Gluing composition, process for making glued paper or cardboard and glued paper or glued cardboard

专利摘要:

公开号:SE532570C2
申请号:SE0801404
申请日:2007-01-24
公开日:2010-02-23
发明作者:Philip Haakansson
申请人:Stora Enso Ab；
IPC主号:

专利说明:

532 57Ü In order to attract the above-mentioned hydrophobic material, often referred to as retention, to the anionic cellulosic support material, a polymer is added in the emulsification or dispersion process. These polymers, which usually consist of starch, also have a stabilizing effect on the emulsion or dispersion.
The main components of starch, amylose and arnylopectin are both made up of glucose molecules that are linked in long chains. Cereals usually contain about 20 - 25% amylose.
In the case of the polymer used in the emulsification or dispersion process, which is usually starch, there are problems when the amylose content is high.
This is the case when the starch is extracted from potatoes, corn and other common grains.
Amylose-type starch consists of chain molecules with poor stability. This type of starch can only be stored in solution for a couple of hours before it begins to precipitate (so-called retrograde). It also does not provide fully acceptable retention to the cellulosic support material.
It is known that arnylopectin-type starch has better properties. This consists of branched molecules, withstands longer storage and provides better retention to the cellulosic material.
Amylopectin is found naturally in so-called "waxy maize starch". This is extracted from a special type of maize which is very difficult to grow and is therefore very expensive and difficult to obtain.
The starches most commonly found in sizing compositions are usually cationic in nature. However, anionic and amphoteric starch types also occur.
The starch is thus substituted by chemical modification with cationic and / or anionic groups. In the production of cationic starches, animonium tumors are usually used which are, preferably, quaternary, but which can also be primary or tertiary. Such a cationization process of starch is well known and is described i.a. in US 4,088,600, US 2,876,217 and 4,840,705.
The starch may also be crosslinked as described in SE 513 602.
Emulsions and dispersions, where the hydrophobic material consists of ASA, are manufactured according to a so-called in sim procedure, ie in close connection with the use of the composition, ie in practice in connection with the machine or machines that manufacture the paper or board. This is because ASA is prone to hydrolysis, ie reacts with the water present in the emulsion or dispersion. On the other hand, AKD emulsions or dispersions are more stable and can be stored for a long time without losing gluing reflectance. Despite this fact, it may be advantageous to also prepare these emulsions or dispersions according to the so-called in the sim procedure.
Emulsions or dispersions can also consist of a mixture of AKD and ASA according to the Swedish patent application SE-A-9601 225-7. These emulsions or dispersions are suitably also prepared according to the so-called in the sim procedure.
Problems with prior art include slow development of the hydrophobing effect, poor toner retention, deposition of hydrolysis products in photocopying, and reduced efficiency in papermaking due to interruptions in poor hydrophobicity and hydrolysis products. Another problem is poor resistance to hydrogen peroxide in connection with the filling of liquids in packages of liquid cardboard.
To eliminate or reduce the above problems, it has been found to be successful to have a high cationic charge on starch. that the degree of substitution is high.
When using highly substituted starches, i.e. starches with high cation activity, however, there are stability problems ßr the emulsion / liner composition. Especially at high tonal contents, ie dry contents above 10 - 15% of the gluing composition, other problems arise with its stability. This is also temperature dependent, whereby in hot countries you must at least have dry contents that are even lower to achieve stability.
It is also important that the particle size distribution is as narrow as possible on the particles contained in the emulsion or dispersion as there is an optimal size of these to avoid the above problems and to achieve as high a hydrophobicity as possible.
It has been found that small particles do give an even distribution on the surface of the cellulose and that the sizing agent spreads better after the particle is disposed on the surface when the particle is small, but also that certain disadvantages arise when the particles are too small.
Among these disadvantages should mainly be poor retention of the sizing agent and increased hydrolysis of the alkyl dimer and / or alkenyl succinic anhydride.
