CN1224757C - Paper products and methods for applying chemical ddditives to cellulosic fibers - Google Patents
Paper products and methods for applying chemical ddditives to cellulosic fibers Download PDFInfo
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- CN1224757C CN1224757C CNB98812551XA CN98812551A CN1224757C CN 1224757 C CN1224757 C CN 1224757C CN B98812551X A CNB98812551X A CN B98812551XA CN 98812551 A CN98812551 A CN 98812551A CN 1224757 C CN1224757 C CN 1224757C
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H3/00—Paper or cardboard prepared by adding substances to the pulp or to the formed web on the paper-making machine and by applying substances to finished paper or cardboard (on the paper-making machine), also when the intention is to impregnate at least a part of the paper body
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H23/00—Processes or apparatus for adding material to the pulp or to the paper
- D21H23/02—Processes or apparatus for adding material to the pulp or to the paper characterised by the manner in which substances are added
- D21H23/04—Addition to the pulp; After-treatment of added substances in the pulp
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/14—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
- D21H21/18—Reinforcing agents
- D21H21/20—Wet strength agents
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H21/00—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties
- D21H21/14—Non-fibrous material added to the pulp, characterised by its function, form or properties; Paper-impregnating or coating material, characterised by its function, form or properties characterised by function or properties in or on the paper
- D21H21/22—Agents rendering paper porous, absorbent or bulky
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- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21H—PULP COMPOSITIONS; PREPARATION THEREOF NOT COVERED BY SUBCLASSES D21C OR D21D; IMPREGNATING OR COATING OF PAPER; TREATMENT OF FINISHED PAPER NOT COVERED BY CLASS B31 OR SUBCLASS D21G; PAPER NOT OTHERWISE PROVIDED FOR
- D21H27/00—Special paper not otherwise provided for, e.g. made by multi-step processes
- D21H27/30—Multi-ply
- D21H27/38—Multi-ply at least one of the sheets having a fibrous composition differing from that of other sheets
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Abstract
Chemical additives can be adsorbed on cellulosic papermaking fibers at high levels with a minimal amount of unadsorbed chemical additives present in the papermaking process water. A method includes treating a fiber slurry with an excess of the chemical additive, allowing sufficient residence time for adsorption to occur, filtering the slurry to remove unadsorbed chemical additives, and redispersing the filtered pulp with fresh water. Filtrate from the thickening process contains unadsorbed chemical additive and it is not sent forward in the process with the chemically treated fibers. The method can be employed to make improved paper products.
Description
Technical field
In general, the present invention relates to paper product.Say more preparatively, the present invention relates to the paper product that chemical addition agent is applied to the method in the cellulose fibre and is obtained by these methods.
Background technology
In the preparation process of paper product, usually wish to strengthen physics and/or optical property by adding chemical addition agent.Example by adding that chemical addition agent produces or the performance that strengthens is including, but not limited to dry strength, wet strength, pliability, absorbability, opacity, brightness and color and luster.In paper-making process, chemical addition agent forms paper web at fiber usually, before dehydration and the drying, is added in the fiber slurry of wet end.Traditionally, wet end additive is added into concentration from the fiber slurry of 0.5-5%.Then, in the paper-making process before the mixing pump place finally is diluted to final shaping concentration, slurries are diluted further.
With locally sprayed, printing or size press chemistry additive process are compared, and the wet end chemistry additive process has several advantages.For example, wet end chemistry is added on fiber surface equally distributed chemical addition agent is provided.In addition, wet end chemistry adds to make and can handle the pars fibrosa of selecting with specific chemical addition agent, so that strengthen the performance of paper and/or the efficient of chemical addition agent.In addition, wet end chemistry adds and can simultaneously or in a sequence the number of chemical agent be added in the fiber slurry before forming paper web.
Adding a relevant difficult point with wet end chemistry is: water-soluble or water dispersible chemical addition agent will suspend in water and can not absorbed to cellulose fibre fully.For improving the adsorptivity of wet end additive, usually chemical addition agent is carried out modification with functional group, give electric charge in water the time with box lunch.To help chemistry to add the additive deposition and keep on fiber at charged additive with the electronic sucking action between the anionic fiber surface.Yet, can stay the amount of the chemical addition agent of wet end and follow the absorption curve that demonstration lowers efficiency usually, this is similar to the described absorption curve of Langmuir.Therefore, when particularly attempting to realize high chemical addition agent load capacity, adsorption rate water-soluble or the water dispersible chemical addition agent may will be lower than 100% widely.
Therefore, when any chemical addition, when high addition, only be that a part of chemical addition agent is kept on fiber surface particularly.The chemical addition agent of remainder still is dissolved or dispersed in the suspension aqueous phase.These chemical addition agents that do not adsorb will cause many problems in paper-making process.Although the exact nature of chemical addition agent will be determined the special problem that may occur, but may not comprise by adsorbing a part of problem that chemical addition agent causes: foam, deposit, the pollution of other fiber materials flow, the fiber retention of difference on the paper machine, in multi-layered product, jeopardize chemosphere purity, the accumulation of dissolved solid in aqueous systems, interact with other process chemistry agent, woollen blanket or fabric stop up, excessive adhesion or disengaging on dryer surface, the changeability of final products physical property etc.
Therefore, prior art lack and need be: in following mode, adsorbable chemical addition agent is applied on the cellulose fibre surface, reduces or got rid of the amount of not adsorbing chemical addition agent in the industrial water to cause at the wet end of paper-making process.This method makes and relevant preparation problem may take place in addition and the end product quality problem becomes minimum.
Summary of the invention
Have found that, chemical addition agent is adsorbed on the paper fibre cellulose fiber with high consumption, wherein in the paper water, have minimum not absorption chemical addition agent.This can be complete as follows: handle fiber slurry with excessive chemical addition agent; Make it enough absorption time of staying; Slurries are filtered to remove the not additive of absorption; And the paper pulp of crossing with the fresh water dispersing and filtering once more.Because the filtrate from the enrichment process comprises the not chemical addition agent of absorption, therefore in the method, it is not fed forward with the fiber of chemical treatment.But filtrate is delivered to sewer or is carrying out reuse before the filtration step in treatment step.
Therefore, an aspect of of the present present invention relates to chemical addition agent is applied to method in the cellulose fibre.This method comprises the steps: to form and comprises water, cellulose fibre, and the fiber slurry of adsorbable chemical additive; Make the fiber slurry dehydration to remove the not chemical agent of absorption; And with fresh water loosen collagen fibre once more.This method that is used to handle the paper fibre cellulose fiber makes chemical addition agent to be adsorbed by fiber, meanwhile, compares when adding with traditional wet end chemistry, can keep obvious a spot of chemical addition agent that do not adsorb at aqueous phase.Therefore, when comparing with utilizing previous method situation in the cards, this method has realized the chemical addition agent of higher concentration on fiber for industrial water.
For the present invention, term " cellulose " refers to: comprise the paper fibre of amorphous carbohydrate polymer, this is opposite with synthetic fiber.Refer at this employed term " adsorbable ": the chemical addition agent that can be drawn by cellulose fibre surface, between chemical addition agent and cellulose fibre without any chemical reaction.Term " not absorption " refers to: by fiber absorption and therefore still be suspended in that part of chemical addition agent in the industrial water." fresh water " refers to: be substantially free of the not water of the chemical addition agent of absorption at this used term.It is desirable for most described fresh water and do not contain chemical addition agent fully.
