METHOD FOR SURFACE TREATMENT OF PAPER AND PAPER

专利摘要:
In a process for the surface treatment of paper, in particular of inkjet printable paper, comprising on a base paper containing cellulose fibers and optionally fillers, an optical brightener, retention aids or colorants or pigments, an aqueous solution containing at least one water-soluble salt of a divalent metal and optionally one or more substances selected from a binder, a pigment, a surface sizing agent and / or cationic polymer is applied, from a pulp containing as main component cellulose, between 0 and 50 wt .-%, in particular 10 and 30 wt .-% CaCO 3 is formed as a filler and optionally an optical brightener or a retention aid, a non-sized base paper and the base paper with a liquid surface treatment medium containing between 1 and 15 kg / ton paper MgSO 4 and optionally a cationic polyme r coated and optionally subjected the paper to a post-treatment step.
公开号:AT511619A1
申请号:T914/2011
申请日:2011-06-22
公开日:2013-01-15
发明作者:Paul Achatz；Heidemarie Reiter；Wolfgang Dietl-Schuller
申请人:Mondi Ag；
IPC主号:

专利说明:

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The present invention relates to a process for the surface treatment of paper, in particular inkjet printable paper, wherein on a base paper containing cellulose fibers and optionally fillers, an optical brightener, retention aids or colorants or pigments, an aqueous solution containing at least one water-soluble salt of a divalent metal and optionally one or more substances selected from a binder, a pigment, a surface sizing agent and / or cationic polymer is applied, and to a paper thus prepared.
Paper, which is a complex product composed of various natural cellulose fibers with pigments, fillers and the like, has very different properties depending on the composition or raw materials used. In order to adapt the properties of the paper to the specific requirements, on the one hand this complex composition which forms the base material of paper, a plurality of different substances are added or the paper can after forming a base paper from a pulp and optionally pressing and drying a surface treatment be subjected to give the paper the desired specific properties. Here, for example, the choice of additives to the paper in the dewatering process, during drying and in improving the retention plays a major role. To improve the retention, for example, cationic polymers, nanoparticles or several polymers are added at the same time. The effect of these polymers is to retain colloidal particles on the fiber surfaces without causing them to accumulate between the fibers. Other important additives for the modification of the base paper are hydrophobic sizing agents, which are often added in the form of emulsions and / or dispersions and serve to attach to the fiber or filler surfaces and thus make them hydrophobic.
In the case of printable papers, it has been known for a number of years to perform special surface treatments, such as, for example, salts of divalent metals as precipitants, dye fixing agents or coagulation aids for dyes (inks) to the surface treatment center! to improve the properties of the paper for printability.
For example, EP 0 999 937 B1 describes a composition which is suitable for the surface treatment of a substrate for ink jet printing and in particular for increasing the color density of a printer ink on paper, which composition contains a salt of a bivalent metal ion which can be dissolved in an aqueous sizing medium and additionally as a sizing medium Contains starch and a sizing agent. This composition is intended to improve the ink jet printability of the color density of the ink on paper.
EP 1 775 141 B1 discloses a paper recording sheet whose surface has been treated with water-soluble calcium chloride to improve printability.
The present invention now aims to provide a method for producing paper or a paper which is easy to carry out and in which by using less constituents a paper can be produced, on which an at least equivalent color density as with products according to The prior art can be achieved in printing and at the same time less bleeding, discarding of the paper, fraying and an improved color-in-color course of the paper after printing and a faster drying time of the printing ink is made possible on the paper.
To achieve this object, the inventive method is characterized in that from a pulp containing as main component cellulose, between 0 and 50 wt .-%, in particular 10 and 30 wt .-% CaCO 3 as a filler and optionally an optical brightener or a retention aid, a unprimed base paper is formed and that the base paper with a liquid surface treatment medium containing between 1 and 20 kg / ton paper MgSO ^ and optionally a cationic polymer is coated and that the paper is optionally subjected to a post-treatment step and drying. By first a non-sized base paper is prepared, and this unsized base paper with a liquid surface treatment medium containing between 1 and 20 kg / t of magnesium sulfate and optionally other additives, such as a cationic polymer is coated and the paper is optionally subjected to a post-treatment step succeeds with Extremely few steps to produce a paper on which in addition to the base paper forming main components cellulose and calcium carbonate as filler additionally only magnesium sulfate must be applied as a surface treatment medium. Magnesium sulphate forms a monohydrate on the surface of the paper during papermaking since higher temperatures than 68 ° C. prevail during drying on the surface. At room temperature, the stable form is magnesium sulfate. Heptahydrat, which is why in a subsequent printing of the paper with water-based inks used per unit of dry dry magnesium sulfate 0.90 units of water can be added. During subsequent printing, in particular in the inkjet process, a paper produced in this way is superior to conventional papers in terms of the drying rate. In addition, the dimensional stability of the paper is improved, since the water absorbed by the magnesium sulfate can not contribute to the swelling of the fibers and thus the bulging of the paper is prevented at the printed areas. For comparison, for example, the calcium chloride frequently used in surface treatment agents forms a dihydrate at the temperatures of papermaking, but at room temperature it forms a hexahydrate. Thus, a dry calcium chloride used in a unit of mass can only absorb about 0.65 mass units of water, so that the magnesium sulfate used in the context of the present invention is 38% more effective at absorbing water than the commonly used calcium chloride. In this connection, when starting from an already dried base paper, by applying a magnesium sulfate solution to the paper surface, during printing of the paper produced according to the invention, the liquid contained in the ink can be rapidly and reliably absorbed by the surface treatment medium, magnesium sulfate In particular, the point size of a treated with magnesium sulfate paper is significantly lower than that of a treated with calcium chloride paper, whereby it succeeds in such a procedure surprisingly by using extremely few and selectively selected ingredients to produce a paper which in quality at least one conventional Paper, which in addition to the surface treatment usually also contains sizing agents, pigments and other additives corresponds.
