DE102007048901A1 - Solution's e.g. ethyl acetate, penetration behavior determining method for use in e.g. paper, involves determining penetration behavior of solution into substrate by measured temporal intensity gradient - Google Patents

Abstract

The method involves applying a solution e.g. ethyl acetate (2), on a porous substrate e.g. paper (3), where one of the solution and the substrate has a fluorescent dye. A temporal intensity gradient of a fluorescent radiation (6) received by the substrate and the solution is measured, where the solution is a mixture of solvents. A penetration behavior of the solution into the substrate is determined by the measured temporal intensity gradient, where the solution penetrates into the substrate containing a fluorescent substance. An independent claim is also included for a device for determining a penetration behavior of a solution into a substrate.

Description

at The coating of substrates leads to interactions between Substrate and coating material. For liquid coating materials and porous Substrates finds above all a knocking off of the liquid material in the substrate instead. The penetration of the liquid coating material in the substrate has a big one Influence on the processing process as well as the achieved coating quality.

For example When printing on paper in gravure printing is a printing ink, the usually dissolved in toluene or ethyl acetate, applied to the paper. The gravure ink is applied from small wells, from which the ink is sucked from the paper. The absorbency of the paper opposite The gravure ink is therefore very important. The for the gravure used papers are therefore specially for the requirements of this Printing method designed. The interaction of the ink with the paper is above all dependent from the interaction of the solvent used with the paper substrate. It is known that organic solvents be absorbed by paper very quickly, the penetration of the solvent or the Wegschlagprozess of the organic solvent in paper very fast. Because of this, there is no good measuring method, to measure the penetration of organic solvents in paper.

When Measuring method is z. As the putty test available in the olive oil on the Paper is applied. After a certain time everything will be on the surface wiped off the paper and measured how much oil in the Paper has penetrated. This test gives little information about the indeed very fast suction and penetration processes.

Other Examples where coatings with organic solvents in contact with porous Substrates can come his painting processes of paper and wood, siliconising of paper, equipping of Textiles, coating wood, laminating papers with others Substrates. Cold-Set and Heat Set offset inks are also available to knock off organic components in the paper.

It The object of the invention is a method and a device for Determine a penetration of a solution in a substrate available with which the penetration behavior can be exactly determined.

According to the inventive method is the penetration of solutions, Solvents, coatings, Printing inks measured by means of a fluorescence meter, which is above the Substrate is arranged. The fluorescence meter is capable of the respective Layer thickness of the solution, the solvent, the coating or ink. The measurements with the fluorescence meter are very fast, which is why information about the layer thickness of the solution, the Solvent, the coating or the ink obtained in very short time intervals become. The measurement frequencies are up to 10 000 spectra per second, allowing even very fast changes in layer thickness the solution, of the solvent, the Coating that is ink-traceable.

In order to the measurement by means of fluorescence spectroscopy is possible, it is necessary that the substrate and / or the solution, the solvent, the coating, the ink fluoresce.

The Penetration of the solution, the solvent, the coating, the ink in a substrate is particularly pronounced when the substrate is porous is. Through the pores the solution, the solvent, the coating, the ink very quickly into the substrate. examples are the already mentioned Gravure ink, which is absorbed very quickly by the paper. It is advantageous, even if these fast penetration processes are investigated can be.

Especially porous Substrates where a rapid penetration of a solution, a Solvent, A coating that can occur in a printing ink are Paper, Non Wovens, fleece, textile, wood, tissue. The removal of solvents, solutions, Coatings can be very fast. Because these trailers or Penetration processes for the processing of these substrates with the corresponding Solution, Solvent, Coating, printing ink and for the final quality achieved Of importance, it is beneficial if the penetration behavior of solvents, Solutions, Coatings can be measured. It is based on the obtained information about the way possible, substrates and / or solvent, Solutions, Coatings to coordinate or develop so that these better match each other. With the help of the data with the inventive method be achieved, it is possible to reduce costly production trials. Also, it is possible the quality of substrates or solutions, coatings, solvents to consider.

It is advantageous if the substrate contains a fluorescent dye or fluoresces itself. Since fluorescence spectroscopy can only be used when a fluorescent compound is present, the use of fluorescent substrates is advantageous. Solvents that are on the substrate change the signals detected by the fluorescence spectroscope. These signal changes are dependent on the layer thickness of the solvent. The detected signals of the fluorescence spectroscope thus provide information about the existing at that time layer thickness of the solution, the solvent, the coating, the ink.

