RU2425722C2 - Method of applying pattern on substrate - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to decoration of plastic surface, particularly, to applying patterns on plastic substrate. Proposed method comprises: applying layer of paint including magnetically oriented pigments on substrate; affecting said paint by magnetic field to orient pigments along force lines to produce pattern on paint layer, and curing paint on substrate. Note here that magnetic field is generated by one magnetic part implanted in plastic substrate being coated.

EFFECT: higher quality of patterns, higher process efficiency.

8 cl

Description

The present invention relates to a method for applying a pattern to a substrate using a paint including magnetically oriented pigments. It also relates to products provided with a pattern applied in a similar manner.

EP 556449 discloses a method for decorating a substrate with a paint containing magnetically oriented flake pigments that form an optical depth pattern under the influence of a magnetic field of a magnet that has a contour corresponding to the desired pattern. The magnet should remain in place until the paint film dries. During the hardening of the paint film, the magnet must not move.

FR 2113650 discloses a method for decorating substrates with magnetically oriented flake pigments, where the magnetic field outlining the desired pattern on the substrate is a primer layer containing constant magnetic particles. Only relatively weak magnetic fields can be generated by a thin primer layer. When applying such weak magnetic fields, it is difficult to obtain patterns with optical depth.

WO 02/090002 discloses a similar method in which a magnetic field is provided by a magnetic print on a substrate on which a paint is applied. A similar method is particularly suitable for documents or banknotes, but less suitable for molded substrates, such as plastic parts.

The purpose of the invention is to find an opportunity to improve the quality of decorative patterns on plastic substrates, in particular to improve the appearance of clear lines. An additional goal is to reduce the time required to complete the process.

The purpose of the invention is achieved by a method for decorating a plastic substrate, comprising the following stages:

- applying a layer of paint, including magnetically oriented pigments, on a substrate;

- exposure to freshly applied paint that has not yet hardened with a magnetic field, whereby the pigments are oriented along the lines of the magnetic field to obtain a pattern on the paint layer; and

- hardening of the paint on the substrate;

characterized in that the magnetic field is generated by at least one magnetic part included in the coated plastic substrate, for example molded into a plastic substrate.

In the first embodiment, the magnetic part included in the substrate is a permanent magnet having a contour corresponding to the desired pattern.

The magnet can be incorporated into the substrate by placing it in the mold and molding the plastic around it, for example, by injection molding, reactive injection molding, molding of hollow articles by casting or centrifugal molding, by molding by dipping, by sheet molding, by molding by blow molding, by extrusion, the process of obtaining a uniaxially oriented fibrous plastic or any other suitable method of preparation. The smaller the distance between the magnet and the surface of the substrate on which the pattern is applied, the clearer the details of the pattern. The smaller the distance between the embedded magnet and the surface of the substrate, the more clearly visible the details. In order to have a real distance in combination with distinct details, the magnet can, for example, be embedded approximately 1-1.5 mm below the surface of the substrate.

In an alternative embodiment, the magnetic part in the substrate is formed by a part of the substrate including dispersed magnetic or magnetizable particles that are magnetized to generate the desired magnetic field. This leads to more uniform mechanical and physical properties.

Magnetic particles can, for example, be dispersed in a substrate, mixing them with the starting material prior to molding and subsequently molding the mixture. Subsequently, the particles are magnetized in such a way that they generate the required magnetic field.

After the paint layer has hardened, the magnetic part of the plastic substrate can be demagnetized if necessary. This can be done, for example, using a similar magnetic field strength after curing or drying the paint. This method will not affect the appearance of the pattern on the paint layer, but will reduce or eliminate the magnetic field in the finished product.

The magnetic particles dispersed in the substrate may, for example, be ferrite particles, such as barium ferrite or strontium ferrite, rare earth metal alloys such as cobalt and samarium alloys, chromium dioxide, bismuth, manganese, neodymium or similar magnetic materials. Typically, the particle size of the magnetic particles can range from about 10 micrometers up to 20 nm or higher.

If desired, a substrate including dispersed magnetizable or magnetic particles can be obtained in two or more phases, for example, using two-stage molding technology, where the first part, including magnetizable or magnetic particles, is injected first, and then the second injection is performed, which can be without magnetizing or magnetic particles, for example, to achieve selected properties or profitability.

After molding or forming a substrate including magnetizable particles, the particles are magnetized into a pattern corresponding to the pattern to be obtained in a paint film. This can be done by using a strong permanent magnet, for example, based on alloys of neodymium, iron and boron, such as Nd ₁₂ Fe ₁₄ B, or an electromagnet. The magnet may have a contour corresponding to the desired pattern, or it may move along a path describing the desired pattern.

The substrate can, for example, be made of any thermoplastic or thermoset material such as plastic, such as polyvinyl chloride, polystyrene, acrylonitrile butadiene styrene (ABS), polycarbonate, polyamide, polyurethane, polyester, polytetrafluoroethylene, acrylic plastics such as PMMA, polyolef high density or medium density polyethylene, polybutene or polypropylene, etc. If desired, suitable mixtures or hybrids of these types of plastics can also be used. Alternatively, the substrate can be made from any other type of moldable or curable material, such as ceramic materials or aluminum.

If desired, a primer coating can be applied to the substrate before the effect is applied with magnetically oriented particles. This is especially suitable for polyamide or polypropylene substrates.