When printed with water-based pigment inks or water-based pigment ink, the water-soluble magnesium sulfate may partially dissolve in the ink, thereby destabilizing the pigment dispersion and coagulating the color pigments. The coagulated color pigment remains on the surface of the paper and does not penetrate with the liquid into the interior thereof, and therefore the paper treated with magnesium sulfate according to the invention has a higher color density when printed with water-based pigment inks than an untreated paper.
Another advantage of the method according to the invention is the replacement of the usually contained, highly corrosive chloride by less corrosive sulfate, so that the life of the application unit for the surface treatment is extended and the life of the wear parts in the application unit, such as the metering rods, increased. Likewise, in the recycling of rejects, the entry of corrosive chloride into the water cycle of the paper machine is reduced.
In that, as this corresponds to a preferred development of the method according to the invention, the paper is subjected to calendering or smoothing as a post-treatment step, despite the absence of internal sizing agents or other additives, it is possible to produce a smooth paper which has no distortions and which in any modern printer can be used to provide. It is also irrelevant hiebei, whether it is an inkjet printing or laser printing.
By according to a preferred embodiment of the method according to the invention, the paper to a smoothness between 60 and 150 Bekk s. is smoothed or calendered, the
Fraying of the ink along the fibers is reduced and is comparable to a paper that has been treated with a hydrophobing by an inner and / or a surface sizing agent. Thus, the paper according to the invention is well and advantageously suitable for use in inkjet printing or even in laser printing without the formation of distortions.
By the process of the invention is preferably carried out so that the base paper with MgSO * and a cationic polymer selected from the group of Polyaminepi-chlorohydrin, dicyandiamide, Polydiallyldimethyiammoniumchlorid-, polyaluminum chloride polymers, polyethylene amines, polyvinylamines and polyacrylamides is coated, it succeeds in particular to achieve an improved fixation of dye inks on the surface of the paper, while simultaneously drying the liquid dye composition applied to the surface of a paper thus produced, so as to exclude bleeding of the colors with certainty and at the same time good adhesion to the surface is achieved.
A particularly good fixation of the paper surface is achieved by using the cationic polymer in an amount of 1 to 12 kg / t paper in the surface treatment medium. In such a process management, it is possible at the same time to achieve rapid drying of the ink applied to the paper thus produced and to avoid bleeding of the same with small amounts of the surface treatment medium used during the production process.
In particular, favorable properties of a paper produced according to the method of the present invention can be achieved by using as liquid surface treating medium 2 to 20 kg / t of paper, in particular 6 to 10 kg / t of paper MgSO 4 and 1 to 12 kg / t of paper, in particular 4 kg / t paper polydiallyldimethylammonium chloride polymer is used.
With such a vote of the amounts of magnesium sulfate as an absorbent and as a fixing agent or precipitant for pigment inks and the special poly-diallyldimethylammonium chloride polymer as a dye dye fixing it succeeds in extremely few steps and at the same time using less additives to produce a paper which has comparable properties to a conventional paper having both internal and surface sizing, but can be produced economically more favorably. For a particularly simple procedure, the process according to the invention is carried out such that the MgSO 4 solution is used as 0.5 to 20% strength by weight, in particular 1 to 6% strength by weight, aqueous solution. By adding magnesium sulfate as 0.5 to 20 wt .-% solution succeeds a particularly homogeneous distribution of the fixing agent in the surface treatment medium and thus subsequently on the surface of the thus treated paper, so that consistent properties over the entire surface of the process according to The paper produced according to the invention can be ensured.
By carrying out the process in such a way that, in addition, a binder, such as a native or modified starch, a polyvinyl alcohol, a carboxymethylcellulose, polyvinylpyrrolidone or mixtures thereof, is used, it is possible to use this process, as in accordance with a preferred development of the process according to the present invention To form a continuous layer on the surface of the paper, which is characterized by an extremely high uniformity, so that not only the dye-binding properties but also in particular the uniformity of the printability of the paper is significantly improved by such a procedure.
In order to be able to provide a paper with particularly high whiteness, the process according to the invention is conducted in such a way that a disulphonated, tetrasulphonated, hexasulfonated optical brightener or distyrylbiphenyl brightener is used. Surprisingly, the effectiveness of a di-, tetra- or hexasulfonated optical brightener or a distyrylbiphenyl brightener is reduced to a significantly lesser extent by using magnesium sulfate than by calcium chloride, for example, so that with such a process control a significantly better whiteness of the paper compared to papers to which, for example, salts of other divalent metal ions have been added can be achieved.
This effect can be further improved according to the present invention in that, as corresponds to a preferred development of the method according to the invention, the optical brightener is used both in the base paper and the surface treatment medium.
In connection with the present invention, it has surprisingly been found that in a subsequent printing of a paper according to the invention a uniformly high color density can be achieved that in the surface treatment medium additionally selected from the group milled, precipitated or modified 0aCO3l silica gel, Al203 kaolin , Titanium dioxide or mixtures thereof. The surface treatment with a pigment alone increases the ink density in inkjet printing over an untreated paper, the additional use according to the invention of MgSO 2 leads to a further improvement in the color density, so that the use of this combination according to the invention both in papers containing a pigment as Also, papers that contain no pigment, leading to surprisingly beneficial and unexpected results.
The process according to the invention can thus be used with equal success both for the production of pigmented and for the production of non-pigmented paper. For a particularly uniform process control and in particular for uniform results of the process according to the invention, the process is preferably carried out so that the surface treatment medium additionally a viscosity regulator, such as a polyacrylate is added. With such a process management, it is possible to achieve a uniform, in particular uniformly thick surface treatment layer on the paper.
In order to avoid undesirable effects when printing with water-based inks, such as swelling of the binder with concomitant loss of strength, the process according to the invention is preferably conducted in such a way that a crosslinking agent, for example a zirconium salt, is added to the binder, especially the starch.