By Use of fluorescent substrates, it is not necessary that the solution, the solvent, the coating, the ink contains a fluorescent substance. This is advantageous because it used in industrial practice Solutions, Solvent, Coatings, printing inks can be used without additive.

papers contain mostly fluorescent substances. Therefore, that can Substrate paper as well as the solution the solvent, the coating that uses printing ink from industrial practice be without these materials by pretreatment with fluorescers to influence.

According to one embodiment of the invention, it is advantageous if the solution, the solvent, the coating, the ink itself fluoresce or contain a fluorescent substance. These substances can the solution, the Solvent, the coating to be added to the ink before the measurement. This is advantageous when using substrates themselves do not fluoresce. It is furthermore advantageous if the fluorescence meter is designed in this way is that there are fluorescent dyes only in a restricted radiation range excites and contains only one detector, which is only in a restricted wavelength range detected. By adding fluorescent substances to the solution, the Solvent, the coating, the ink can be specifically fluorescent Substances are used that match the fluorescence meter used.

The Layer thickness of the solution, the solvent, the coating, the ink with the fluorescent substance can be with the fluorescence meter easily determine from the obtained measured values.

It is advantageous if, instead of a solution, a pure solvent or a mixture of solvents is used. The use of this pure solvent or mixtures from solvents can be used to different papers with each other to compare. The pure solvent or the mixture of solvents serves as standard in this case. The use of a solvent standard makes sense, as many coating materials and printing inks as the main component the pure solvents or a mixture of solvents contain.

It is advantageous according to a embodiment of the method according to the invention, if as a pure solvent or as a mixture of solvents water, ethyl acetate, acetone, toluene, xylene, ether, Ethanol, methanol, isopropanol, as these solvents in very many Coating materials are used.

It is also advantageous when coating material components, ink components, gravure ink, Gravure ink components are included in the solution. With a such solution can Comparisons of z. B. various substrates are made, which then fit the specific process where the ingredients are the solution used become.

The Penetration of solutions, solvents Coating materials, printing inks in substrates can be very fast especially when using porous substrates. It is advantageous although fast processes can be measured. This is with the method according to the invention possible.

It It is advantageous that with the method according to the invention also the penetration of solvents It can be investigated in less than two seconds he follows. This means that even very fast processes can be tracked.

According to one another embodiment the invention, it is advantageous if the solutions very quickly on the Substrate can be applied. This is necessary for the fast Intrusion fully investigated can be. Furthermore have to obtained with the application process constantly thick layers of the solution become. The application process is spraying, as this is very fast can take place and a good dosage is possible. The same goes for for application with a syringe that takes place in fractions of a second. The usage A brush is also beneficial because it is fast and even. The use of a squeegee or an applicator roll is also advantageous, since they are fast, produce low layer thicknesses and moreover often in line with the industrial process.

According to one another embodiment of the invention, it is advantageous if the solution, the solvent, the coating material, the ink in thin Layers is applied. This is useful because the thin layers correspond to industrial practice.

According to another embodiment of the Invention, it is advantageous if the fluorescence meter can measure very quickly. This also makes it possible to detect fast dissociation processes of solvents.

According to one another embodiment of the invention, it is advantageous if the fluorescence meter with more than 50 shots per second can measure. This will also be fast Wegschlagprozesse of solvents, which occur within times of less than 1 second, detectable.

According to one another embodiment According to the invention, it is advantageous if the fluorescence meter has a own radiation source excites the fluorescent substances. This ensures reproducible measurements, as always the same excitation of the Substances take place.

According to one another embodiment According to the invention, it is advantageous if the fluorescence measuring device repels of solutions can also measure on a small point. It can be studied with it be whether substrates over the entire surface even strike demonstrate. This is important for the uniformity of coatings. Furthermore can also study small spots, which is helpful if only very little sample material is available.

According to one another embodiment of the invention, it is advantageous if the fluorescence meter a greater distance from the substrate. A minimum distance is 1 mm, so a reasonable Apply the solution between substrate and measuring device possible is.

According to one another embodiment of the invention, it is advantageous if the fluorescence meter a Has a distance of more than 1 cm from the substrate. Applying the solution between substrate and measuring device is then possible with more complex application process.

According to one another embodiment According to the invention it is advantageous if the measurement of the Wegschlagverhaltens the solution, the solvent, the printing ink, the coating in a substrate in a running Machine, d. H. on line, done. This allows the quality of the produced Improve material and / or keep it constant, as the breakaway process a big Influence on the final quality Has.

following the invention with reference to an embodiment shown in the drawing further described. Show it:

1 an embodiment of the method according to the invention, and

2 the measured data obtained by the method according to the invention.