Dehydration to fiber slurry is wished so that the concentration of fiber slurry is increased to about 20% or higher, particularly increases to about 30% or higher, comprises the water that does not adsorb additive so that remove the overwhelming majority.Then, fiber is disperseed again, wish the concentration of fiber slurry is reduced to the concentration that is suitable for papermaking, promptly reduce to about 20% or lower, more precisely, reduce to about 5% or lower, according to appointment 3% to 5%.
Method of the present invention can be produced and is used to prepare paper product, the particularly fiber furnish of stratiform paper product.Therefore, another aspect of the present invention is: with combined attainable the comparing of not absorption chemical addition agent of relative low carrying capacity in the water, have the fiber furnish of higher chemical addition agent carrying capacity.This is because the chemical addition agent carrying capacity of adding by traditional wet end is not usually adsorbed chemical agent and relevant processing difficulties limits, described difficulty is as by the foam that chemical agent causes that do not adsorb that exists in the water, deposit, chemical action, woollen blanket stops up, to the drying cylinder excessive bonding or the perhaps many paper physical properties control problem that gets loose.
In one embodiment, batching of the present invention comprises: water, cellulose fibre, and adsorbable chemical addition agent.The amount that is adsorbed to chemical addition agent on the fiber is about 2 kilograms or more an of per metric ton, and the amount of not adsorbing chemical addition agent in water is about the 0-20% that is adsorbed to chemical addition agent amount on the fiber.In special embodiment of wishing, the amount of absorption chemical addition agent is about 3 kilograms/tonne or higher, and particularly about 4 kilograms/tonne or higher, especially preferred about 5 kilograms/tonne or higher.In addition, it is about 10% that the amount of not adsorbing chemical addition agent in water is about the 0-15% that is adsorbed to chemical addition agent amount on the fiber, particularly 0-, more preferably from 0-about 7%.
Another aspect of the present invention is to make the method through chemically treated paper product.This method comprises the steps: to form first fiber slurry that comprises water, cellulose fibre and adsorbable chemical additive; Form second fiber slurry that does not contain adsorbable chemical additive substantially; First slurries are dewatered to remove the not chemical addition agent of absorption; With fresh water the fiber in first fiber slurry is disperseed again; And utilize the stratiform flow box, and make first fiber slurry be conducted to the first flow box layer, second fiber slurry is conducted to the second flow box layer and forms paper product.
In another embodiment, the preparation method of paper product comprises the steps: to form the fiber slurry that comprises water, cellulose fiber peacekeeping first adsorbable chemical additive; Make the dehydration of this fiber slurry to about 20% or higher concentration; Make the fiber slurry of dehydration carry out machining to fiber by a disperser; Dilute this fiber slurry to about 5% or lower concentration with the fresh water that does not contain first chemical addition agent substantially; Second adsorbable chemical additive that will comprise dissociate agent or softener is added in this fiber slurry; Make the dehydration of this fiber slurry to about 20% or higher concentration; Dilute this fiber slurry to about 5% or lower concentration with the fresh water that does not contain second chemical addition agent substantially; With form paper product by this fiber slurry.First chemical addition agent for example can comprise: binding agent, so that reduce the gross weight that falls of paper product.
The present invention is particularly suitable for chemical addition agent such as softener and the agent of dissociating are added in the skin batching of three-ply paper product.In specific tissue paper product, for example, be equipped with central core so that intensity exploitation and control to be provided.In the center intensity layer minimum degree contaminated while of ground, the present invention can be applied to the softener and the agent of dissociating in the central core.
Therefore, another aspect of the present invention is that by fibroplastic paper product described fiber has carried out chemical treatment so that make amount remaining in the industrial water, that do not adsorb chemical addition agent minimum.These paper products demonstrate high chemistry " purity " on the pars fibrosa that utilizes the inventive method to handle, and when utilizing the stratiform flow box, can realize excellent chemosphere purity, and/or can be implemented in the particular chemical processing of the fiber in the paper that makes by two or more fiber blends.Term " paper " comprising as used herein: writing paper, and printing paper, wrapping paper, toilet paper, and industrial paper, newsprint, Protecting Paper, tissue paper, napkin paper is wiped test paper, towel paper etc.
Can be used for chemical addition agent of the present invention comprises: dry strength auxiliary agent, wet strength auxiliary agent, softener, the agent of dissociating, absorption auxiliary agent, sizing agent, dyestuff, Optical Bleaching Agent, chemical tracer, opacifying agent, drying cylinder bonding chemical agent etc.The chemical addition agent of form can comprise in addition: pigment, softening agent, wetting agent, virucide, bactericide, buffer, wax, fluoropolymer, odor control agent and deodorant, zeolite, spices, the agent of dissociating, plant and mineral oil, wetting agent, sizing agent, superabsorbents, surfactant, humidizer, UV blocking agent, antibiotic agent, lotion, mould inhibitor, preservative agent, aloe barbadensis Miller extract, the plain E of peacekeeping etc.Suitable chemical addition agent can be adsorbed by the paper fibre cellulose fiber and be water miscible or water dispersible.
Term " softener " refers to mix provides any chemical addition agent that improves sense of touch in paper product such as the tissue paper.These chemical agents also can work the agent of dissociating, or can improve the surface characteristic of tissue paper individually, as passing through to reduce the coefficient of friction between tissue paper surface and the hand.
Term " agent of dissociating " refer to can mix in paper product such as the tissue paper stop or barrier fibers between or any chemical agent of hydrogen bond in the fiber.The character that depends on described chemical agent, the agent of dissociating can also play softener.On the contrary, term " binding agent " refers to can mix in paper product such as the tissue paper and strengthens in the page between fiber or any chemical agent of bonding in the fiber.The bonding that increases can be ionic bond, hydrogen bond or covalent bond.
Term " water-soluble " refers to the solid or the liquid that can form solution in water, and term " water dispersible " refers to the colloid size or the bigger solid or the liquid that can be dispersed in the water-bearing media.
The method that chemical addition agent is applied in the paper fibre can be used for many papermaking operations, comprises the operation of wet pressing and wrinkling or wrinkle resistant impingement drying.As an illustration, various tissue paper preparation methods are disclosed in United States Patent (USP) 5,667,636 (being issued to people such as S.A.Engel on September 16th, 1997); With United States Patent (USP) 5,607, in 551 (being issued to people such as T.E.Farrington, Jr. on March 4th, 1997); Be introduced into as a reference at this.
Described method can also be used for other processing, comprising: before dried pulp machine or chip baling press in pulp mill Chemical Pretreatment paper pulp; Order is added chemical addition agent and is interacted to reduce; After adding chemical addition agent, from fiber slurry, remove chemical addition agent (in and anionic group, applying glue or soft prescription), so that promote the described processing of removing; Or the like.
