CZ255495A3 - Mouldable composition intended for producing sanitary articles - Google Patents

Abstract

A compsn. mouldable at high temp. and under pressure contains: (a) a cross-linkable polyester resin in a liq. monomer with a polymerisable vinyl gp., (b) an anti-shrink thermoplastic of polyethylene, soluble in the resin mixt., (c) an organic peroxide catalyst to initiate the cross-linking of the resin by supply of free radical during their destruction at high temp., (d) reinforcing fibres, e.g. glass fibres to ensure the rigidity of the cross-linked material, (e) a de-moulding agent, e.g. Ca or Zn stearate, and (f) sodio-calcium glass microspheres with a chemical coating, or calcium carbonate in marble crystal form, opt. with a pigment coating, to reduce the degradation of the glass fibres and to give a sanitary prod. resistant to abrasion, heat and water.

Description

Formable composition intended for the production of hygiene products

Technical field

The present invention relates to a moldable composition which is specifically intended for use in the art. production of sanitary products such as sinks, baths and washbasins of plastic.

The invention finds particular application in the industrial field of the production of sanitary products and in particular in the field of the production of molded parts for products useful as bathroom or kitchen equipment, such as in particular sinks, baths and washbasins.

The composition according to the invention has been specifically developed for the manufacture of sanitary articles, but will also find use in the construction industry. external cladding of buildings or in the automotive industry sky? in the furniture industry.

BACKGROUND OF THE INVENTION

The above-mentioned plastic sanitary products are intended to replace conventional metal sanitary products or faience products, the purchase costs of which are relatively high and which have a relatively short lifetime.

The plastic currently used, which incorporates natural products, forms a mineral composite material. The product produced from this plastic must be of high quality, which means, for example, in the case of a sink, that it must have a high impact resistance, since the sink in the sink is treated with heavy metal objects of different shapes. The nozzle material must also have good abrasion and scratch resistance, and its mechanical strength must also be sufficiently high.

In view of the environment in which the sinks are filled, it is clear that the sink material must also be very stable in the presence of water and not be attacked by various means commonly used in the household. The material used for the production of sanitary products must also have good thermal and acoustic insulation properties.

Since the aforesaid sanitary articles are produced in large batches, it is also desirable that the plastic processing techniques before and during molding are sufficiently simple to counteract the increased production cadence and reduced rejects.

The currently manufactured products have significant drawbacks, in particular in terms of their lack of mechanical strength and low resistance to the effects of water. The plastic used so far does not make it possible to obtain perfectly homogeneous products and cannot be easily shaped at high temperature and high pressure.

SUMMARY OF THE INVENTION

It has now been found that the use of calcium carbonate would, on the other hand, make it possible, under certain conditions, to obtain hygiene products of very good quality, in particular for good abrasion resistance and good stability in the presence of water.

Indeed, when calcium carbonate is used in the form of marble in pigment-encapsulated or non-encapsulated form and in combination with glass beads, an unexpected effect is achieved, which is to reduce the degradation of the glass fibers, which is introduced into the plastics material.

Also very advantageous is the presence of glass microspheres in the composition according to the invention, since these microspheres act as ball bearings and thus allow better mold filling during the production of molded products and better compactness and homogeneity of the molded mixture.

One of the main objectives of the invention is to provide a moldable composition which is specifically designed for the manufacture of sanitary articles having good mechanical strength, good abrasion and scratch resistance, good stability in the presence of water and good thermal stability. The sanitary article made from such a composition should also withstand the means commonly used in household and also have good sound and thermal insulating properties.

Another object of the invention is to use glass fibers which are not damaged or which are much less damaged by the fillers used in the plastic, using calcium carbonate in crystalline marble form with pigmented encapsulation of the sky for this purpose? without pigmented encapsulation, which will have significantly lower aggressiveness than silica and which will protect glass fibers much better.

A further advantage of the moldable composition according to the invention specifically designed for the production of sanitary articles is that it is easy to process, since it achieves very good filling of the mold and very good removal of the molded article from the mold.

A further object of the composition of the invention specifically designed for shaping sanitary products is to reduce the curl of the molded product that occurs when the molded product shrinks during cooling, this being accomplished by the presence of glass beads that accumulate and thus nearly suppress the undulations.

A further advantage of the moldable composition of the invention specifically designed for the manufacture of sanitary articles is that the shaped article has an aesthetic appearance, while the marble gives the article a speckled structure. The marble grains forming this speckled structure are optionally pigmented and thus have a color different from that of the base plastic or a color identical to that of the base plastic.