To increase the smoothness of a paper produced by the process according to the present invention, the process according to the invention is preferably conducted in such a way that a lubricating medium is added to the surface treatment medium. Here, calcium stearate has proven to be advantageous, which results in both an increased smoothness and a good printability of the paper.
In a preferred embodiment of the invention and in particular to achieve a uniform and well printable surface layer of the particular pigmented paper, the inventive method is performed so that the total solids content of the surface treatment medium between 15 to 70 wt .-%, in particular 30 to 50 wt. % is selected. By choosing the total solids content of the surface treatment medium to be between 15 to 70% by weight, especially between 30 and 50% by weight, a uniform stroke of the base paper can be achieved, and additionally the thickness of the surface layer obtained by applying the surface treatment medium to the base paper can be set arbitrarily and in particular to a minimum requirement.
With such a procedure, it is therefore possible according to a preferred development of the method of the present invention, to achieve a particular pigmented paper, which is characterized in that a weight of a dry surface coating 1 to 10 (g / m2 side), in particular about 4 (g / m2 side) is achieved. Such weight of a dry surface coating corresponds to the weight which is conventionally applied to printed papers and according to the present invention can be achieved with an extremely simple process procedure in which only magnesium sulfate must be contained in the surface treatment medium.
In particular, the present invention relates to a paper produced according to the method of the present invention, which is preferably usable for ink-jet printing. According to a preferred embodiment of the invention, such a paper is preferably substantially characterized in that a contact angle of water, in particular distilled water with the paper between 15 ° and 70 °, in particular between 25 ° and 50 °. Surprisingly, it has been found that the paper produced by the process according to the present invention can be used over an extremely wide range of contact angles of water with paper and, despite this wide range of useful contact angles, it is possible for color to fade or fade the color with certainty, which is mainly due to the very good dry effect of the MgS04 used.
The invention will be explained in more detail below by means of embodiments in which the paper produced by the method of the present invention is compared with conventional papers.
Embodiment 1
On a test paper and a reference paper from a unsized raw paper with 100 g / m2 basis weight aqueous solutions of poly-DADMAC (polydiallyl-dimethyl ammonium chloride) were applied with a doctor blade and in the case of a test paper according to the invention magnesium sulfate and in the case of a reference paper calcium chloride. The concentrations were chosen such that with a two-sided wet application of 12 (g / m2 side) the content of polyDADMAC 4.7 kg / t, CaCI2 or MgS04 3 to 10 kg / t coated paper would be. In fact, however, only one side was coated with 12 g / m 2 wet application of the appropriate solution and dried. Then the coated side was printed with an HP Photosmart B9180 printer with the " standard / plain paper " printed using pigmented inks. With an X-Rite DensiEye 700 color densitometer, the color densities of solid areas of cyan (C), magenta (M), yellow (Y), and black (K) and binary mixed colors red (100 M + 100 Y), green ( 100 C + 100 Y) and blue (100 C + 100 M). In Fig. 1, the average of the 7 measured color densities against the salt content (calculated on double-sided application) is plotted.
In the evaluation of this printing test shown in Fig. 1, it is clearly evident that the color density which can be achieved with the unsized paper according to the invention is superior or at least equal to that of the conventional, unsized comparative paper.
Embodiment 2
On a paper machine, an unprimed paper of 90 g / m 2 basis weight was formed from a pulp suspension containing as filler 15% by weight of precipitated calcium carbonate (PCC) drawn to the dry content of the suspension and in a film press a surface treatment medium consisting of an aqueous solution of 2.0% by weight of magnesium sulfate and 1.0% by weight of poly-DADMAC, applied on both sides such that the content of magnesium sulfate in the finished paper was 7 kg / t. The paper was smoothened to a smoothness of 105 Bekk s. * * * * • * * * * • • • • • • • • • • * * «« »· · · - -
Reference example 1
On a paper machine was a sized paper with 90 g / m2 basis weight of a Zeilstoffsuspension containing as filler 18 wt .-% precipitated calcium carbonate (PCC) based on the dry content of the suspension formed. Ai-kenyl succinic anhydride (ASA) was used as the sizing agent, and the sizing amount was adjusted so that the 60 s Cobb value of the finished paper was 30 g / m 2. In a film press, a surface area treatment medium consisting of an aqueous solution of 10% by weight of enzymatically degraded corn starch and 1.8% by weight of CaCl 2 was applied so that the content of CaCl 2 in the finished paper was 6 kg / t. The roughness was set to a standard value for natural papers of 200 ml / min according to Bendtsen.
The papers of Embodiment 2 and Reference Example 1 were printed with various printers, and the color densities were measured as stated above. In addition, the color density of the black panel on the back of the paper was measured as a measure of ink bleed. The printers used were an HP Photosmart B9180 with the standard pigment inks and "standard / plain paper" print settings, a Canon MP610 with standard dye inks and the print settings "High / Photo Glossy Paper", an Epson Stylus S21 filled with Kodak Versamark dye inks from the FV2000 series and the print settings " Design / Epson glossy " and an Epson Stylus SX218 filled with Oce Jetstream 1000 dye inks and the print settings " Photo, Epson Photo " used. The last two printers were filled with inks from high speed production inkjet printing machines to simulate the performance of the paper on these presses.
The results of the color density measurements are shown in Table 1. From the results, it is clear that the color density which can be achieved with the unsized paper according to the invention is superior or at least equal to that of a conventional, sized and CaCl 2 treated paper according to Reference Example 1. Surprisingly, it was found in a printer that the ink punctured punctually completely through the paper of Reference Example 1, the unsized paper according to Embodiment 2, however, due to the good absorption properties, no punctiform strike was observed. * «*» # »· · CTi
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Using a PocketGoniometer PGX from Fibro System, the contact angle on the papers of Embodiment 2 and Reference Example 1 was measured. The device also allows the calculation of the drop volume, which gives a good indication of the absorption rate. Fig. 2 and 3 show the time course of contact angle and drop volume, after a 4 μ! Drops of distilled water were applied to the paper. The contact angle clearly shows the difference in the hydrophobization between the glued reference example and the unsized embodiment. The decrease of the drop volume shows the clear advantage in the absorption rate of the drop in the paper according to embodiment 2.