Many fibers can be used for the present invention, and they comprise: leaf wood or needlebush, straw, flax, milkweed seed silk flosssilk wadding fiber, abaca, hemp, mestha, bagasse, cotton, reed etc.Can use all known paper fibres, they comprise: bleaching and the fiber that does not float, the fiber of natural source (comprises xylon and other cellulose fibre, cellulose derivative, and the stiff or crosslinked fiber of chemistry), (synthetic paper fibre comprises some form to some composition of synthetic fiber, by polypropylene, acrylic compounds, aryl amide, the fiber that acetic acid salt etc. makes), new fiber and recovery or reclaimed fibre, and machinery pulping (for example ground wood pulp), chemical pulping (including, but not limited to sulfate pulp-making and sodium sulfite process), the leaf wood of thermomechanical slurrying and needle-leaved wood fibre or the like.Can use any colony of above-mentioned kinds of fibers or the mixture of associated fiber class.Can with multiple known in the art be that advantageous method prepares described fiber.Preparation fiber useful method comprises: disperse, so that give the drying property that curls and improve, as be disclosed in United States Patent (USP) 5,348,620 (being issued to people such as M.A.Hermans on September 20th, 1994), United States Patent (USP) 5,501,768 (being issued to people such as M.A.Hermans on March 26th, 1996), with United States Patent (USP) 5,656,132 (being issued to people such as Farrington, Jr. on August 12nd, 1997).
Can use a flow box or a plurality of flow box.Described flow box can be layering, so that when forming paper web, can produce sandwich construction by single flow box jet.In specific embodiment, utilize flow box layering or stratiform to produce paper web, staple fibre is deposited into is used to improve paper web one side of pliability, and make relatively long fiber laydown to the opposite side of paper web or have on the interior layer of three layers or multi-layer web.Preferably, form paper web on the porous formed fabric of endless loops, this fabric can make liquid discharge and make the paper web partial dehydration.The multi-ply paper embryo that is obtained by multiplex box is can be when hygrometric state laminated or carry out machinery or chemistry connects, so that produce the single paper web with multilayer.
According to following explanation, many feature and advantage of the present invention will become apparent.In explanation, will be with reference to the accompanying drawing of the explanation preferred embodiment of the invention.These embodiments are not represented four corner of the present invention.Therefore, should be with reference to claims of explaining four corner of the present invention.
Description of drawings
Fig. 1 has described the general flowchart according to the inventive method that utilizes chemical addition agent that paper fibre is handled.
Fig. 2 has described and has utilized chemical addition agent that paper fibre is handled and utilize disperser fiber to be carried out the general flowchart according to the inventive method of mechanical treatment.
Fig. 3 has described not wrinkling tissue paper preparation method's general flowchart.
The specific embodiment
With reference to accompanying drawing the present invention is described in detail.For the sake of simplicity, show the various idler rollers that roughly are used for defining some fabric operations, but do not have numbering, and the similar elements in different accompanying drawings provides identical reference number.With regard to slurry preparation, flow box, forming fabric, transfer, wrinkling and dry with regard to, can use the papermaking apparatus and the method for operating of various routines.Yet,, illustrated specific routine and formed for the content that can use different embodiments of the present invention is provided.
Fig. 1 has described and has been used for chemical addition agent is applied to pulp preparation equipment in the paper fibre according to an embodiment of the present invention.Described pulp preparation equipment comprises: first stock tank, 10, the second stock tanks 12, and operationally be arranged on dewater unit 14 between two stock tanks.Paper fibre and water are added in first stock tank 10, form fiber slurry 20.Its concentration of fiber slurry in first stock tank preferably about 20% or lower, particularly about 5% or lower, according to appointment 3% to about 5%.Preferably, utilize agitator, rotary drum, recirculation pump or other suitable device 18 of blended fiber slurries, make the fiber slurry in first stock tank be in stirring.
Provide one or more chemical addition agents 24 by storage 26, and be added in the fiber slurry 20 of first stock tank 10.The amount of chemical addition agent 24 suitable from about 5-20 kilogram/metric ton.In specific embodiment, chemical addition agent comprises the imidazolinyl agent of dissociating, and adds with the amount of about 7.5-15 kilogram/metric ton.Preferably, fiber slurry and chemical addition agent can under agitation be kept one period time of staying together in first stock tank, the described time of staying is enough to make paper fibre can adsorb most chemical addition agents 24.For example enough from about 15 to about 30 minutes time of staying.
Then, by suitable conduit 27 and pump 28 fiber slurry 20 is delivered in the dewater unit 14.In described embodiment, dewater unit comprises: belt press l4, but other dewater unit such as centrifuge, roll gap enrichment device etc. also can use.Fiber slurry is injected between a pair of porous fabric 30, so that pressing filtering liquid 32 is removed from slurries.Described pressing filtering liquid 32 comprises the not chemical addition agent 24 of absorption of part producing water and Yu Shuizhong.Belt press 14 or other suitable dewater unit suitably increase to about 20% or higher with the concentration of slurries, particularly about 30% or higher.Xi Fu chemical addition agent can not removed from this process, or as the thinned water in the previous slurry preparation step, but importantly, Xi Fu chemical addition agent is not fed forward with chemically treated batching.
Then, be delivered in second stock tank 12 by the fiber slurry 20 of conduit 34 enrichment.Use 35 pairs of fiber slurries of fresh water to dilute again, also can utilize mixing arrangement 18 to stir from suitable storage 36.The fibre concentration of slurries is suitably reduced to about 20% or lower, particularly about 5% or lower, 3-5% according to appointment.Then, from second stock tank, discharge fiber slurry, in order to the processing 39 of back by suitable conduit 37 and pump 38.In addition, for further increasing the chemical addition agent amount of keeping, can also handle fiber slurry by the step of front once more.
Fig. 2 has described another embodiment of the present invention, and wherein pulp preparation equipment is used for chemical addition agent is applied in the paper fibre and to fiber and carries out mechanical treatment.Usually, this equipment comprises three stock tanks 10,12 and 40, two dewater units 14 and 42, two dilution ponds 44 and 46, and the disperser 48 that is used for paper fibre is carried out mechanical treatment.
Paper fibre and water are added in first stock tank 10, form fiber slurry 20.Preferably, the concentration of fiber slurry about 20% or lower in first stock tank, particularly about 5% or lower.Provide one or more chemical addition agents 24 by storage 26, and in stirring the fiber slurry 20 that is added in 18 in first stock tank 10.Preferably, first chemical addition agent that is added in the fiber slurry is the CATION binding agent, and it is used for controlling finished product and falls hair.Preferably, first chemical addition agent is not the softener or the agent of dissociating that can reduce disperser efficient.
After enough time of staying, fiber slurry is delivered to belt press 14 or other suitable dewater unit by suitable conduit 27 and pump 28.During press operation, the chemical addition agent and the pressing filtering liquid 32 that do not adsorb in the water are removed together, and are stored in the first dilution pond 44.Inclusions in the first dilution pond can maybe can discard as the supplementing water or the dilution water of pulper.Dewater unit 14 suitably increases to about 20% or higher with the fibre concentration of slurries, and particularly about 30% or higher.
Then, by the conduit 34 that is fit to the fiber slurry 20 of enrichment is delivered to fiber is carried out in the disperser 48 of mechanical treatment.The disperser that is applicable to the inventive method is disclosed in United States Patent (USP) 5,348,620 (being issued to people such as M.A.Hermans on September 20th, 1994) and United States Patent (USP)s 5,501,768 (being issued to people such as M.A.Hermans on March 26th, 1996) are introduced into as a reference at this.
After disperseing, fiber slurry is delivered in second stock tank 12 by conduit 50.Second chemical addition agent or second group of chemical addition agent are provided by storage 53, and in stirring the fiber slurry 20 that is added in second stock tank 12 for 18 times.In addition, can also be used to diluting from 56 pairs of fiber slurries of filtrate of hereinafter described originating.The fibre concentration of slurries suitably is reduced to about 20% or lower, particularly about 5% or lower, 3-5% according to appointment.In specific embodiment, second chemical addition agent 52 comprises softener and/or the agent of dissociating, and described fiber slurry is without undergoing high shear defibrination power, as being added into the defibrination power that produces afterwards in the fiber slurry at the softener and/or the agent of dissociating in disperser.