Another object of the formable composition specifically designed for the manufacture of the sanitary articles of the invention is to improve the flow of plastic under pressure in order to reduce the number of rejects having unacceptable porosity.

A further advantage of the moldable composition of the invention specifically designed for the manufacture of hygiene products is that the use of glass microspheres which increase the compactness of the mixture under pressure also allows to increase the percentage of alumina trihydrate, which is a third filler composition composition.

The above-mentioned objects essentially meet the formable compositions of the invention specifically designed for the manufacture of sanitary products, such as sinks, baths or washbasins of plastic. Capable of forming at pressure and at high temperature and containing:

- crosslinkable polyester resin in liquid monomer with polymerizable vinyl group,

- a polyethylene-type anti-constriction thermoplastic polymer soluble in the resin mixture,

- an organic peroxide catalyst initiating the crosslinking of the resin by providing free radicals during decomposition at high temperature.

- reinforcing fibers, such as glass fibers, ensuring the stiffness of the crosslinked material,

- an agent for improving the removal of the shaped article from a mold, such as calcium stearate or zinc stearate, characterized in that it comprises fillers selected from the group consisting of:

(1) soda - lime glass microspheres with chemical encapsulating coating; and

2) calcium carbonate in crystalline marble form with or without a pigmented encapsulating coating in order to reduce the degradation of the glass fibers and to obtain a hygienic product resistant to abrasion, heat and water.

The invention will be further elucidated in the following part of the description, in which specific embodiments of the composition according to the invention will also be described, which are intended to be illustrative and not limiting.

The moldable composition according to the invention is particularly suitable for the manufacture of sanitary products from a mineral composite material, in particular for the manufacture of sinks, baths and washbasins, or all other molded products having substantially the same characteristics.

It is known that sanitary products must be of high quality with regard to their use in the kitchen or bathroom, particularly in terms of their resistance and insulating properties. For example, a sanitary product, which is used as a sink, must be made of a very hard material that will be resistant to abrasion caused by kitchen utensils. This material will also have to be resistant to the heat and aggressive effect of household compositions very commonly used.

Other characteristics required for sanitary products also include sound and thermal insulating properties, since it is essential that the sounds produced in the kitchen or bathroom are not unacceptably propagated by the sanitary products, which means that these sanitary products manufactured must have good sound insulation properties.

Irrespective of the sufficiently good physicochemical characteristics of the materials from which the sanitary products are made, the choice of the composition should also take into account the requirements that are placed on the appearance of the sanitary product, which product should have a very good surface condition, refers to the gloss of the sanitary ware. In order to achieve this with plastic products, care must be taken to ensure that the molded article is molded and removed from the mold under very good conditions.

In addition to these aesthetic requirements, it should also be pointed out that sanitary appliances are also very often made of colored materials, so that they fit well with other kitchen or bathroom elements. In this regard, care should be taken to ensure that the color of the product is perfect, while ensuring that the color is uniform and homogeneous. It will also be desirable in some cases for the article to have a natural appearance, that is, to imitate any of the natural materials, such as marble or stone. In this case, it will be necessary for the product to have a basic color and speckled grains whose color is different from that basic color.

Also included in the composition of the invention is a known anti-constrictor (preventing or limiting shrinkage during cooling) thermoplastic polyethylene type soluble in the resin composition.

The anticonstillation polymer may be, for example, a polyethylene type polymer soluble in a monomeric resin composition that is copolymerizable with the system.

In this way, the ripples that occur as a result of shrinkage of the shaped sanitary product during cooling are avoided.

This anticonstrictor thermoplastic polymer also makes it possible to obtain a better final appearance of the molded part and, in particular, a better gloss.

Preferably, a polyethylene and / or saturated polyester type anticonstrictor polymer is used in an amount of 4 to 7%, depending on the particular use of the composition.

Saturated polyester, polyvinyl acetate, EVA (copolymers of ethylene and vinyl acetate), ABS (copolymers of acrylonitrile, butadiene and styrene) and PMMA (polymethyl methacrylate) can also be used as the anticonstrictor polymer.

An organic peroxide catalyst for initiating resin crosslinking by providing free radicals during high temperature decomposition is also incorporated into the composition of the invention.

The following catalysts may be incorporated into the composition of the invention:

tert-butyl-2-ethylperexanoate tert-butylperbenzoate t-butyl-3,3,5-trimethylperhexanoate

0.03 to 0.5 % 0.10 to 0.4 % 0 to 0.1 %.