The magnetically oriented pigments in the paint can be pigments obtained from a magnetic or magnetizable material. Pigments can have any suitable shape, but flakes and plates show clearer patterns. Suitable magnetic pigments are based, for example, on iron, nickel, cobalt, copper, silver, gold, chromium, gadolinium, ytterbium, dysprosium, erbium and the like or their alloys, oxides or mixtures. Ferrite flakes are particularly suitable. Flake pigments can also be multilayer pigments having at least one magnetic layer and, if necessary, one or more non-magnetic layers. Suitable examples are, for example, mica coated with Fe ₂ O ₃ , or mica coated with CoFe ₂ O ₄ . Another suitable magnetic pigment may be, for example, mica coated with a polymer mixture comprising cobalt iron oxide and cobalt oxide. Additionally, suitable reflective magnetic flake pigments can be used to create labels with shiny highlights or contours. Alternatively, interference pigments, such as color-shifting pigments, can be used in one or more than one coating layer so that interference pigments produce labels that differ in color and / or differ in color intensity when viewed from different angles.

Suitable soft magnetic pigment materials may, for example, have a coercivity of less than about 2000 Oe, for example, less than about 300 Oe. Coatings including such soft magnetic materials do not become magnetic in response to non-magnetized metals such as steel, brass or aluminum.

Flakes may have an average particle size of, for example, 2-60 micrometers, for example 10-30 micrometers. The average thickness of the particles of flakes may, for example, be 1-8 micrometers.

The composition for applying also includes one or more binder and a carrier. Binders are translucent after drying the paint film. Suitable binders are, for example, alkyds, polyurethanes, polyesters, latex binders such as vinyl binders, acrylates, etc. The binders can be physically dried, dried by oxidation, or they can be chemically cured, for example, with a curing agent component or a crosslinking agent, or they can be cured with actinic radiation, such as UV radiation.

The paint for use in the present invention will typically be a liquid paint, for example a solvent paint. Suitable organic solvents are, for example, aromatic solvents such as toluene or xylene, as well as aliphatic solvents such as ketones, glycols, for example ethyl diglycol, butyl glycol, butyldiglycol, or their acetates, such as ethyl glycol acetate, butyl glycol acetate, butyl acetate, butyl acetate. Commercially available solvents are for example, Shellsol ^® D40, an aliphatic hydrocarbon solvent available from Shell, Dowanol ^® PMA from Dow, and Solvesso ^® -150, available from ExxonMobil. Alternatively, the composition for application in accordance with the invention can be formulated as a composition based on water, optionally including auxiliary solvents or wetting agents, such as glycols. Inorganic enamels or coatings, such as soluble glass coatings, sol gels or solvent-free systems, such as hot melt paints or powder coatings, can also be used if desired.

Although the paint film should be translucent at least to some extent, the paint may further include additional magnetic or non-magnetic pigments, such as titanium dioxide, zinc oxide, leaded zinc oxide, titanium calcium, carbon black, yellow oxides, brown oxides, tan oxides, untreated and burnt sienna or umber, green chromium oxide, green phthalocyanine, blue phthalonitrile, blue ultramarine, cadmium pigments or chromium pigments or any mixtures thereof. You can also use fluorescent pigments, pearlescent pigments, dichroic pigments or pigments with other special effects to obtain specific special effects. You can also add pigments in the form of fillers, such as clay, silica, talc, wollastonite, wood flour and the like.

The paint film can be applied with any suitable film thickness. Suitably, the film thickness can be up to about 50 micrometers, for example 20 micrometers. If a base coat and clear coat system is used, the base coat may, for example, have a layer thickness of about 8-15 microns, and the clear coat may, for example, have a thickness of about 20-30 microns. If a transparent coating is used, it can be applied to a wet or instantly dried base coat with a thin layer and cured at the same time. Alternatively, it can be applied to the hardened layer of the base coat. Suitable clear coatings may, for example, be based on an isocyanate-polyol curing system. Mono-coating systems are also possible.

If desired, paint can be applied to a pre-coated substrate. The substrate can be pre-coated with a primer or a painted opaque or translucent paint layer. Special effects can be obtained if a magnetized layer of paint is applied to a previously applied film of a similar paint with a magnetized pattern. Application to substrates precoated with paints with effects such as mother-of-pearl, metallic or fluorescent paints will also give special effects.

An effect paint is suitable for decorating virtually any type of plastic product, such as car parts, electrical or household appliances, mobile phones, skis, motorcycle headgear, plastic or glass bottles or tube packaging, computer cases, players, book covers etc.

Paint can be applied in any suitable way. A suitable application method is, for example, spray application.

Claims (8)

1. The method of applying a pattern to a plastic substrate, comprising the following stages:
- applying to the substrate a layer of paint, including magnetically oriented pigments;
- exposure to the paint with a magnetic field, whereby the pigments are oriented along the lines of the magnetic field to obtain a pattern on the paint layer; and
- hardening of the paint on the substrate;
characterized in that the magnetic field is generated by one magnetic part included in the coated plastic substrate. 2. The method according to claim 1, characterized in that the magnetic part included in the plastic substrate is a permanent magnet having a contour corresponding to the desired pattern. 3. The method according to claim 1, characterized in that the included magnetic part is formed by magnetic particles distributed in a plastic substrate, which are magnetized to generate the desired magnetic field. 4. The method according to any one of the preceding paragraphs, characterized in that after the hardening of the paint layer, the magnetic part of the substrate is demagnetized. 5. The method according to claim 1, characterized in that the primer is first applied to the substrate. 6. A product provided with a coating comprising magnetically oriented particles with a contour for forming a pattern, characterized in that the pattern covers a magnetic or magnetizable part introduced into the substrate. 7. The product according to claim 6, characterized in that the substrate includes a polymer matrix including a magnet. 8. The product according to claim 6, characterized in that the substrate contains a polymer matrix including magnetic or magnetizing particles.