Enough time of staying with after adsorbing second chemical addition agent, by suitable conduit 58 and pump 59 fiber slurry 20 is delivered to second dewater unit 42 from second stock tank 12.The not absorbed portion of second chemical addition agent and pressing filtering liquid 56 are removed together in the water during press operation, and are stored in the second dilution pond 46.As mentioned above, the inclusions in the second dilution pond can be added in second stock tank 12, maybe can discard.Second dewater unit 42 suitably increases to about 20% or higher with the fibre concentration of slurries, and particularly about 30% or higher.
Then, be delivered in the 3rd stock tank 40 by the fiber slurry 20 of conduit 58 enrichment.Dilute fiber slurry once more with the fresh water 35 of taking from suitable storage 36, also can utilize mixing arrangement 18 to stir.The fibre concentration of slurries is suitably reduced to about 20% or lower, particularly about 5% or lower, 3-5% according to appointment.Then, discharge fiber slurry from the 3rd stock tank, be used for processing 39 subsequently by suitable conduit 37 and pump 38.In addition, fiber slurry is back in second stock tank 12, so that repeated application second chemical addition agent 52.
A kind of suitable method 39 by the fiber slurry 20 preparation paper products of Fig. 1 or Fig. 2 is in the non-wrinkling impingement drying method described in Fig. 3.Non-wrinkling impingement drying method also is disclosed in United States Patent (USP) 5,658, and 132 (being issued to people such as Farrington, Jr. on August 12nd, 1997) are introduced into as a reference at this.Twin wire former with stratiform papermaking flow box 60 will spray from the liquid stream of fiber slurry 20 or be deposited on the forming fabric 62, forms cellulose paper web 64.Paper web is delivered on the fabric 66, and this fabric plays supporting mass, and when paper web partial dehydration during to about 10% dry weight, with the wet web band that newly the forms downstream to this process.As by vacuum draw, can carry out other dehydration to wet web, meanwhile the wet web textile support that is formed.
Then wet web is delivered on the transfer fabric of moving with the speed that is lower than forming fabric 70 from forming fabric 66, so that give the MD extensibility of paper web to increase.The transfer that coincide to avoid the squeezing to wet web, preferably carries out transfer by vacuum watts 72.Transfer fabric can be to have the fabric of pressing joint, maybe can be more level and smooth fabric, as Asten 934,937, and 939,959 or Albany 94M.If transfer fabric has pressure described herein joint, it can be used for giving some performance identical with through-air-drying fabric and when with also have press joint wear dry fabric merging use the time can strengthen effect.When use has the transfer fabric of pressing joint and realizes desirable CD tensile property, it will provide pliability, so that randomly use different through-air-drying fabrics, as has the fabric of decorating weaving-pattern, so that the performance of the other hope that can not obtain with other method is provided.
Then, by vacuum delivery paper bowl 76 or suction transfer watt, paper web is delivered on the through-air-drying fabric 74 from transfer fabric.Through-air-drying fabric is with the speed operation identical or different approximately with transfer fabric.If desired, the speed operation that through-air-drying fabric can be lower is so that further strengthen the MD percentage elongation.Preferably, carry out transfer,, therefore, obtained the loosing character of wishing, pliability, CD percentage elongation and outward appearance so that guarantee that the distortion of page is consistent with through-air-drying fabric by vacuum.Through-air-drying fabric is preferably pressed nodal pattern.
The vacuum that is used for carrying out transfer can be from about 3-15 inch of mercury (about 75-380 millimetres of mercury), preferably from about 10-15 inch of mercury (about 254-380 millimetres of mercury).Except with vacuum paper web being drawn on next fabric or, can using malleation, paper web is blown to next fabric and replenish or alternative vacuum watt (negative pressure) by reverse side from paper web as the substituting of vacuum draw.In addition, can use one or more vacuum furnaces to substitute vacuum watt.
Relevant forming fabric, transfer fabric, the transfer of advancing by leaps and bounds, transfer watt, fabric location, and the specific embodiments of vacuum and mode of operation are disclosed in United States Patent (USP) 5,667,636 (being issued to people such as S.A.Engel on September 16th, 1997), with United States Patent (USP) 5,607,551 (were issued to T.E.Farrington on March 4th, 1997, Jr. wait the people), be introduced into as a reference at this.
When being supported by through-air-drying fabric, by wearing drier 80, paper web finally is dried to about 94% or higher denseness, is passed to then and transports on the fabric 82.The operation fabric 86 that utilizes operation fabric 82 and also can have is delivered to the body paper of drying on the reel 84.Also can use pressurization slewing rollers 88, so that promote paper web from transporting the transmission of fabric 82 to fabric 86.The suitable fabric that transports that is used for this purpose is: Albany International 84M or 94M and Asten 959 or 937, described these are the smooth relatively fabric with fine pattern.In operation subsequently, can carry out press polish to tissue paper roll, cut, carry out surface treatment, embossing etc., thereby produce final product with softening agent or softener.
Embodiment
The following examples are used for illustrating and belong to possible method of the present invention.Wherein specific consumption, ratio, composition and parameter all are illustrative, and do not mean that and limit scope of the present invention particularly.
Embodiment 1 (Comparative Examples)
With regard to present embodiment, during producing multi-fibre, three layers of tissue paper, utilize conventional stuff box chemistry additive process to add the softener/agent of dissociating.The batching that is used for two outside layers belongs to fiber, 29% tissue paper broken and 1% reclaimed fibre paper roll body paper by 70% eucalyptus and forms.In pulper, outer furnish component is mixed.After pulping, batching is delivered to stock tank also (derives from Cytec Industries, Inc.) handle with the binding agent Parez 631NC of 1 kilogram of/tonne dosage.Make after slurries mix 20 minutes, utilize water-removing press will prepare burden enrichment, and in disperser, handle, so that make fiber crimp extremely greater than 30% concentration.Utilize 80 kilowatts input power to operate disperser, and about 180 of temperature is starched in outlet.After disperseing, fiber is stored in the high density stock tank, when tissue paper prepares till the needs.
In the preparation, utilize the filtrate that derives from front enrichment process, in stock tank, will be diluted to 3.5% concentration by the skin that eucalyptus fibers/broken/paper roll body paper blend the is formed batching of disperseing.By 6.5 kilograms/tonne ratio, the softener/agent C-6092 that dissociates that will derive from Witco company at paper machine stock tank stuff box closed circuit place is added in this batching.For two skins of three layers of tissue paper, this stuff box is the mixing pump feeding.
The central core batching is made up of 100% north bleaching needlebush kraft fibers.In order to promote dry strength, utilize the input energy of 2 horsepowers of sky/metric tons that this batching is made with extra care.Also, Parez 631NC is added in this batching, so that realize the control of wet tensile (strength) with 5.8 kilograms/tonne dosage.Realize control by changing central core and the ratio of outer batching to dry strength.
