DE102008024149A1 - Micro folding kinetics and folding speed determining device for e.g. lacquered coating, has light source cooled with inert gas, and brackets provided at walls and at chamber base for coupling camera to device - Google Patents

Abstract

The device has a chamber comprising a universal sample table (6) for fixing a coated substrate on a sample changer (4). A vacuum UV light source or a UV clarifier excimer light source (9) is cooled with the inert gas. A gas sensor (16) samples the inert gas to measure oxygen content in the inert gas. Brackets (13, 14) are provided at walls (1) and at a chamber base (3) for coupling a camera (12) e.g. high speed video camera and charge-coupled device camcorder, to the device. The sample changer comprises a recess for retaining a radiometric sensor (5) with a gallium phosphide photodiode.

Description

The The invention relates to a device for optical and metrological Determination of the microfolding kinetics as well as the folding speed of Surfaces of decorative and functional electron beam or UV-curing paint and varnish coatings triggered by short-wave monochromatic excimer UV radiation, in real-time mode.

According to the The prior art is the color or clearcoat surface to be treated with nearly monochromatic short-wave excimer UV light, for Example of the wavelengths 172 nm or 222 nm, irradiated. These energetic photons are capable of being pure Monomers or oligomers or a monomer / oligomer mixture existing wet layer applied to a substrate without the use of photoinitiator To generate polymer radicals and initiate a polymerization.

The Shortwave UV photons have only a small penetration depth in the paint and varnish layer of depending on the wavelength 100 nm to a few micrometers and thus cure them only on their surface and in the near-surface Layers, if the coating is thicker. The result Emerging skin then floats on a liquid Layer. As a result of shrinkage stresses in the polymerization of these As skin forms, this skin begins to wrinkle. After completion the folding process, the entire layer with long-wave UV light or cured with electron radiation, leaving the skin on the substrate is fixed and a uniform coating with structured surface arises.

Of the However, photochemical microfolding process can also be done by post-curing stopped in an intermediate stage and thus just reached Frozen folding structure.

This form of surface structuring of radiation-curable color and lacquer coatings of various substrates has now reached the stage of industrial application. The main application is the production of matt surfaces in the field of furniture decorative films and paper as well as wall coverings indoors and outdoors. The not easy adjustment of the gloss level became patent protected - DE 10 2006 042 063.2 , Meanwhile, not only the achievable matt gloss, but are also haptic and mechanical-chemical surface properties, which are significantly improved by the achieved by the short-wave VUV or UV radiation higher degree of crosslinking, of importance.

Using nanocomposite paints - EP 1 123 354 - Low-wear matt coatings of floor coverings such as parquet, laminate and PVC flooring are realized. In the automotive industry, decorative elements of the metal-based interior not only have a stable matt finish, but also a pleasant feel to this surface, improved corrosion protection and stain resistance due to the barrier properties of the coating and the anti-fingerprint properties compared to a glossy coated one or uncoated metal surface, which is achieved by the microstructuring of the surface.

After all The microstructure causes static friction and sliding friction significantly reduced compared to the smooth surface and with the paint formulation and the folding form the friction properties are adjusted.

In Special investigations also showed the microfoldability of molten metal UV powder coating can be detected.

Technically, the process of photochemical microfolding is achieved by using an excimer lamp as a single, double lamp or array, as in the patents DE 10 2005 060 198.7-54 and PCT / EP 2006 010999 described with downstream of a long-wave excimer lamp, z. B. 308 nm emitting photons, a medium-pressure mercury lamp or a low-energy electron accelerator realized, at least the short-wave excimer lamp to avoid ozone production and maintaining their UV performance under inert conditions - preferably under pure nitrogen atmosphere - to operate. This arrangement is shown schematically in FIG 1 shown. The resulting self-organizing microstructure structure is now dependent on many paint chemical and irradiation parameters.

A big role plays the radiation dose and also the time of the final hardening, which is defined at Passing speed of the distance between the short-wave excimer lamp and the curing radiator depends.

In The rule is the color or paint formulation according to the application technology Assembled claims. It can, if known, already the micro-folding behavior of the paint raw material components involved be taken into account.

However, the actually adjusting micro-refolding structure only becomes effective after coating the target substrate with the intended layer thickness of the lacquer using the industrially intended coating method and Be radiation with an in 1 clearly shown configuration.