The function of the catalysts is to initiate the crosslinking reaction of the vinyl group containing resin by providing free radicals upon decomposition at high temperature.

With respect to these catalysts, other compounds which fulfill the above function may also be used, in particular isopropyl carbonate and peroxy-tert-butyl carbonate.

Also, a mold release enhancing agent is used in the composition of the invention to facilitate the molding and removal of the molded product from the mold after polymerization of the composition.

The use of glass fibers in the inventive composition as reinforcing fibers helps to increase the mechanical properties of the sanitary product compared to a sanitary product without such fibers.

The function of these fibers is to ensure the stiffness of the crosslinked material, preferably using glass fibers chopped to a length of 6 millimeters.

Glass fibers of various origins, and in particular synthetic fibers, such as saturated polyester fibers or acrylic fibers, or fibers of natural origin, such as wolastonite fibers, may be used.

The glass fiber content of the composition according to the invention is between 5 and 10%, and it is important to be able to control this material in order to ensure the good physico-chemical properties of the sanitary products produced. It is therefore important to choose such manufacturing methods and other materials to be incorporated into the composition of the composition according to the invention, which are not too abrasive in nature and which are also so? does not cause the glass fibers to break and consequently reduce the stiffness of the sanitary product. Such an adverse effect occurs especially when silica fillers are used in the composition. In order to avoid this abrasive effect, it is proposed in the invention to use less abrasive fillers formed; calcium carbonate and glass microspheres with chemical encapsulation.

The filler mixture to be used in the composition according to the invention preferably comprises 15 to 25% calcium carbonate in crystalline marble form with or without pigmented encapsulation. Glass microspheres are used in an amount of 12 to 25% by weight.

The calcium carbonate filler component in a marble form with or without a pigment coating is used in the form of a marble fraction with a granulometry ranging from 0.20 to 7 millimeters. How already? _R has the above-mentioned filler that contrary to popular opinion experts very low water absorption compared with milled form.

In the composition according to the invention, there is no degradation of the glass fibers, which otherwise occurs in the case of the use of silicon dioxide, and in the case of the use of a pigment coating of the epoxy or polyurethane type is not possible. Another advantageous effect of having a better adhesion to the substrate compared to silica and a better chemical and mechanical behavior in the composition was found to be of the saturated polyester type. The improved bonding and adhesion of the coating to the substrate (pc> the substrate) generally provides better chemical and mechanical properties of the manufactured sanitary products.

The filler component consisting of soda-lime glass microspheres with a chemical coating is preferably used in an amount of from 12 to 25%. In particular, said chemical coating can be accomplished by improving glass beads, providing chemical bridges between the resin and the glass beads.

Glass microspheres with a given granulometry facilitate the flow of material under pressure and significantly reduce the amount of rejects with unacceptable porosity.

The spherical shape gives this component an increased compactness under pressure, which makes it possible to add a third component as filler, which may be, for example, micronized alumina trihydrate. Thus, the fact that a better compacted pressure under pressure has been achieved makes it possible to introduce the third component as a filler into the composition, if desired, which, in some applications, allows a different result to be obtained.

and The encapsulation of the glass microspheres allows chemical bonding with the resin, which provides the molded product with better resistance to chemical agents and better resistance to physical agents, in particular better resistance to water and various household compositions.

Because of the great mobility and ability to uniformly distribute in the composition, glass microspheres are mixed between individual glass fibers, contributing to a homogeneous distribution of the glass fibers in the composition. This improves the flow of material under pressure as well as mold filling. Improving the homogeneity of the composition material also makes it possible to reduce rejects during the manufacture of said sanitary products.

Glass microspheres do not damage glass fibers and it is therefore recommended to use these microspheres in the composition of the invention and not silica which has abradive properties.

Calcium carbonate fillers and glass beads are thus used as an agent for improving the flow of the mixture and the homogeneity of the mixture. Due to its homogenizing properties, said filler mixture of the material of the composition will give a liquid character and the composition will be readily elastic.

If it is desired to produce sanitary products of a speckled veined appearance, then the speckled grains are obtained with pigments that may have the same color as the surrounding

The background or color is different from that of the background. This coloring effect is realized by means of calcium carbonate grains.