Utilize the laboratory tissue machine to produce individual layer, non-wrinkling impingement drying tissue paper.All use this identical tissue machine for embodiment 1-4.Described paper machine includes: three layers flow box, and wherein two skins comprise identical batching (70% eucalyptus fibers, 29% broken, 1% paper roll body paper), and central core is 100% needle-leaved wood fibre.On the former of two net vacuum forming roll-types, form the page structure of three layers of final one-tenth.The speed of forming fabric is 2250 feet per minutes (fpm).Then, before being passed on the paper injection fabric, utilize the vacuum dehydration under forming fabric, the paper web that newly forms is dewatered to the concentration of about 20-27%, the speed of service of described paper injection fabric is 1800 feet per minutes (25% the transfers of advancing by leaps and bounds).Use the vacuum watt of about 10 inch of mercury vacuum, with web transfers to the paper injection fabric.Then, with web transfers to the through-air-drying fabric that moves with the speed of about 1800fpm.Make paper web by about 325 the honeycomb thru dryers of a pair of temperature, and be dried to the final mass dryness fraction of about 94-98%.
Air-dry quantitative about 27.5gsm of page.Ratio of fibers final in page is: 32% needle-leaved wood fibre (in central core) and 68% eucalyptus fibers/broken/paper roll body paper blend (skin).The final strength of tissue paper is: per 3 inches wide 800 grams (geometric average tensile strength).
Embodiment 2
With regard to present embodiment, utilize improved chemical agent additive process shown in Figure 1, with the softener/agent of dissociating batching is handled.The batching that to handle is as the skin batching of multi-fibre, three layers of tissue paper structures then.Because at the tissue paper shaping, improved chemical agent additive process has been removed most non-softeners of the keeping/agent of dissociating from aqueous phase, so product that obtains, it with utilize embodiment 1 described conventional chemical agent additive process, compare with the tissue paper that identical softener makes, have suitable tensile strength, higher softener/agent content and lower needle-leaved wood fibre content dissociate.
In embodiment 2, be used for two outer field batchings and belong to fiber by 70% eucalyptus, 29% tissue paper broken and 1% reclaimed fibre paper roll body paper are formed.During pulp preparation, the outer batching of blending and leave in the stock tank during pulping with 3.5% concentration.Then, the binding agent Parez 631NC with 1 kilogram of/tonne dosage (derives from Cytec Industries, Inc.) batching is handled.Make after slurries mix 20 minutes, by the ratio of 6.5 kilograms of activity chemistry agent/metric ton fibers, interpolation derives from the softener/agent of dissociating of witco company, C-6092.After additional mixing 20 minutes, utilize belt press to make extremely about 32% concentration of slurries dehydration.To be used as the supplementing water of the pulper of batch of material subsequently from the filtrate of dehydration process, but not be fed forward with pulp preparation or tissue paper manufacture process.Then, utilize 80 kilowatts input power, make the paper pulp of enrichment pass through disperser, and export about 180 of slurry temperature, so that make fiber crimp.After scatter operation, slurry is stored in the high density stock tank, when tissue paper prepares till the needs.
Utilize as embodiment 1 described three-layer network before case, prepare the tissue paper of individual layer, non-wrinkling, impingement drying.The batching of two outer usefulness is made up of eucalyptus fibers/broken/paper roll body paper blend of 32% of chemical treatment, and described blend has been used fresh water concentration of agitation and dilution to 3% once more in stock tank.100% needle-leaved wood fibre that the central core batching is made with extra care by the input energy that utilizes 2 horsepowers of sky/metric tons is formed, and the Parez 631NC to wherein adding 5.8 kilograms/tonne is used for the control of dry strength.Realize control by regulating central core and the ratio of outer batching to the final products dry strength.
Air-dry quantitative about 27.5gsm of page.Ratio of fibers final in page is: 17% needle-leaved wood fibre (in central core) and 83% eucalyptus fibers/broken/paper roll body paper blend (skin).The final strength of tissue paper is: per 3 inches wide 802 grams (geometric average tensile strength).
Embodiment 3
With regard to present embodiment, utilize improved chemical agent additive process shown in Figure 2, at first batching is handled with binding agent, utilize disperser that fiber is carried out mechanically modifying, then, batching is handled with the softener/agent of dissociating.The batching of chemical treatment is used as a kind of batching of multi-fibre, three layers of tissue paper structures.Because improved chemical agent additive process has been removed most non-softeners of the keeping/agent of dissociating at the tissue paper shaping from aqueous phase, therefore, with utilize embodiment 1 described conventional chemical agent additive process, compare with the tissue paper that identical softener makes, final products are wanted much tough (when the identical fibre components), this be because of, during scatter operation, softener/the agent of dissociating is not present on the batching, has more efficiently energy to shift to fiber.Because the fiber crimp of during dispersion giving, therefore, this will cause dissociating than higher degree shown in the embodiment 2.
In embodiment 3, be used for two outer field batchings and form by 70% eucalyptus genus fiber, 29% tissue paper broken and 1% reclaimed fibre paper roll body paper.During pulp preparation, the outer batching of blending and leave in the stock tank during pulping with 3.5% concentration.Then, the binding agent Parez 631NC with 1 kilogram of/tonne dosage (derives from Cytec Industries, Inc.) batching is handled.Make after slurries mix 20 minutes, utilize belt enrichment squeezer to make the batching dehydration to greater than 30% concentration.Then, make the disperser of the paper pulp of enrichment, and starch about 180 of temperature, so that make fiber crimp by 80 kilowatts of input powers.Then, paper pulp height is dense, that disperse is stored in the stock tank, till producing liberal quantity.
In order with second chemical addition agent batching to be handled, (comprise the not softener/agent of dissociating of absorption, mixture as shown in Figure 2) is diluted to high consistency pulp 3.5% concentration to utilize fresh water and enrichment filtrate.Then, batching is handled, and made it to mix 20 minutes with 7.5 kilograms/tonne softeners/agent C6092 that dissociates (deriving from witco company).Utilize belt press will prepare burden dehydration then to about 32% concentration.As previously mentioned, the filtrate of dehydration is used as the part dilution water of high consistency stock dilution step.After the enrichment operation second time, slurry is left in the high density storage stock tank, when during the tissue paper preparation, needing till.
With as case before the embodiment 1 described three-layer network, the tissue paper of preparation individual layer, non-wrinkling, impingement drying.The batching of two outer usefulness is made up of eucalyptus fibers/broken/paper roll body paper blend of 32% of chemical treatment, and described blend has been used fresh water concentration of agitation and dilution to 3% once more in stock tank.100% needle-leaved wood fibre that the central core batching is made with extra care by the input energy that utilizes 2 horsepowers of sky/metric tons is formed, and the Parze 631NC to wherein adding 5.8 kilograms/tonne is used for the control of dry strength.Realize control by regulating central core and the ratio of outer batching to the final products dry strength.
Air-dry quantitative about 27.5gsm of page.Ratio of fibers final in page is: 24% needle-leaved wood fibre (in central core) and 76% eucalyptus fibers/broken/paper roll body paper blend (skin).The final strength of tissue paper is: per 3 inches wide 806 grams (geometric average tensile strength).
Embodiment 4
Except 15 kilograms of/tonne C6092 softeners/agent of dissociating being added in the outer batching (rather than embodiment 3 7.5 kilograms/tonne), present embodiment is identical with embodiment 3.Because improved chemical agent additive process has been removed most softener/agent of not keeping of dissociating at the tissue paper shaping from aqueous phase, therefore, in identical tensile strength with when fibrous, final products comprise than embodiment 1 described product Duos 55% the softener/agent of dissociating.
