Method for influencing the optical properties of polymers

Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Treating polymer containing material or treating a solid...

Reexamination Certificate

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Reexamination Certificate

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06518396

ABSTRACT:

The invention relates to a method for influencing the optical properties of polymers, it being possible for this to involve bodies consisting completely of a polymer, bodies coated with a polymer or other polymer semifinished products. In this process also the corresponding influencing of the properties of polymer films or foils is easily possible. With the invention, the coloration, the luminescence, selective reflection or absorption of specific wavelength ranges of electromagnetic radiation, and here in particular in the wavelength range of visible light, can be influenced.
Usually optical properties, even of polymers, are achieved by for example coloration with pigments which are mixed into the initial material during corresponding manufacturing methods, such as injection moulding or extruding. Here, to produce a corresponding optical impression, e.g. in dyeing, a correspondingly large amount of pigment particles is necessary and these have to be distributed preferably as homogeneously as possible in the polymer material to be influenced. This has an extremely disadvantageous effect in particular with cost-intensive pigments, since in comparison with the optical effect to be achieved, a large amount of such pigment particles is necessary. A large proportion of these pigment particles, however, since they are arranged in the interior of such a polymer structure, can unfold practically no optical effect.
A further alternative for influencing the optical properties of such polymers is the application of a corresponding coating by means of the most varied known methods, such as e.g. PVD, CVD, the sol-gel method amongst others. These known coating methods are in part cost-intensive on account of the high plant costs and secondly there are often adhesion problems with such coatings such that over a longer period of time at least parts of such a coating can flake away and the desired optical effect is subsequently removed again.
It is therefore the object of the invention to propose a possible way of influencing the optical properties of polymers in an inexpensive and permanent manner.
According to the invention, this object is accomplished with the features of claim
1
. Advantageous embodiments and developments of the invention arise with the features mentioned in the subordinate claims.
According to the invention, the optical properties of polymers are therefore influenced in that pigment particles adapted to the respective effect to be achieved optically are merely embedded directly into the surface or into regions of a polymer close to the surface, whether this be a polymer body, a polymer semifinished product, a polymer coating, a polymer film or a polymer foil.
Pigments are here intended to include all particles or materials which have an optical effect or can cause an optical effect.
It can be advantageous that, following the embedding of the pigment particles, sealing of the polymer surface is carried out and this should generally not subsequently impair the optical influences desired with the embedding of the pigment particles. In particular transparency should not be influenced.
The solution according to the invention takes into account in particular the fact that the reciprocal action of electromagnetic radiation occurs essentially in the surface region. This relates in particular to luminescence effects to be achieved, such as for example the excitation of fluorescence of photo-sensitisers, direct contact with a fluid on the polymer surface being generally necessary.
The absorption, desirable for many applications, of electromagnetic radiation to protect the polymer or a substrate correspondingly coated with same, has a similar effect in for example counteracting ageing or other undesired material property alteration as a result of heating. Thus for example for the reflection of electromagnetic waves in the wavelength range of infrared light, pigment particles formed from metals are used in order at least to reduce heat radiation losses or the undesired heating already mentioned. Thus for example UV stabilisers can be present merely at the surface and/or in regions close to the surface, such that they can act directly where their effect is required.
Since here merely pigment particles selected according to the desired optical properties to be achieved are embedded directly into the surface or into regions of the polymers close to the surface, in comparison with the conventionally used mixtures of pigment and polymer considerable polymer particle material can be saved and costs reduced.
There are several possible ways of carrying out the method according to the invention. Here the pigment particles can be embedded in a preferably planar surface by means of chemical, mechanical or thermal methods. There is also the possibility of carrying out the embedding with a combination of such methods.
Thus for example a polymer-specific solvent, which itself is known for the various polymers, can be applied to the polymer surface and at least solubilisation of the polymer at the surface or in regions close to the surface can be achieved. In the polymer thus solubilised, the pigment particles can then be embedded, and in some cases already a correspondingly metered scattering of pigment particles in as uniform a distribution as possible can be sufficient. After the evaporation of the solvent, the corresponding pigment particles are surrounded at least partially by the polymer or are held by the polymer with corresponding binding forces such that the desired optical impression can be achieved.
However there is also the possibility of pressing and/or rolling the different pigment particles into the solubilised surface through the action of mechanical forces, which can have a particularly advantageous effect in contours which deviate from flat surface shapes.
A further possibility for the corresponding embedding of pigment particles consists in warming up at least the surface or the region of the polymer close to the surface to such an extent that the softening point of the respective polymer is reached. The pigment particles selected according to the desired optical properties can then be embedded in the softened polymer. The heating can be carried out e.g. by corresponding irradiation or also in an appropriate furnace. The pigment particles are advantageously, in an analogous manner to that described for the solubilisation with suitable solvents, pressed and/or rolled in again. Here the management of the method, i.e. the amount of pigment particles used, the respective pigment particle size, the pressing-in force or the rolling-in depth can be varied in a desired way in order to take into account the optical effect to be achieved.
The hot embossing method known from other areas of technology can also be easily used.
It can be propitious if a microstructure is formed on the polymer surface, into the depressions of which pigment particles are introduced and thereafter the pigment particles embedded in the depressions are sealed by means of thermal, mechanical and/or chemical treatment.
Thus for example a semifinished product formed from a corresponding polymer and provided in advance with a corresponding microstructure or a semifinished product coated with a polymer can be used in which the microstructure is formed e.g. by an embossing method or by injection moulding.
During this process the structural period and depth of the respective size of pigment particles used and/or the desired layer thickness of the pigmented region should be formed. These can be orders of magnitude from nm into the mm range, and corresponding optimisation in respect of the optical effect to be achieved and the polymers or pigment particles used should be undertaken.
With the invention even pigments and substrate materials which are not naturally compatible (e.g. PMMA and hydrophilic pigments) can be correspondingly processed and optical effects achieved. This is in particular the case if the embedding can take place without further additives or solvents.
With the method according to the invention, selecte

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