权利要求:
Claims (17)
[1]
1. A process for the surface treatment of paper, in particular of paper which can be printed by ink jet printing, in which a base paper containing cellulose fibers and optionally fillers, an optical brightener, retention aids or colorants or pigments, an aqueous solution containing; at least one water-soluble salt of a divalent metal and optionally one or more substances selected from a binder, a pigment, a surface sizing agent and / or cationic polymer is applied, characterized in that from a pulp containing as main component cellulose, between 0 and 50 wt. %, in particular 10 and 30% by weight of CaCO 3 as filler and optionally an optical brightener or a retention aid, an unsized base paper and that the base paper with a liquid surface treatment medium containing between 1 and 20 kg / ton paper MgSO 4 and optionally a cationic Polymer is coated and that the paper is optionally subjected to an aftertreatment step.
[2]
2. The method according to claim 1, characterized in that the paper is subjected to a calendering or smoothing as a post-treatment step.
[3]
3. The method according to claim 2, characterized in that the paper s to a smoothness between 60 and 150 Bekk s. is smoothed or calendered.
[4]
4. The method of claim 1, 2 or 3, characterized in that the base paper is coated with MgS04 and a cationic polymer selected from the group of Polyaminepichlorhy-din-, dicyandiamide, Polydiallyldimethylammoniumchlorid-, polyaluminum chloride polymers, polyethyleneamines, polyvinylamines and polyacrylamides ,
[5]
5. The method according to any one of claims 1 to 4, characterized in that the cationic polymer is used in an amount of 1 to 12 kg / ton paper in the surface treatment medium.
[6]
6. The method according to any one of claims 1 to 5, characterized in that as a liquid surface treatment medium 1 to 20 kg / ton paper, in particular 6 to 10 kg / ton paper MgSO4 and 1 to 12 kg / ton paper, in particular 4 kg / ton paper Polydiallyldimethylammoniumchloride polymer is used.
[7]
7. The method according to any one of claims 1 to 6, characterized in that the MgS04 solution is used as 0.5 to 20 wt .-%, in particular 1 to 5 wt .-% aqueous solution.
[8]
8. The method according to any one of claims 1 to 7, characterized in that in addition a binder, such as a native or modified starch, a polyvinyl alcohol, a carboxymethylcellulose, polyvinylpyrrolidone or mixtures thereof is used. 12
[9]
9. The method according to claim 8, characterized in that the binder, in particular the starch is a crosslinking agent, such as a zirconium salt is added.
[10]
10. The method according to any one of claims 1 to 9, characterized in that a di-sulphonated, tetrasulphonated, hexasulphonated optical brightener or a distyrylbiphenyl brightener is used.
[11]
11. The method according to claim 10, characterized in that the optical brightener is used both in the base paper and the surface treatment medium.
[12]
12. The method according to any one of claims 1 to 11, characterized in that in addition a pigment selected from the group ground, precipitated or modified CaCO 3, silica gel, Al 2 O 3, kaolin, titanium dioxide or mixtures thereof is used.
[13]
13. The method according to any one of claims 1 to 12, characterized in that the total solids content of the Oberflächenbehandiungsmediums between 15 to 70 wt .-%, in particular 30 to 50 wt .-% is selected.
[14]
14. The method according to claim 12 or 13, characterized in that a weight of a dry surface coating 1 to 10 (g / m2 side), in particular about 4 (g / m2 side) is selected.
[15]
15. The method according to claim 1 to 13, characterized in that the surface treatment medium additionally a viscosity regulator, such as a polyacrylate is added.
[16]
16. The method according to any one of claims 1 to 15, characterized in that a lubricant, in particular calcium stearate is added to the surface treatment medium.
[17]
17. Paper, in particular paper for inkjet printing produced by a process according to any one of claims 1 to 16, characterized in that a contact angle of water, in particular distilled water with the paper between 15 ° and 70 °, in particular between 25 ° and 50 ° ,