Pulp preparation is identical with embodiment 3 with the tissue paper preparation process.The air-dry of page is 27.5gsm quantitatively.Ratio of fibers final in page is: 31% needle-leaved wood fibre (in central core) and 69% eucalyptus fibers/broken/paper roll body paper blend (skin).The final strength of tissue paper is: per 3 inches wide 795 grams (geometric average tensile strength).
Data shown in the lower surface 1 show: under embodiment 4 described treatment conditions, can make the geometric average tensile strength is the stratiform tissue paper of per 3 inches wide about 800 grams (per 3 inches wide 795 grams), by using improved chemical agent additive process, the tissue paper of described embodiment 4 comprises needle-leaved wood fibre and 5.9 kilograms of/tonne C-6092 softener of keeping/agent of dissociating of 31%.When utilizing embodiment 1 described conventional chemical agent additive process, and during in addition identical preparation condition, the geometric average tensile strength is that the stratiform tissue paper of per 3 inches wide about 800 grams comprises 32% needle-leaved wood fibre, but only comprises 3.8 kilograms of/tonne C6092 softener of keeping/agent of dissociating.What it is contemplated that is, the reason of the C-6092 amount of keeping difference is when identical tissue paper intensity: do not increase owing to adsorb the intensity that the dissociating property of C-6092 diminishes needle-leaved wood fibre in the central core in conventional chemical agent additive process.Therefore, need more needle-leaved wood fibre to obtain identical finished product tensile strength.
By using improved chemical agent additive process, can produce tissue paper fiber/chemical agent mixture with the target strength value, and utilize conventional chemical agent additive process not realize.In embodiment 2-4, by regulating the relative consumption of needlebush and broad-leaved wood fiber, produced overall constant quantitatively and the tissue paper of intensity.Certainly, have various changes, as keep overall constant intensity and needlebush/leaf wood ratio and regulate quantitative.
Table 1
Embodiment 1-4
Embodiment | Intensity (g/3″) | The % central core | The % skin | The agent of dissociating Addition | The agent of dissociating The amount of keeping |
1 2 3 4 | 800 802 806 795 | 32 17 24 31 | 68 83 76 69 | 4.4 6.2 5.7 10.4 | 3.8 4.6 3.8 5.9 |
In the table 1, " intensity " refers to the geometric average tensile strength, and for the present invention, it calculates according to following formula: [(MD tensile strength) (CD tensile strength)]
1/2" the MD tensile strength " of tissue paper sample is: when tissue webs when vertically adding stress, the general measure of every specimen width load capacity when destroying, it is that those of ordinary skills are known.Similarly, " CD tensile strength " is the similar measured value in cross measure.Utilize 3 inches pawls wide, the pawl spacing is 4 inches, and cross speed is 10 inch per minutes, utilizes Instron tensile strength tester to measure MD and CD tensile strength.Before test, sample was remained on TAPPI condition (73,50% relative humidity) under when being 4 hours.With per 3 inches wide gram number (when destroying) is unit record tensile strength value.
% central core and % skin refer to the percentage by weight of fiber in equivalent layer.
The agent addition that dissociates reflection is added into the chemical addition agent in the batching, in the kilogram in the whole page of per metric ton.This is based on, and the amount that is added in the outer batching and the amount in the final page ectomesoderm batching calculate.
The agent reflection of keeping of dissociating is adsorbed to the amount of chemical addition agent on the tissue paper.The agent of keeping of dissociating can utilize the imidazolinyl chemical addition agent that is suitable for being added in the tissue paper such as the follow procedure of Witco C-6092 to measure.This program relates to the percentage addition, has converted kilogram/metric ton (multiply by 10) in table 1 to.Usually, the tissue paper sample is weighed, and under environmental condition, in closed container, extract the regular hour with dull and stereotyped shaking machine.After extraction, take out tissue paper and make the extract deposition.Then, by ultraviolet spectrometer extract is analyzed.After calculating the percentage extraction quantity,, can measure the percentage addition by with reference to the addition relation curve that obtains as described below.
Use following equipment and chemical agent: pipette, 1,3,5,10 and 100 milliliter; Measuring bottle, 100 and 1000 milliliters; Closed container, for example sample cup; Dull and stereotyped shaking machine is as the dull and stereotyped shaking machine (Lab Line Orbital Shaker Model No.3590, Lab Line Instruments.Inc.) of track; Ultraviolet spectrometer (Hewlett Packard Model 8451A Diode ArraySpectrophotometer, Hewlett Packard); Methyl alcohol, SILVER REAGENT; Imidazoline, standard as witco C-6092; Beaker, 30 milliliters; Only be not contain the contrast tissue paper of tested chemical addition agent with difference with tested tissue paper.
The imidazoline solutions (1000ppm active matter) of preparation slurry standard: weighing 0.1250 gram C-6092 (80% active matter) joins in 30 milliliters the beaker; Utilize methyl alcohol quantitatively to be transferred in 100 milliliters the volumetric flask; And being diluted to scale with methyl alcohol, several times then reverse.
The imidazoline solutions of preparation standard (10,30,50,100ppm): the slurry standard imidazoline solutions of 1,3,5 and 10 milliliter 1000ppm joined in four 100 milliliters the volumetric flask; And be diluted to scale with methyl alcohol.This titer is respectively: 10,30,50 and 100ppm.
Make the material solution curve: utilize the UV spectrophotometer that transfers to 238 nano wave length places, with reference to the instrument that uses the methyl alcohol sample.Read the absorbance of standard liquid (10,30,50 and 100ppm), then, make the curve of concentration absorbance.Make the first-order equation formula match of data.
Preparation spiked solution (1000 and 5000ppm): weighing 1.250 grams and 6.250 C-6092 that restrain, and join in 50 milliliters the beaker; Utilize distilled water quantitatively to be transferred in 1000 milliliters the volumetric flask, fully shake up and before being diluted to scale, make it dissolving.If too much foam, subpunch is to the mobile jib portion of volumetric flask and add small amount of methanol and defoam to remove, and is diluted to scale then, and several times again reverse.So just, made the spiked solution of 1000ppm and 5000ppm.
Make the addition relation curve:, minimumly carry out three parallel determinations for each addition and blank test.For making curve, should there be four to add value at least.Prepare spiked solution with distilled water, to cause, spiked sample can be dry in 60 ℃ of stoves.
Weighing 5.00 gram contrast tissue papers add in the sample container.For four values, three parallel determinations, and blank test prepare 15 parts of samples.Common curve should be based on 0.1,0.3,0.8 and 1.0% C-6092 addition of tissue paper weight.
Sample is fed in raw material and in 60 ℃ stove dry 48 hours with spiked solution.Use pipette.For example:
Volume for 5.00 gram tissue paper spiked solutions
Addition | 1000ppm | 5000ppm |
Blank 0.1% 0.3% 0.8% 1.0% | 0mL 5mL 15mL -- -- | 0mL -- -- 8mL 10mL |
Utilize pipette to add 100 ml methanol and with seal of vessel.Be positioned in the dull and stereotyped shaking machine and extract half an hour.Take out tissue paper and make the extract deposition.Utilize pipette to remove supernatant, and load spectrophotometric cuvette.Utilize the absorption of water of UV spectrometer, measure 238 nanometers.May need 1-10 dilution factor doubly to be retained in the calibration curve.Can with or need not read blank value by such dilution factor.Deduct the mean light absorbency reading with the blank test reading.For 1/10 dilution sample, make 1/10 dilution blank reading, and use undiluted blank reading for undiluted sample.