For experiments to adapt the microstructure structure, for example for setting a defined degree of gloss and / or certain coefficients of friction, the in 1 shown arrangement in the form of a variable laboratory plant are used.

adversely is not only the one with restrictions in the plant variability in particular the distance of the radiators and the belt speed associated technical and thus financial in sample flow systems Effort, but also the experimental time required, in particular when using paint components where the folding behavior still unknown. Also the testing of UV powder coatings, in which the coating melted at temperatures ≥ 100 ° C by The system has to be driven in this way is very difficult possible.

task The present invention is therefore an apparatus for detection the folding kinetics and the folding speed of radiation-curable Lackrohstoffkomponenten and colorants and paints to propose with which simulates the technological processes realistically and all the information you need quickly and easily can be obtained.

The Solution of the problem of the invention arises from the characterizing features of claim 1 in Connection with the characteristics of the generic term. Further advantageous Embodiments of the invention will become apparent from the dependent claims.

The device according to the invention should be described in structure and function below with reference to 2 be explained in more detail.

For registering the folding kinetics it is necessary the process analogous to a real-time FTIR device in real time optically and metrologically to track and to determine the folding speed evaluable to register.

In addition shows 2 the structure of the device according to the invention.

This consists of a nitrogen-inertizable reaction chamber, which consists of adjustable walls 1 is constructed.

This construction with adjustable walls 1 allows the exposure and UV irradiation as well as the optical registration of the folding process on the central sample location 2 on the ground 3 to focus the chamber.

In the ground 3 the chamber is a sample changer 4 embedded in which is a mobile displaceable radiometric sensor 5 corresponding photosensitivity is under an optionally controlled electrically heated, against the sample changer electrically and thermally insulated sample stage 6 can be pushed at the end of the sample changer.

Centrally in the sample table is a preferably circular breakthrough 7 , wherein the shape and size of the breakthrough can be arbitrary, if it does not affect the function.

In the case of analyzing the microfolding behavior of a transparent resist using a transparent substrate, light from a light source may be used 8th through the sample, the substrate, which may be, for example, a glass slide, and through the aperture in the sample stage 6 on the photodiode of the mobile sensor 5 meet when this is in the position under the sample table 6 located.

Lotrecht over the center of sample 2 and breakthrough 7 is a UV light source triggering the folding process 9 arranged.

This UV light source 9 is an excimer lamp whose quartz emitters emit almost monochromatic VUV or UVC photons depending on the gas filling, which, even without the use of photoinitiator, initiates the polymerization of the coating consisting of monomers or oligomers or a monomer / oligomer mixture on its surface and in the near-surface layers and as a result can trigger the microfolding.

When the light source is switched on 8th , which emits a visible measuring light without ultraviolet component in order to prevent unwanted hardening in investigations of paints with photoinitiator added, registers the photodiode of the sensor 5 one of transparent varnish and substrate as well as the power of the light source 8th dependent illuminance (Irradiance in mW / cm ² ) as base load, whereby the sensor absorbs this illuminance with a sampling rate of 1000 s ^-1 . Shortly after the beginning of the exposure of the paint sample, the microplating of the surface starts, whereby by light scattering and decrease of the transparency of the coating, the illuminance registered by the photodiode decreases. The measurement sequence of 1 ms perfectly reflects the folding kinetics and their efficiency on the basis of the degree of intensity decrease. As in the patent DE 10 2005 060 198.7-54 described, becomes the UV light source 9 in the case of a 172 nm excimer radiator with nitrogen, which simultaneously serves to inertise the chamber Introduce the same cooled in the lamp housing over the entire radiator length.

In order to use this VUV / UV irradiation technique real irradiation situations, ie irradiation doses and residence times of the as in 1 To be able to simulate the passage of the product to be irradiated, the lamp power and the exposure time of the device according to the invention are adjustable.

To avoid the transient phase of the radiator this is preferably operated in continuous operation and the exposure time with a fast shutter 10 realized in a range of 50 ms to several seconds under the Excimerlampe.

For coating systems with photoinitiator, the apparatus contains a 365 nm UV LED spot 11 with which the micro-folded coating can be subjected to a final hardening.

On This can also be the time interval between the Excimer irradiation and final curing in an industrial plant, or the necessary distance for a defined Production speed and a selected paint formulation determined or a folding state in the course of the kinetics "frozen". For the investigation of the microfolding behavior of viscous formulations or even to be melted UV powder coatings is used an optional electric heating of the sample table.