In order to overcome these disadvantages, the particles must therefore have a certain minimum size, but if the particle size becomes too large, the bonding effect decreases as the distribution of the particles becomes too low and the dispersion is made more difficult. SUMMARY OF THE INVENTION The object of the invention is to provide a gluing composition in which the above-mentioned problems are eliminated or limited. This can be achieved by the starch used in the preparation of the emulsion or dispersion being anionic, cationic or amphoteric starch of amylopectin type or derivatives thereof, obtained from a high arnylopectin content. This naturally occurring comma genotype is called "high amylopectin com" or "waxy com" and has an amylopectin content exceeding 90%.
The high amylopectin starch should be substituted with cationic groups, e.g. by chemical modification. For this purpose, ammonium formations are preferably used which are preferably quaternary, but which may also be or are tertiary.
According to one aspect of the invention, the high amylopectin granule contains more than 95% amylopectin, preferably at least 98% amylopectin.
The chemical composition of the mold system used in paper or board production is decisive for the degree of substitution for the high amylopectin starch required for optimal results. The degree of substitution is thus suitably between 0.01 and 0.3, preferably between 0.02 and 0.2.
It has surprisingly been found that by means of the above-mentioned composition, effects are obtained which considerably reduce or eliminate many of the shortcomings which can be connected with known technology. Extraction of amylopectin from grain is a cheaper process as the supply of grain is greater, compared with, for example, maize. It has also been found that emulsions from grains have a more even particle size.
A main purpose of the invention is thus to provide a new and improved gluing composition, which can be used for gluing paper, cardboard and similar products.
Another object is to provide with the invention a new gluing composition, which is more stable, especially at higher dry contents, than previous gluing compositions.
Another object of the invention is to provide a new sizing composition which is more effective than prior art compositions and thereby to reduce the amounts of sizing agent required to obtain a degree of hydrophobicity similar to or equivalent to that of the prior art compositions. Another object of the invention is to provide a new gluing composition, the gluing effect or gluing ability of which develops faster than for the previously known compositions.
A further object is to provide a new sizing composition which, as a polymer, contains mainly anionic, cationic or amphoteric high garnylopectin grain starch, whereby the retention properties of the sizing composition are improved compared with conventionally used starches, while the starch shows better stability and the cost of said composition.
Another aim is to provide a new sizing composition for which the negative effects on the hydrophobing effect in connection with the use of precipitated calcium carbonate are greatly reduced or eliminated. Yet another object is to provide a novel sizing composition in which the amount of undesired hydrolysis products that arise in the papermaking or board production process using known sizing compositions is significantly reduced or eliminated.
Another object is to provide an improved process for the production of glued paper or board using the new composition of the invention.
Another object of the invention is to provide glued paper or glued cardboard with improved properties during use of the new composition.
According to the invention, these and other objects are achieved by providing an adhesive composition in the form of an aqueous dispersion or emulsion, in which the starch used in the preparation of the emulsion or dispersion consists of anionic, cationic or amniotic fluid, preferably cationic, starch or arnylopectin type starch. thereof, obtained from grain, so-called. high amylopectin grains. The hydrophobic component of the emulsion or dispersion preferably consists of AKD or ASA or a mixture of these two cellulose reactive compounds.
As regards the new adhesive composition according to the invention, it is of course also understood that it may contain additional constituents if desired or deemed appropriate, whereby such further constituents may be selected in accordance with known principles. Although such constituents do not need to be specifically described here to enable the exercise of the invention, it may be mentioned, among common additives, e.g. dispersants, aluminum foxes such as alum (aluminum sulphate) and polyaluminum chloride.