Vienna, 22 June 2011 1. A process for the surface treatment of paper, in particular of inkjet printable paper, comprising on a base paper containing cellulose fibers and optionally fillers, an optical brightener, retention aids or colorants or pigments, an aqueous solution; at least one water-soluble salt of a divalent metal and optionally one or more substances selected from a binder, a pigment, a surface sizing agent and / or cationic polymer is applied, characterized in that from a pulp containing as main component cellulose, between 0 and 50 wt. %, in particular 10 and 30 wt .-% CaCO 3 as filler and optionally an optical brightener or a retention aid, a non-sized base paper is formed and that the base paper with a liquid surface treatment medium containing between 1 and 20 kg / ton paper MgS04 is coated and the paper is optionally subjected to an aftertreatment step. 2. The method according to claim 1, characterized in that as post-treatment step, the paper is subjected to a calendering or smoothing, 3. The method according to claim 2, characterized in that the paper s to a smoothness between 60 and 150 Bekk s. is smoothed or calendered. 4. The method of claim 1, 2 or 3, characterized in that the MgSO "solution is used as 0.5 to 20 wt .-%, in particular 1 to 5 wt .-% aqueous solution. 5. The method according to any one of claims 1 to 4, characterized in that the base paper with MgS04 and a Polydiallyldimethylammoniumchlorid polymer is coated. 6. The method according to any one of claims 1 to 5, characterized in that the Polydiallyldimethylammoniumchlorid polymer is used in an amount of 1 to 12 kg / ton paper in the surface treatment medium. 7. The method according to any one of claims 1 to 6, characterized in that as a liquid surface treatment medium 1 to 20 kg / t of paper, in particular 6 to 10 kg / t of paper MgS04 and 1 to 12 kg / t of paper, in particular 4 kg / t of paper Polydiallyldimethylammoniumchloride polymer is used. 8. The method according to any one of claims 1 to 7, characterized in that in addition a binder, such as a native or modified starch, a polyvinyl alcohol or mixtures thereof is used. 9. The method according to claim 8, characterized in that the binder, in particular the starch, a crosslinking agent, such as a zirconium salt is set to.