Then, according to as described below, calculate percentage extraction value according to the ppm reading of calibration curve (imidazoline):
% extraction value (undiluted)=ppm reading * 0.1 * 100/5000.
% extraction value (1/10 dilution factor)=ppm reading * 0.1 * 10 * 100/5000.
Utilize percentage extraction value (y-axle) to corresponding addition (x-axle), make the interpolation relation curve.Select the curve (single order or second order) of match.
Sample analysis: take by weighing 5.00 gram samples and place sample container, and add 100 ml methanol.Be positioned over then on the dull and stereotyped shaking machine and extract half an hour.Take out tissue paper and make it precipitation.Read extract and deduct average blank absorbency reading in 238 nanometers.Calculate ppm by calibration curve, calculate percentage extraction value then.
Has a peak value absorbance at 238 nanometers imidazolines.Although blank tissue paper extract does not have the peak value absorbance in 238 nanometers, some absorbance of disturbing quantitative analysis is arranged.Blank test is easy to reproduce and can deducts when measuring.Importantly, sample weight, methyl alcohol volume, and the extraction time need keep constant.Must make the addition relation curve according to different tissue paper samples, this is because be used for the bonding that the various chemical agents of tissue paper method for making will influence imidazoline, and therefore influence is reclaimed.The percentage addition also will influence percentage recovery; Utilize various additions, when making relation curve, will help to determine to add value.
Embodiment 5
For better being described, improved chemical additive process from the batching of paper-making process, removes the ability of absorption chemical agent, the test of the chamber scale that once experimentized.The purpose of this test is explanation: do not use the quantity of not adsorbing chemical agent what have exist in the system of improved additive process, and itself and the system of utilizing improved method to add the same amount chemical agent are compared.The batching of using in this test is 100% eucalyptus fibers.Employed chemical addition agent is C-6092, derives from the softener/agent of dissociating of Witco company.Addition is counted the agent of dissociating of 0.5% and 1.0% activity with dried fiber.
The test of 0.5% addition: step 1
In this test, utilizing mechanical mixer is that 2.5% fibre stuff (the dried fiber of 45 grams) stirs to 1800 gram concentration.Stir down, proper C-6092 chemical agent is added in the described fibre stuff with 1% active matter solution form.The volume of the required 1% active matter C-6092 of 0.5% useful load is 22.5 milliliters.After stirring 15 minutes, take out 600 milliliters of slurries, be distributed on the plate, so that under protective cover, carry out drying in room temperature.This sample is called as 1A.
Step 2
Utilize Whatman 4 filter paper and buchner funnel device, 1200 of remainder is restrained slurries filter.This filtration step is simulated the dehydration of improvement chemical agent additive process shown in Figure 1.With filter pad (about 25% concentration) branch two parts into about equal mass.A part placed under the protective cover carry out drying in room temperature.This sample is called as 2A.
Step 3
Utilize distilled water, second half filter pad (about 600 grams) is dispersed to 2.5% concentration once more.To slurry mechanical agitation 15 minutes, utilize Whatman 4 filter paper and buchner funnel device to filter then.The dehydration that this filtration step simulation is taken place in thin-paper machine is shaped district and vacuum dehydration district.Filter pad placed under the protective cover carry out drying in room temperature.This test is called as 3A.
The test of 1.0% addition
Utilize the C-6092 of 1.0% addition, repeating step 1-3.Corresponding sample is called 1B, 2B and 3B.
Utilize methanol extraction, the C-6092 content of all samples is analyzed, carry out the UV spectrophotometric analysis in 238 nanometers then, and compare with the absorbance of known calibration curve.The results are shown in the following table.
The sample sequence number
1A
2A
3A
1B
2B
3B
C-6092 content (%) 0.51 0.30 0.28 1.05 0.73 0.68
The result has shown and utilizes improved chemical agent additive process to reducing in the batching influence that dosage is dissociated in absorption.The C-6092 content of control sample 1A and 2A shows: 41% chemical agent is not kept on fiber fully, and is removed during dewatering.If use conventional stuff box chemical agent additive process, the chemical agent that does not adsorb in the batching can freely pollute other fibered stream, and causes previous described handling problem.Yet the C-6092 content of control sample 2A and 3A shows: form in simulation on the thin-paper machine during second dehydration of page, the C-6092 that keeps only 6% is removed by additional.
Show when the C-6092 content of contrast 1B, 2B and 3B sample: 30% of original 1.0% chemical agent addition is removed during first dehydration, and only 7% is removed by additional during second dehydration.
It is believed that the improved chemical agent additive process of simulation has demonstrated: obviously reduce the ability of not adsorbing the chemical addition agent amount in the water of paper-making process, simultaneously pars fibrosa is kept high chemical agent retention.
The detailed explanation in front is just illustrative.Therefore, under design of the present invention and scope, can make many improvement and change.For example, can use the device that substitutes or choose wantonly as an embodiment part, thereby obtain another embodiment.In addition, the parts of two appointments can be represented the some parts of same structure.In addition, can also adopt various alternative method and apparatus to arrange, the particularly preparation of slurry, flow box, forming fabric, web transfers, wrinkling and dry.Therefore, the present invention is not limited by specific described embodiment, and is only limited by claims and all equivalents.
Claims (39)
1. method of on cellulose fibre, using chemical addition agent, this method comprises:
Formation comprises the fibre stuff of water, cellulose fibre and adsorbable chemical addition agent, and wherein the amount of the chemical addition agent that adds in the slurry of water and cellulose fibre is 5 kilograms per tonne or more;
This fibre stuff is dewatered, to remove the not chemical addition agent of absorption; With
Disperse described fiber once more with fresh water.
2. method of on cellulose fibre, using chemical addition agent, this method comprises:
Formation comprises first fibre stuff of water, cellulose fibre and adsorbable chemical addition agent;
Form second fibre stuff that does not contain adsorbable chemical addition agent;
First fibre stuff is dewatered, to remove the not chemical addition agent of absorption;
Disperse fiber in first fibre stuff once more with fresh water; With
Box-shaped becomes paper product before utilizing layered web, and wherein first fibre stuff is conducted to the first flow box layer, and second fibre stuff is conducted to the second flow box layer.
3. the process of claim 1 wherein that a kind of formation of fibre stuff comprises is added into adsorbable chemical addition agent in the aqueous solution that comprises water and cellulose fibre.
4. the method for claim 2 wherein is added into chemical addition agent in the slurry of water and cellulose fibre, and its addition is 5 kilograms per tonne or more.
5. claim 1 or 2 method, wherein dehydrating operations increases to 30% or higher with the concentration of fibre stuff.
6. claim 1 or 2 method are wherein disperseed this fiber again, and the concentration of fibre stuff is reduced to 5% or lower.
7. claim 1 or 2 method, this method also comprises to be isolated the chemical addition agent of removing that is not adsorbed from fibre stuff.
8. claim 1 or 2 method, wherein fresh water does not contain the chemical addition agent that is not adsorbed fully.
9. claim 1 or 2 method wherein after adding chemical addition agent, provide enough time of staying, to make it absorption.
10. claim 1 or 2 method wherein, are back to the chemical addition agent of removing that is not adsorbed in the treatment step before fibre stuff dewatered.
11. the method for claim 1 or 2, wherein adsorbable chemical addition agent comprises the agent of dissociating.