权利要求:
Claims (7)
[1]
Gluing grain position in the form of an aqueous composition comprising at least one hydrophobic cellulose-real gluing element and an anionic, cationic or amphoteric polymer comprising a starch, characterized in that the starch is an amylopectin-type granular pile high amylopectin starch containing at least 95% amopectin. amylopectin.
[2]
Bonding composition according to claim 1, characterized in that the hydrophobic bonding agent is alkyl ketene dimer or alkenyl succinic anhydride or a mixture thereof.
[3]
Bonding composition according to any one of the preceding claims, characterized in that one or more derivatives of the hogweed nylopectin starch are derivatized by chemical, physical and / or enzymatic means and used in the bonding composition.
[4]
Bonding composition according to any one of the preceding claims, characterized in that the granular high amylopectin compound is substituted with cationic groups by chemical modification with an ammonium compound, preferably a quaternary ammonium compound, and is used in the bonding composition.
[5]
Gluing composition according to claim 4, characterized in that the cationic amylopectin has a degree of substitution of 0.01 - 0.30, preferably 0.02 - 0.20.
[6]
Process for the production of glued paper or glued board, wherein a gluing agent is added during the manufacture of said paper or board, suitably to a stock which is then dewatered, characterized in that a gluing composition according to any one of claims 1 is used as said gluing agent. - S.
[7]
Glued paper or glued cardboard is characterized in that a gluing composition according to any one of claims 1-5 has been used for gluing.

类似技术:

---

公开号 | 公开日 | 专利标题

---

SE532570C2|2010-02-23|Gluing composition, process for making glued paper or cardboard and glued paper or glued cardboard

---

SE513602C2|2000-10-09|Gluing composition, method for making glued paper or glued cardboard, and glued paper or glued cardboard

---

ES2406370T3|2013-06-06|Coating compositions comprising alkyl cetene dimers and alkyl succinic anhydrides for use in papermaking

---

ES2382790T5|2016-03-09|Paper gluing process

---

US6093217A|2000-07-25|Sizing of paper

---

CA2520642C|2010-03-02|Dispersion

---

RU2601465C2|2016-11-10|Method for production of paper and cardboard

---

ES2360674T3|2011-06-08|COMPOSITION LIQUID CATIÓNICA AMILÁCEA AND ITS USES.

---

KR20050097918A|2005-10-10|Alkenylsuccinic anhydride compositions and method for using the same

---

SE461404B|1990-02-12|LIMITING COMPOSITION, PROCEDURES FOR PREPARING THEREOF, PROCEDURES FOR PREPARING LIMMAT PAPER, AND LIMMAT PAPER

---

SK2695A3|1995-07-11|Aqueous compositions for sizing of paper

---

SE508593C2|1998-10-19|Bonding composition and method of use thereof in the manufacture of paper

---

EP0833872A1|1998-04-08|Swollen starches as papermaking additives

---

AU729667B2|2001-02-08|Sizing of paper

---

WO2012135577A1|2012-10-04|Sizing compositions

---

RU2223355C2|2004-02-10|Sizing emulsion

---

WO1996035841A1|1996-11-14|Sizing dispersions

---

ES2661691T3|2018-04-03|A stabilized gluing formulation

---

JP6315595B2|2018-04-25|Paper manufacturing method

---

SE520881C2|2003-09-09|Hydrophobic sizing agent for paper or board

---

RU2202019C2|2003-04-10|Glued paper and use of glued paper in high-speed reprocessing or reprography processes

同族专利:

---

公开号 | 公开日

---

SE0801404L|2008-06-16|

---

PT1977039E|2014-09-25|

---

EP1977039A4|2012-08-01|

---

EP1977039B1|2014-06-25|

---

US20100224339A1|2010-09-09|

---

EP1977039A1|2008-10-08|

---

WO2007086803A1|2007-08-02|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

EP1977039A1|2006-01-25|2008-10-08|Stora Enso AB|Sizing composition, method for the production of sized paper or paperboard and sized paper or paperboard|US2876217A|1956-12-31|1959-03-03|Corn Products Co|Starch ethers containing nitrogen and process for making the same|

---

US4008600A|1975-10-15|1977-02-22|Wallace-Murray Corporation|Torsional vibration damper measuring|

