NL8000267A - PREPARATION WITH A PHOSPHEREAL EFFECT. - Google Patents

Description

N.O. 28,622 1

Preparation with a phosphorescent effect

The present invention relates to a composition having a phosphorescent effect, which is particularly suitable for the production of flexible labels.

The present invention therefore relates to a thermoplastic product capable of emitting a delayed luminescence due to a light stimulation, which product can be used for the production of labels, plates and the like using conventional printing methods.

According to the invention, the thermoplastic composition having a phosphorescent effect is obtained in the form of a dispersion of a synthetic resin, which contains therein products capable of absorbing the daylight rays and emitting them as visible light after excitation (afterglow). a plasticizer (plastisol), which is then gelled.

The physical phenomenon, commonly referred to as afterglow, is known and consists in the absorption by some products of the energy associated with the ultraviolet light, with its subsequent reflection in the form of visible radiation, over a period of time. -iode, which can vary in length. This phenomenon is evident in crystalline products containing small percentages of foreign atoms called activators, and it consists essentially of the transition of an electron to a metastable state and the subsequent return of this electron to its original state, with emission of visible light. The main known products having these properties are the sulfides of zinc and cadmium, individually or as mixed crystals, optionally activated with zinc, copper, manganese or silver.

It is also known to make marker elements, such as labels, tags, and the like, in thermoplastic materials, applied by xerographic methods or the like, on a base, which may include pocket wallets, underwear, and the like. Such labels have elasticity and resistance properties, as well as low production costs, which are factors in favor of widespread acceptance.

So far no plastic preparation has been realized, which is suitable for use in the manufacture of the aforementioned products, or in the manufacture of other thermoplastic products having the same properties of elasticity and 800 0 2 87 2% resistance, which allow the delayed visibility of the product by its residual luminescence after it has been exposed to light for variable periods of time.

It is, therefore, an object of the present invention to produce a plastic composition having the property of re-emitting absorbed light over an extended period of time, and which preparation can be used for the manufacture of parts usually made in plastic materials.

The invention relates to a composition with a high after-glow effect characterized by the presence of a base thermoplastic resin with a low polymerization point, a plasticizer, a stabilizer, which has a high absorption of the ultraviolet radiation and a pigment consisting of zinc sulfide crystals activated with copper (ZnS: Cu), pretreated and incorporated into the preparation, in the form of particles encapsulated in a polyvinyl alcohol.

The invention will now be described with reference to a non-limiting embodiment, which is particularly suitable for the manufacture of flexible plastic labels.

As the base resin, polyvinyl chloride in powder form was used because of its properties of resistance, elasticity, shelf life with respect to chemical agents and because of its low polymerization temperature, which facilitates mixing of the other elements, especially those elements which impart residual luminescence to the mixture and which will hereinafter be referred to as "pigments". In order to make the PVC flexible and malleable, a mixture of primary and secondary plasticizers consisting of butyl benzyl phthalate and propenyl glycol adipate, respectively, was used. The mixture preferably consists of 40% butyl benzyl phthalate which gives the mixture a low solvent performance and 60% a polymeric plasticizer 50 (polypropenyl glycol adipate) which imparts a high degree of plasticity to the reaction mass. Sr, butyl or isooctyl phthalates or other high boiling esters can also be used in combination with the polypropenyl glycol adipate or in combination with other polymeric plasticizers to impart a good degree of elasticity to the plastic.

The resin is dispersed in the plasticizing mixture and the paste thus obtained is mixed until a homogeneous mass is obtained. In addition, an organic stabilizer is added to the mass, preferably the dicyandiamide, since the use of metal salts in 800 0 2 67 Λ -3 ..: * results in incompatibility with the pigment itself, thereby reducing its decay time. The function of this stabilizer is that of combining with the HCl which is formed when the paste is brought to the gelation temperature to yield compounds which are substantially colorless and which are compatible with the resin itself, while at the same time strong absorption of the ultraviolet light is obtained. The removal of the HCl is necessary in such polymerization processes to avoid the yellowing caused by atmospheric agents, in particular temperature and light.

