TH50089A - Paper and cardboard manufacturing - Google Patents

Abstract

DC60 (14/06/49) Processes for papermaking include Cellulose Suspension Formation, Coagulation of Suspensions Draining the suspended solids on the strainer In order to form a sheet and then dry the sheet, here the cellulose suspensions coagulate by adding a soluble polymer. Which can be selected from a) polysaccharides or b) synthetic polymers With internal viscosity At least 4dl / g and then agglomerate. Here, the new coagulation system consists of i) silica-like materials and ii) soluble polymers. In one rule, silica-like materials are either added first or added at the same time. With water-soluble polymers.An alternative to water-soluble polymers is anionic ions and pre-filled silica-like materials. The processes for producing paper include Cellulose Suspension Formation, Coagulation of Suspensions Draining the suspended solids on the strainer In order to form a sheet and then dry the sheet, here the cellulose suspensions coagulate by adding a soluble polymer. Which can be selected from a) polysaccharides or b) synthetic polymers With internal viscosity At least 4dl / g and then agglomerate. Here, the new coagulation system consists of i) silica-like materials and ii) soluble polymers. In one rule, silica-like materials are either added first or added at the same time. With soluble polymers, on the other hand, for water-soluble polymers are anionic ions and pre-filled silica-like materials.

Claims (8)

1.Processes for paper or cardboard production include formation of cellulose suspensions, coagulation of suspended solids, drainage on suspensions. Sieve to have a sheet pattern. And then dry the sheet Where the cellulose suspension will Coagulate by adding synthetic polymers Water soluble cation ions Viscous Within at least 4 dl / g, where the cellulose suspension The coagulants are mechanically cut and then coagulated again. This is followed by the addition of the new coagulation system, and where the new coagulation system consists of (i) silica-like materials and (ii) anionic ion polymers. Water soluble Which has an internal viscosity of at least 4dl / g, with characteristic properties that Whether the material is similar to silica And anionic ion polymers Water soluble is added to Simultaneous suspensions Or by adding a silica-like material first Or after the addition of polymers Water soluble anionic, silica-like material (i) and soluble anionic polymers (ii) are added to the cellulose suspension. After passing through the center of the filter screen and the cationic polymer ion is added to the thin accumulator current 2. Process corresponding to claim 1, where silica-like materials are microparticle-sized materials, anionic micro-ions 3. Process consistent with claim 1 or claim 2, where the material is similar to Silica is composed of selectable materials from silica-based particles, silica microgels, colloidal silica, silica sol, silica gel, polysilicate, cationic silica, alumi. No silicate, polyaluminosilicate, borosilicate, polyborosilicate, and zeolite 4. Process corresponding to claim 1 or claim 2, where the material Similar to silica, it is expanded clay 5. Process corresponding to claim 4, where expandable clay is bentonite clay 6. Process corresponding to claim 4 or claim 4. Article 5 where clay can be expanded. Choose from among hectoite, smectite, montmorilloite, nantonite, saponite, zoconite, hormite, at Tabulkite and Sepiolite 7. Process, in accordance with one of the previous claims, where soluble cationic polymers are Where the charge density is lower than 5meq / g. 8. Process, which is consistent with one of the previous claims, where the cationic polymer ion Water soluble forms from monomers Water-soluble polyunsaturated ethylene glycol or mixtures of ethylene-based ethylene-based monomers. Unsaturated, soluble Consist of Minimal one monomer Cationic Ions 9. A process, consistent with one of the previous claims where soluble cationic polymers are Consists of a monomer unit Up to 50% cationic ion by weight of 1.0. Process, in line with one of the previous claims, where water soluble cationic polymers It is a branched soluble polymers showing rheological values \ u200b \ u200bof the tan delta at 0.005 Hz superior to 0.7 (calculated at 1.5% by weight of the aqueous solution of poe Lemur) 1 1. A process, consistent with one of the previous claims, where the cationic ion polymer Water soluble With internal viscosity At least 7dl / g 1 2. A process, consistent with one of the previous claims, where anionic polymer Water soluble That are assembled in the new coagulation system are classified as linear 1 3. A process, consistent with one of the previous claims where soluble anionic polymers Have a minimum internal viscosity of 7dl / g 1 4. A process which is consistent with one of the previous claims where soluble anionic polymers Formed from a monomer Water soluble anion ions Or a mix of water-soluble monomers Containing a type of soluble anionic ion monomer Or more together 1 5. Process consistent with one of the previous claims where cellulose suspensions consist of filler 1. 6. Process consistent with claim 15, where a sheet of paper or cardboard contains up to 40% by weight filler. 7.Process corresponding to claim 15 or claim 16, where filler material can be selected from a group containing precipitated calcium carbonate, powdered calcium carbonate, clay ( Especially kaolin) and titanium dioxide 1 8. Process consistent with any of Clause 1 to 15 where cellulose suspensions Without fillers is important.