12. the method for claim 1 or 2, wherein adsorbable chemical addition agent comprises softener.
In a single day 13. the method for claim 1 or 2, wherein chemical addition agent comprises dissociate agent or softener, and chemical addition agent is added in the fibre stuff, fibre stuff is without undergoing the refining power of high shear.
14. the method for claim 1 or 2 wherein, is handled the fibre stuff that disperses again with the second adsorbable chemical addition agent, carries out the dehydration second time, so that remove the not chemical addition agent of absorption, and disperses for the second time again.
15. the method for claim 14, wherein second chemical addition agent comprises softener.
16. the method for claim 14, wherein second chemical addition agent comprises the agent of dissociating.
Form the paper product that contains many layers 17. the method for claim 1, this method also comprise, wherein one deck rather than whole layers are formed by the fibre stuff that comprises adsorbable chemical addition agent.
18. a method of using chemical addition agent on cellulose fibre, this method comprises:
Formation comprises the fibre stuff of water, the cellulose fiber peacekeeping first adsorbable chemical addition agent;
Make the dehydration of this fibre stuff to 20% or higher concentration;
The fibre stuff that makes dehydration by disperser so that fiber is carried out mechanical treatment;
With the fresh water that does not contain first chemical addition agent, described fibre stuff is diluted to 5% or lower concentration;
The second adsorbable chemical addition agent that will comprise dissociate agent or softener is added in the described fibre stuff;
Make the dehydration of this fibre stuff to 20% or higher concentration;
With the fresh water that does not contain second chemical addition agent, described fibre stuff is diluted to 5% or lower concentration;
Form paper product by this fibre stuff.
19. the method for claim 18, wherein, first chemical addition agent comprises binding agent.
20. the method for an application of dye on cellulose fibre, this method comprises:
Formation comprises the fibre stuff of water, cellulose fibre and adsorbable dyestuff, described dyestuff in the amount of adsorbing on the described cellulose fibre in the scope of 5 to 20 kilograms per tonne;
This fibre stuff is dewatered, to remove the dyestuff that is not adsorbed; With
Disperse fiber in the described fibre stuff once more with fresh water.
21. the method for claim 20, wherein said dyestuff are ACID DYES.
22. the method for claim 20, wherein said dyestuff are basic-dyeable fibre.
23. the method for claim 20, wherein said dyestuff are direct dyes.
24. the method for claim 20, wherein said dyestuff are the cellulose reactive dyestuff.
25. the method for claim 20, wherein said dyestuff are pigment.
26. the method for claim 20, wherein with described dye application on described cellulose fibre to change the color of described fiber.
27. the method for claim 20 wherein adds described dyestuff in described water and the cellulose fibre with 5 kilograms per tonne or higher amount.
28. the method for claim 20, wherein dehydrating operations increases to 30% or higher with the concentration of fibre stuff.
29. the method for claim 20, this method also comprises:
Form second fibre stuff that does not contain adsorbable dyestuff; With
The preceding box-shaped of layered web that utilization has the ground floor and the second layer becomes paper product, and wherein first fibre stuff is conducted to the first flow box layer, and second fibre stuff is conducted to the second flow box layer.
30. the method for claim 29, wherein with described dye application on described cellulose fibre to change the color of described fiber.
Form the paper product with multilayer 31. the method for claim 29, this method also comprise, the one deck in the paper product of this multilayer is formed by described first fibre stuff.
32. the method for claim 29, wherein said dyestuff are direct dyes.
33. the method for claim 29, wherein said dyestuff are basic-dyeable fibre.
34. the method for claim 29, wherein said dyestuff are pigment.
35. the method for an application of dye on cellulose fibre, this method comprises:
Formation comprises the fibre stuff of water, the cellulose fiber peacekeeping first adsorbable dyestuff;
Make the dehydration of this fibre stuff to remove the dyestuff that is not adsorbed, make described fibre stuff have 20% or higher concentration;
The fibre stuff that makes dehydration by disperser so that described cellulose fibre is carried out mechanical treatment;
With fresh water described fibre stuff is diluted to 5% or lower concentration;
The second adsorbable chemical addition agent is added in the described fibre stuff;
Make the dehydration of this fibre stuff to 20% or higher concentration;
With fresh water described fibre stuff is diluted to 5% or lower concentration;
Form paper product by this fibre stuff.
36. the method for claim 35, the wherein said second adsorbable chemical addition agent is the agent of dissociating.
37. the method for claim 35, the wherein said second adsorbable chemical addition agent is a softener.
38. the method for claim 35, wherein said dyestuff are direct dyes.
39. the method for claim 35, wherein said dyestuff are basic-dyeable fibre.
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US7749356B2 (en) | 2001-03-07 | 2010-07-06 | Kimberly-Clark Worldwide, Inc. | Method for using water insoluble chemical additives with pulp and products made by said method |
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-
1998
- 1998-12-09 TW TW087120388A patent/TW440641B/en not_active IP Right Cessation
- 1998-12-11 AR ARP980106335A patent/AR017855A1/en unknown
- 1998-12-17 BR BRPI9814354-9A patent/BR9814354B1/en not_active IP Right Cessation
- 1998-12-17 TR TR2000/01834T patent/TR200001834T2/en unknown
- 1998-12-17 JP JP2000526701A patent/JP2002500286A/en active Pending
- 1998-12-17 ID IDW20001143A patent/ID24904A/en unknown
- 1998-12-17 EP EP98964756A patent/EP1042556B1/en not_active Expired - Lifetime
- 1998-12-17 AU AU20010/99A patent/AU739322B2/en not_active Ceased
- 1998-12-17 CO CO98075230A patent/CO5040185A1/en unknown
- 1998-12-17 KR KR1020007007032A patent/KR100543841B1/en not_active IP Right Cessation
- 1998-12-17 CA CA002310692A patent/CA2310692C/en not_active Expired - Lifetime
- 1998-12-17 PL PL98340766A patent/PL340766A1/en unknown
- 1998-12-17 CN CNB98812551XA patent/CN1224757C/en not_active Expired - Fee Related
- 1998-12-17 DE DE69841662T patent/DE69841662D1/en not_active Expired - Lifetime
- 1998-12-17 WO PCT/US1998/026834 patent/WO1999034057A1/en active IP Right Grant
- 1998-12-17 IL IL13591098A patent/IL135910A0/en unknown
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PL340766A1 (en) | 2001-02-26 |
CA2310692A1 (en) | 1999-07-08 |
AR017855A1 (en) | 2001-10-24 |
WO1999034057A1 (en) | 1999-07-08 |
BR9814354B1 (en) | 2010-06-01 |
ID24904A (en) | 2000-08-31 |
CA2310692C (en) | 2008-08-05 |
IL135910A0 (en) | 2001-05-20 |
AU2001099A (en) | 1999-07-19 |
TW440641B (en) | 2001-06-16 |
KR20010033530A (en) | 2001-04-25 |
DE69841662D1 (en) | 2010-06-24 |
EP1042556B1 (en) | 2010-05-12 |
TR200001834T2 (en) | 2001-01-22 |
BR9814354A (en) | 2001-10-16 |
CO5040185A1 (en) | 2001-05-29 |
JP2002500286A (en) | 2002-01-08 |
KR100543841B1 (en) | 2006-01-23 |
CN1283244A (en) | 2001-02-07 |
EP1042556A1 (en) | 2000-10-11 |
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