Moreover, in view of the particular uses of the compositions which are the subject of the invention, it is necessary that the combination product with the HCl be substantially colorless so that it will not change the natural color of the preparation and not the phenomenon of luminescence. In addition, these compounds should be such that no discontinuities are generated in the resin, thereby ensuring that the properties of plasticity and elasticity are the same. Finally, such products should be able to absorb most of the ultraviolet rays, which would otherwise damage the pigment, causing rapid degradation. Finally, since the pigment itself is rapidly attacked by the ICI, the stabilizer is preferably used in an amount slightly larger. is then the amount strictly necessary for the neutralization of the HCl.

Small amounts of a lubricant, such as ethyl palmitate, stearic acid or waxes, are also added to the mixture which additionally facilitate the release of the mixture from the molds in the following processing operations and a filler such as, for example, talc. Both of these components have been chosen for their compatibility.

30 with the pigment; it is also expedient that the filler be kept to a minimum in order to avoid a decrease in the elasticity of the final product and the formation of a seal with respect to the pigment. In view of the above considerations, it is preferred that the percentage of talc does not exceed 2% by weight of the resin.

As a product having a high afterglow phenomenon, zinc sulfide is preferably used, with small amounts of copper as an activating agent, in the form of crystals. The average size of the crystalline particles, as mentioned above, should be at most 800 µl about 40 µl and to obtain continued residual luminescence this component can vary up to a maximum of 55% by weight based on the weight of the resin. It has also been found that larger amounts of crystals do not produce any visibly noticeable benefits and result in a decrease in the elasticity of the resinous mass. In particular, after a test in a refrigerator, it was found that an amount of crystals larger than the above amount, using equal amounts of plasticizers, caused the product to crumble under an abrasive action. Furthermore, to ensure better protection of the pigment from atmospheric agents and wear, these components are pretreated in a polyvinyl alcohol to effect microencapsulation of the particles, thereby increasing their resistance to wear. To carry out this treatment, the polyvinyl alcohol is dissolved in water at about 60 ° C and the crystals are added to the resulting solution in an amount equal to that of the polyvinyl alcohol (by weight). The reaction mixture is stirred at a constant temperature of about 60 ° C until all water has evaporated. The resulting mass 20 is then triturated and purified before being introduced into the mixture.

After mixing the paste thus obtained, one proceeds to the purification operation, suitably controlling the pressure on the rollers of the purifier as a function of the size of the crystals, thus obtaining a plastisol with a phosphorescent effect, which can be used for the manufacture of labels, plates and other relief-type thermoplastic products obtained by casting or blow molding methods. In particular, in the case of labels obtained by the known coating methods, embossed type labels can be obtained on a suitable support, such as, for example, clothing of a single color (under natural light) or labels or plates consisting of sections with different colors, if illuminated by the light, but which, however, all emit a usual green luminescence when placed in the dark. The residual luminescence of a green color is preferred, since other colors, such as yellow, orange or red, necessitate the presence of cadmium particles, which as a metal salt, in particular, reduce the afterglow effect from 20 hours to about 50 minutes .

40 The following table shows a preferred plastisol preparation, 800 0 2 67 5% based on 1 kg of resin.

base resin 1000 g plasticizer 700 g (280 g primary and 420 g secondary) stabilizer 40 g lubricant 10 g filler 0-10 g pigment (ZnS: Cu) 350 g polyvinyl alcohol 350 g total weight of the mass 2470 g

While the composition of the present invention has been mainly explained with reference to a particular embodiment, this explanation cannot be considered limiting, taking into account that modifications and changes, both in the preparation and in the process, those obvious to the skilled person are within the scope of the invention.

80 0 0 2 67

Claims (3)

A preparation having a phosphorescent effect, characterized by a thermoplastic hash resin with a low polymerization point, a plasticizer, a stabilizer with a high absorbing capacity for the ultraviolet radiation, a pigment based on active crystals in the form of particles encapsulated in a polyvinyl alcohol . 2. Preparation according to claim 1, characterized in that a lubricant consisting of ethyl palmitate and a filler consisting of talc is also present. Preparation according to claim 1 or 2, characterized in that the basic resin. consists of polyvinyl chloride, that the stabilizer consists of a mixture of primary and secondary plasticizers and that the phosphorescent products consist of particles with a diameter of about 40 μη, of crystals of zinc sulfide activated with copper. Preparation according to claim 3, characterized in that the primary plasticizer consists of butyl benzyl phthalate and the secondary plasticizer consists of polypropenyl glycol adipate. 4 * Preparation with a phosphorescent effect for the production of flexible labels essentially as defined above. 800 0 2 67