In the case of colored sanitary products, it has also been found that the marble which is used as a filler in the composition according to the invention and which is a dye carrier in the colored sanitary products is a carrier to which the pgment has better adhesion than the fillers used hitherto. Thus, in the case of a pigment coating, better results are obtained for marble than silica for adhesion of the pigment to the support.

DETAILED DESCRIPTION OF THE INVENTION

An example composition of a moldable composition specially designed for hygiene products

unsaturated polyester resin (orthophthalate type NPG) dissolved in styrene 10 to 20% anticonstrictor polymer (polyethylene and / or saturated polyester type) 4 to 7%, - Zinc sulphate (pigment) 0 to 2%, - another pigment 0 to 0,5%, - tert-butyl 2-ethyl perexanoate 0.03 to 0,5%, - tert.butylperbenzoate 0.10 to 0,4%, tert-butyl-3,3,5-trimethylperhexa- noát 0 to 0,1%, - zinc stearate 0.75 to 1,7%, - parabenzoquinone 0 to 0,05%, - glass fiber length 6 mm 5 to 10%, - alumina trihydrate 30 to 40%, - calcium carbonate 15 to 2 5% a

2 glass microspheres 12 to 25%.

The method used is a classical method in which hot pressing at pressures of 5 to 18 MPa and temperatures between 120 and 170 ° C is used.

Preferably, two mixers are used, with the first dry mixer in which all the dry ingredients are introduced and the lower wet mixer in which all the liquid components of the composition are introduced. The use of glass microspheres makes it possible to achieve a better filling of the mold and a better density and homogeneity of the mixture. The piling up of the beads and their position relative to the glass fibers almost suppresses the product ripple that occurs due to the shrinkage of the material during its cooling, which is another significant advantage in production costs.

The resulting composition is then formed in a steel mold having a corresponding hardness, preferably in a chromium steel mold, at a temperature of 140 to 150 ° C and a pressure of 10 MPa. The time required for crosslinking is 5 to 5 millimeters for a thickness of 5 mm.

This gives a shaped article having a scratch resistance according to standard 51 113 of 50 N and a water absorption of 0.16% by weight according to ISO 62.

Claims (2)

A formable composition for the manufacture of sanitary products, such as sinks, tubs and washbasins, of plastic, which is capable of being molded under pressure and at high temperature and which comprises: a crosslinkable polyester resin in a polymerizable vinyl group monomer, a polyethylene-type antioxidant thermoplastic polymer soluble in said resin composition, an organic peroxide catalyst to initiate the crosslinking of the resin by providing free radicals at high temperature decomposition, reinforcing fibers such as glass fibers to provide stiffness a discharging agent, such as calcium stearate or zinc stearate, characterized in that it comprises fillers selected from the group consisting of: (1) soda - lime glass microspheres with a chemical coating; and 2) calcium carbonate in crystalline marble form with or without pigment coating in order to reduce the degradation of the glass fibers and to obtain a sanitary product resistant to abrasion, heat and water. Composition according to claim 1, characterized in that as an anticonstrictor thermoplastic polymer it comprises a polymer selected from the group consisting of saturated polyester, polyvinyl acetate, EVA (copolymer of ethylene and vinyl acetate), ABS (copolymer of acrylonitrile, butadiene and styrene) and PMMA. 14 (polymethyl methacrylate). Composition according to claim 1, characterized in that the filler mixture contains, in addition to calcium carbonate in crystalline marble form and glass microspheres, micro-aluminized alumina trihydrate. The composition of claim 1, wherein the calcium carbonate pigment coating is an epoxy resin, polyurethane, or saturated polyester coating to provide better pigment adhesion to the substrate. Composition according to claim 1, characterized in that it comprises an unsaturated polyester resin (orthophthalate type NPG) dissolved in styrene 1 0 to 20 May G, 0 z - anticonstrictor polymer (tyou poly- ethylene and / or saturated polyesters; ru) 4 to 7 % - Zinc sulphate (pigment) 0 to 2 % - another pigment 0 to 0 , 5%, - tert-butyl 2-ethyiperexanoate 0.03 to 0.5% - tert.butylperbenzoate 0.10 to 0.4% - tert-butyl-3,3,5-trimethyl-perhexa- noát 0 to 0 , 1%, - zinc stearate 0.75 to 1,7% - calcium stearate 0 to 0, 80%, - parabenzoquinone 0 to 0,05%, - glass fiber length 6 mm 5 to 1 0 % - alumina trihydrate 30 to 40 % - calcium carbonate 1 5 to 25 % a 1 5 glass microspheres 12 to 25%.