---

US4840705A|1987-02-02|1989-06-20|Nissan Chemical Industries Ltd.|Papermaking method|

---

SE461404C5|1988-06-22|1999-10-22|Betzdearborn Inc|Bonding composition process for preparation thereof process for production of adhesive paper and adhesive paper|

---

DE19540998A1|1995-11-03|1997-05-07|Basf Ag|Aqueous alkyldiketene dispersions and their use as sizing agents for paper|

---

EP0824161A3|1996-08-12|1998-04-08|Südzucker Aktiengesellschaft Mannheim/Ochsenfurt|Starch and starch derivatives for the paper industry|

---

SE520881C2|1997-12-22|2003-09-09|Stora Kopparbergs Bergslags Ab|Hydrophobic sizing agent for paper or board|

---

ID27960A|1998-07-23|2001-05-03|Avebe B A|COMPOSITION OF ADHESIVE|

---

DK1141030T3|1999-01-15|2004-01-26|Avebe Coop Verkoop Prod|Hydrophobic starch derivatives|

---

SE513602C2|1999-02-17|2000-10-09|Stora Kopparbergs Bergslags Ab|Gluing composition, method for making glued paper or glued cardboard, and glued paper or glued cardboard|

---

US20030173045A1|2002-03-18|2003-09-18|Philip Confalone|Liquid starch dispersions for coated paper and paperboard|

---

FI113874B|2002-09-27|2004-06-30|Valtion Teknillinen|Polymer solutions and dispersions and process for their preparation|

---

SE532570C2|2006-01-25|2010-02-23|Stora Enso Ab|Gluing composition, process for making glued paper or cardboard and glued paper or glued cardboard|CN102635031B|2012-05-04|2014-05-14|陕西科技大学|Preparation method for cation potato starch microcrystalline wax/alkyl ketene dimerneutral/basic sizing agent|

---

CN102635030B|2012-05-04|2014-04-09|陕西科技大学|Preparation method for cation corn starch alkyl ketene dimerneutral/basic sizing agent|

---

CN102635037B|2012-05-04|2014-06-11|陕西科技大学|Preparation method of amphoteric sweet potato starch microcrystalline wax/ AKDneutral /alkaline sizing agent|

---

CN102635028B|2012-05-04|2014-04-09|陕西科技大学|Preparation method for cation sweet potato starch microcrystalline wax/alkyl ketene dimerneutral/basic sizing agent|

---

CN102635029A|2012-05-04|2012-08-15|陕西科技大学|Preparation method of cation sweet potato starch AKDneutral/alkaline sizing agent|

---

CN102635027B|2012-05-04|2014-05-14|陕西科技大学|Preparation method of cation corn starch microcrystalline wax/AKDneutral/alkaline sizing agent|

---

CN102635035B|2012-05-04|2014-06-11|陕西科技大学|Preparation method of amphiprotic potato starch AKDneutral/alkaline sizing agent|

---

CN102635036B|2012-05-04|2014-07-02|陕西科技大学|Preparation method of amphiprotic sweet potato starch AKDneutral/alkaline sizing agent|

---

AU2015270839B2|2014-06-02|2019-08-22|Anavo Technologies, Llc|Modified biopolymers and methods of producing and using the same|

---

US10689566B2|2015-11-23|2020-06-23|Anavo Technologies, Llc|Coated particles and methods of making and using the same|

法律状态:
2015-10-20| CANC| Patent cancelled, revoked after opposition|Effective date: 20130528 |

---

2016-03-22| CANC| Patent cancelled, revoked after opposition|

优先权:

---

申请号 | 申请日 | 专利标题

---

US76195206P| true| 2006-01-25|2006-01-25|

---

PCT/SE2007/050038|WO2007086803A1|2006-01-25|2007-01-24|Sizing composition, method for the production of sized paper or paperboard and sized paper or paperboard|

---