10. The method according to any one of claims 1 to 9, characterized in that a di-sulphonated, tetrasulphonated, hexasulphonated optical brightener or a distyrylbiphenyi brightener is used. 11. The method according to claim 10, characterized in that the optical brightener is used both in the base paper and the surface treatment medium. 12. The method according to any one of claims 1 to 11, characterized in that in addition a pigment selected from the group ground, precipitated or modified CaCO 3 or mixtures thereof is used. 13. The method according to any one of claims 1 to 12, characterized in that the total solids content of the surface treatment medium between 15 to 70 wt .-%, in particular 30 to 50 wt .-% is selected. 14. The method according to claim 12 or 13, characterized in that a weight of a dry surface coating 1 to 10 (g / m2 side), in particular about 4 (g / mz side) is selected. 15. The method according to claim 1 to 13, characterized in that the surface treatment medium additionally a viscosity regulator, such as a polyacrylate is added. 16. The method according to any one of claims 1 to 15, characterized in that a lubricant, in particular calcium stearate is added to the surface treatment medium.

Vienna, May 23, 2012

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AU2012203595B2|2014-12-11|

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US20120328802A1|2012-12-27|

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EP2537981A1|2012-12-26|

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AU2012203595A1|2013-01-17|

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EP2537981B1|2014-06-11|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA914/2011A|AT511619B1|2011-06-22|2011-06-22|METHOD FOR SURFACE TREATMENT OF PAPER AND PAPER|ATA914/2011A| AT511619B1|2011-06-22|2011-06-22|METHOD FOR SURFACE TREATMENT OF PAPER AND PAPER|

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AU2012203595A| AU2012203595B2|2011-06-22|2012-06-20|Method for surface-treating paper and cardboard|

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EP12004649.5A| EP2537981B1|2011-06-22|2012-06-21|Method for treating the surface of paper and paper|

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US13/530,511| US20120328802A1|2011-06-22|2012-06-22|Method for surfacetreating paper as well as paper|