Light drainability, bulky chemimechanical pulp that has a low shive content and a low fine-material content
First Claim
1. A high drainability chemimechanical pulp for use in the manufacture of paper or paperboard products where a high bulk is desired, wherein the pulp is produced from lignocellulosic fiber material at a yield above 88%, and has an extract content of less than 0.15% calculated as dichloromethane extractable resin, a high long fiber content, a low fine-material content and a low shive content, the pulp having been produced by refining impregnated and preheated chips in one stage or in several stages in series, wherein the first or sole stage, respectively, is effected at a temperature of 150°
- -190°
C. and above the lignin softening temperature, and wherein when fractionating according to Bauer McNett the long fiber content of fibers retained on a 30 mesh wire cloth is between 60 and 75%;
when fractionating according to Bauer McNett the fine-material content of fibers that pass through a 200 mesh wire cloth is at most 14%;
the pulp is refined to a freeness of 600 ml CSF at the lowest;
the shive content is lower than 0.5%;
the pulp density ranges between 200 and 400 kg/m3 ; and
the tensile index of the pulp is at least 10 kNm/kg.
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Accused Products
Abstract
A chemimechanical pulp for use in the manufacture of paper or paperboard products where a high drainability, bulky pulp is desired. The pulp has a long fiber content of between 60 and 75%, a fine-material content of at most 14%, a shive content of less than 0.5%, is refined to a freeness of 600 ml CSF at the lowest, and has a tensile index of at least 10 kNm/kg. A method for producing such a pulp comprises: a) impregnating chips with a lignin softening chemical; b) preheating the chips; c) refining the chips to papermaking pulp; wherein the chips are impregnated and heated over a total time period of at most 4 minutes; a) using a hot impregnating liquid having a temperature of at least 130° C.; b) preheating the chips at a temperature above the lignin softening temperature; c) refining the pulp in one or more stages, of which the first or sole stage is carried out solely at essentially the same pressure and the same temperature as the preheating process; and refining the pulp at a total energy input which is at least 50% and at most 90% of the energy input required to achieve the same shive content when preheating at 135° C. and using the same machine equipment.
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Citations
22 Claims
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1. A high drainability chemimechanical pulp for use in the manufacture of paper or paperboard products where a high bulk is desired, wherein the pulp is produced from lignocellulosic fiber material at a yield above 88%, and has an extract content of less than 0.15% calculated as dichloromethane extractable resin, a high long fiber content, a low fine-material content and a low shive content, the pulp having been produced by refining impregnated and preheated chips in one stage or in several stages in series, wherein the first or sole stage, respectively, is effected at a temperature of 150°
- -190°
C. and above the lignin softening temperature, and wherein when fractionating according to Bauer McNett the long fiber content of fibers retained on a 30 mesh wire cloth is between 60 and 75%;
when fractionating according to Bauer McNett the fine-material content of fibers that pass through a 200 mesh wire cloth is at most 14%;
the pulp is refined to a freeness of 600 ml CSF at the lowest;
the shive content is lower than 0.5%;
the pulp density ranges between 200 and 400 kg/m3 ; and
the tensile index of the pulp is at least 10 kNm/kg. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of producing chemithermomechanical pulp (CTMP) which comprises:
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a) impregnating chips of lignocellulosic fiber material with a hot lignin softening chemical solution having a temperature of at least 130°
C., and selected from the group consisting of sodium sulphite, sodium dithionite, and alkaline peroxide;b) preheating the chips at a temperature of 150°
-190°
and above the lignin softening temperature;c) carrying out steps a) and b) in a total time period of at most 4 minutes; and d) refining the chips in one stage or in several stages in series, wherein the first or sole stage, respectively, is effected at essentially the same pressure and the same temperature as the preheating step; and
effecting the refining step at a total energy input which is at least 50% and at most 90% of the energy input that is required to achieve the same shive content when preheating at 135°
C. and using the same machine equipment;said pulp having an extract content of less than 0.15% calculated as dichloromethane extractable resin, a high long fiber content, a low fine-material content and a low shive content and wherein when fractionating according to Bauer McNett the long fiber content of fibers retained on a 30 mesh wire cloth is between 60 and 75%;
when fractionating according to Bauer McNett the fine-material content of fibers that pass through a 200 mesh wire cloth is at most 14%;
the pulp is refined to a freeness of 600 ml CSF at the lowest;
the shive content is lower than 0.5%;
the pulp density ranges between 200 and 400 kg/M3 ; and
the tensile index of the pulp is at least 10 kNm/kg. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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Specification