for the reduction of nitrogen oxides.
JP-A-H07-257594 and JP-A-H07-322910 propose a thermoplastic resin film containing specific iron oxide powder such as geothite. While such a film can be efficiently combusted even at a low temperature and in a low oxygen concentration condition, the use of iron oxide has a problem because the film has a color inherent to the iron oxide. Thus, the iron oxide-containing film is used only in a field, such as bags for garbage, in which good appearance is not of importance.
SUMMARY OF THE INVENTION
It is, therefore, an object of the present invention to provide a thermoplastic resin composition which can be efficiently combusted while effectively reducing the amount of harmful substances generated by the combustion.
Another object of the present invention is to provide a thermoplastic resin composition of the above-mentioned-type capable of providing shaped bodies which have high lightness and a good color tone.
It is a further object of the present invention to provide a shaped article of a thermoplastic resin composition of the above-mentioned-type.
In accomplishing the above objects, there is provided in accordance with the present invention a composition comprising a thermoplastic resin, and a combustion accelerator including an inorganic carrier and a platinum group element supported on said inorganic carrier in an amount of 0.001-0.2% by weight based on a total weight of said inorganic carrier and said platinum group element, said combustion accelerator being in the form of particles and present in such an amount that the concentration of said platinum group element is 0.5-100 ppm by weight based on a total weight of said combustion accelerator and said thermoplastic resin.
The thermoplastic resin composition in the form of a molding such as a film, plate or block may be transparent, transluecent or opaque and is colorless or monochromatic (e.g. white, milky white or light gray) in the absence of a coloring agent. When a coloring agent is contained, a good color tone is obtainable without adversely affected by the combustion accelerating agent. The molding is also characterized by its high lightness.
Other objects, features and advantages of the present invention will become apparent from the detailed description of the preferred embodiments to follow.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION
A thermoplastic resin composition according to the present invention comprises a thermoplastic resin, and a combustion accelerator which includes an inorganic carrier and a platinum group element supported thereon.
The platinum group element may be palladium, platinum, ruthenium, rhodium, osmium or iridium. Above all, the use of palladium or platinum which is easily feasible is preferred.
Any inorganic carrier may be used to support the platinum group element. Examples of the inorganic carriers include metal oxides and metal carbonates. Illustrative of suitable inorganic carriers are alumina (such as &agr;-alumina and activated alumina), silica, titania, zeolite, calcium carbonate, magnesia, zirconia, thoria, boria, silica-alumina, silica-zirconia, alumina-zirconia. For reasons of costs and colorlessness of the composition, the use of alumina, silica, titania, zeolite, calcium carbonate or magnesia is particularly preferred. The above inorganic materials may be used alone or in combination of two or more.
The inorganic carrier is in the form of particles having an average particle diameter of 50 &mgr;m or less, preferably 0.1-20 &mgr;m, more preferably 0.2-10 &mgr;m.
The platinum group element may be supported on the inorganic carrier using any of the procedures known to the man skilled in the art of supported catalysts, such as by impregnation, ion-exchange, concentration or precipitation. In accordance with a preferred mode of operation, the inorganic carrier is impregnated with a solution containing compounds containing a precursor of a platinum group element. The precursor may be a compound conventionally used for the preparation of catalysts, in particular chlorides, chloro complexes, nitrates and acetylacetonates. By way of example mention may be made of chloroplatinic acid, palladium chloride, platinum tetrammine chloride, dinitrodiaminoplatinum and palladium nitrate. The impregnation is followed by drying at 50-200° C. and calcinations at 400-800° C., generally in air, to fix the platinum group element on the inorganic carrier as an active metal or an oxide. When alumina is used as a carrier, a platinum group element-loaded alumina may be suitably produced by impregnating aluminum hydroxide with a solution of a platinum group element compound, the impregnated material being subsequently calcined. During the calcination, the aluminum hydroxide undergoes dehydration to form pores in the resulting alumina, on the wall of which the platinum group element deposits.
It is important that the amount of the platinum group element supported on the inorganic carrier should be in the range of 0.001-0.2% by weight based on a total weight of the inorganic carrier and the platinum group element. An amount of the platinum group element below 0.001% by weight is insufficient to obtain desired combustion accelerating effect. Too large an amount of the platinum group element in excess of 0.2% by weight causes undesirable increase of costs as well as coloring of the combustion accelerator. The amount of the platinum group element is preferably 0.005-0.15% by weight, more preferably 0.01-0.08% by weight.
The particle size of the combustion accelerator is generally the same as that of the inorganic carrier used and has an average particle diameter of 50 &mgr;m or less, preferably 0.1-20 &mgr;m, more preferably 0.2-10 &mgr;m. The combustion accelerator may contain an additional catalytic metal element or a dopant, if desired.
The above combustion accelerator is dispersed, preferably uniformly, into a thermoplastic resin to obtain a resin composition according to the present invention. Any thermoplastic resin may be employed for the purpose of the present invention. Examples of the thermoplastic resins include polyolefin resins such as polyethylene, ethylene-&agr;-olefin copolymers, ethylene-vinyl acetate copolymers and polypropylene; polyamide resins such as nylon 6 and nylon 66; polystyrene resins; polyester resins such as polyethylene terephthalate and polybutylene terephthalate; polyvinyl chloride resins; and mixtures thereof. For reasons of freedom of chlorine, the use of a polyolefin resin is preferred.
Any suitable known method, such as kneading with rollers, a kneader or an extruder, may be adopted to disperse the combustion accelerator into the thermoplastic resin. In one preferred method, a master batch is previously prepared from the desired combustion accelera

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