When another option, and for non-transparent Color and UV powder coating systems without alternative, is an optical Follow the folding process using a high-speed camera or CCD Camcorder with at least 100 f / s possible.

The camera 12 can process using the measuring light source 8th depending on the type of paint in the incident or transmitted light method by attachment to the nozzle 13 or 14 record, and with appropriate software, the temporal resolution of the folding process can be made.

For samples to be heated, the sample surface may be replaced by one from an auxiliary nozzle 15 outflowing heated nitrogen stream, which is passed as a veil over the sample, are shielded against the exiting from the Excimerlampengehäuse cold cooling nitrogen.

To monitor the residual oxygen content in the chamber, the gas is passed through a measuring probe 16 aspirated and fed this sample gas stream an oxygen meter.

Used as a radiometric sensor 5 a calibrated gallium phosphide diode (GaP diode) is used, then without sample and substrate through the opening of the sample table through the VUV or UVC excimer light source 9 calibrated, ie the UV dose rate and for each shutter aperture 10 the dose will be determined.

Thus, this universal real-time apparatus is ideal for developers of microstructurable radiation-curable coatings and the design of industrial equipment for photochemical surface structuring according to the in 1 illustrated principle suitable.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 102006042063 [0005]
• - EP 1123354 [0006]
• - DE 102005060198 [0009, 0027]
• - EP 2006010999 [0009]

Claims (12)

Device for optical and metrological determination of the Mikaltaltungskinetik and the folding speed of surfaces of decorative and functional electron beam or UV-curing paint and lacquer coatings, triggered by short-wavelength monochromatic excimer UV radiation, operating in real-time mode, characterized in that they consists of a chamber flushable with an inert gas to produce a low-oxygen atmosphere, which comprises at least one universal sample table ( 6 ) for fixing a wide variety of coatable substrates on at least one sample changer ( 4 ), at least one of the inert gas cooled VUV or UVC excimer light source ( 9 ), at least one fast shutter ( 10 ) under the excimer light source ( 9 ), at least one measuring light source ( 8th ), at least one further UV light source for lacquer curing ( 11 ), at least one displaceable radiometric photosensitive sensor ( 5 ), at least one Inergaszusatzdüse ( 15 ), at least one temperature sensor on the sample table and at least one gas probe ( 16 ) for gas sampling for the residual oxygen measurement in inert gas and pipe sockets on the walls ( 13 ) and on the chamber floor ( 14 ) for coupling of suitable camera technology. Apparatus according to claim 1, characterized in that the chamber adjustable walls ( 1 ), whereby the exposure and UV irradiation and the optical registration of the folding process on the central sample location ( 2 ) on the ground ( 3 ) of the chamber is focused. Apparatus according to claim 1 or 2, characterized in that the recessed into the chamber bottom sample changer ( 4 ) a recess for receiving a displaceable therein sensor ( 5 ) with at least one photodiode and a universal sample table ( 6 ) wearing. Device according to claim 3, characterized in that that the photodiode at a high photosensitivity a wide Wavelength measuring range from VUV (<200 nm) to the visible range (up to 800 nm), except to register the Measuring light also for the calibration of the shortwave Excimer UV light to be used. Device according to claim 3, characterized in that the photodiode is a gallium phosphide (GaP) diode. Device according to claim 1, characterized in that the sample table ( 6 ) one on the sample changer ( 5 ) is a replaceable closed or pierced flat surface. Device according to claim 1 and 6, characterized in that the sample table ( 6 ) electrically heated and against the supporting sample changer ( 4 ) is electrically and thermally isolated. Device according to Claim 1, characterized in that the excimer UV light source ( 9 ) is a pure gas-cooled radiator in tube or spot shape and can also be an emission diode. Device according to claim 1, characterized in that the shutter ( 10 ) under the excimer UV light source ( 9 ) acts as a shutter. Apparatus according to claim 1, characterized in that the measuring light source ( 8th ) emits visible light without UV component (<400 nm) and preferably a powerful emission diode that emits green light, for example. Device according to claim 1, characterized in that the UV light source ( 11 ) for final curing of the coating sample is preferably an emission diode, for example emitting 365 nm UV light. Device according to claim 1, characterized that for the optical recording of the micro-folding process for the determination folding kinetics and rate of folding are suitable High-speed video camera or a CCD camcorder with at least 100 frames / s is used.