The inventive method is illustrated by way of example in 1 , It is done with the help of a syringe 1 the solvent is ethyl acetate 2 on a paper 3 , which fluoresces itself, applied at the point where the fluorescence meter 4 located. The fluorescence meter 4 sends radiation 5 with a radiation source 8th out. The fluorescence of the paper causes its fluorescence radiation 6 with the detector 7 of the fluorescence meter 4 detected.

In 2 are traces 9 . 10 . 11 shown from three experiments. The penetration of the ethyl acetate within 0.5 seconds is recognizable.

Essigester is chosen, as a solvent used in packaging gravure printing.

Claims (25)

Method for determining a penetration behavior of a solution ( 2 ) into a substrate ( 3 ), which comprises the following steps: application of the solution ( 2 ) on the substrate ( 3 ), with at least one solution ( 2 ) and substrate ( 3 ) has a fluorescent dye, - detecting a temporal intensity profile of one of the substrate ( 3 ) and the solution ( 2 ) received fluorescence radiation ( 6 ); Determining the penetration behavior of the solution ( 2 ) in the substrate ( 3 ) based on the recorded temporal intensity profile. A method according to claim 1, characterized in that the Substrate porous is. Method according to claim 1 or claim 2, characterized the substrate consists of at least one of the following: paper, Non Wovens, Tile, Textile, Wood, Tissue. Method according to one of claims 1-3, characterized the substrate contains at least one fluorescent substance. Method according to one of claims 1-4, characterized that the substrate itself fluoresces. Method according to one of claims 1-5, characterized in that that the solution, which penetrates into the substrate, at least one fluorescent substance contains. Method according to one of claims 1-6, since characterized in that the solution which penetrates into the substrate, fluoresces. Method according to one of claims 1-7, characterized that the solution a pure solvent is. Method according to one of claims 1-8, characterized that the solution a mixture of solvents is. Method according to one of claims 1-9, characterized that the solution contains at least one of the following components: water, Ethyl acetate, acetone, toluene, xylene, ether, ethanol, methanol, isopropanol, Paint components, coating material components, printing ink components, Gravure ink, gravure ink components. Method according to one of Claims 1-10, characterized that the penetration of the solution into the substrate is very fast. Method according to one of Claims 1-11, characterized that the penetration of the solution into the substrate less than 2 sec. is. Method according to one of Claims 1-12, characterized that the solution is applied by at least one of the following methods: a. spraying, b. Spraying, c. Apply with a syringe, d. With a Apply brush, e. Apply with a squeegee, f. With Apply an applicator roll. Method according to one of claims 1-13, characterized that the solution in thin layers is applied. Method according to one of claims 1-14, characterized that the method is carried out by means of a fluorescence measuring device. A method according to claim 15, characterized in that the fluorescence measuring instrument can perform more than 50 measurements per second. Method according to claim 15 or claim 16, characterized that the fluorescence meter itself emits radiation to excite a fluorescent dye. Method according to one of Claims 15-17, characterized that the fluorescence meter itself radiation to excite the fluorescent dye in the solution and / or emitted in the substrate. Method according to one of Claims 15-18, characterized that the fluorescence meter or whose excitation radiation can be focused for measurement the fluorescence of a small spot on the substrate. Method according to one of Claims 15-19, characterized that the fluorescence meter or whose excitation radiation can be focused for measurement the fluorescence of a small spot smaller than diameter 2 mm on the substrate. Method according to one of Claims 15-20, characterized that the fluorescence meter a distance greater than 1 mm from the substrate. Method according to one of Claims 15-21, characterized that the fluorescence meter at a distance greater than 1 cm from the substrate can measure. Method according to one of claims 15-22, characterized that the fluorescence meter at a distance greater than 1 cm can measure a small spot on the substrate. Method according to one of claims 1-23, characterized that the measurement of the Wegschlagens takes place in a running machine. Device for determining a penetration behavior of a solution ( 2 ) into a substrate ( 3 ), which comprises: - an application device ( 1 ), which have a lot of solution ( 2 ) on the substrate ( 3 ), with at least one solution ( 2 ) and substrate ( 3 ) has a fluorescent dye, - a fluorescence unit ( 4 ), which is adapted to a temporal intensity profile of one of the substrate ( 3 ) and the solution ( 2 ) received fluorescence radiation ( 6 ), whereby the penetration behavior of the solution is determined on the basis of the recorded temporal intensity curve ( 2 ) in the substrate ( 3 ) is determinable.