DE19939866A1 - Composition for increasing the mass absorption of polar systems in hydrophobic-hydrophilic hybrid materials - Google Patents

Abstract

The invention relates to a compositions for increasing the mass absorption of polar systems in hydrophobic-hydrophilic hybrid materials containing (A) polar solvents and (B) surface-active organosilicon compounds selected from the group comprised of (B1) silanes of formula (I), of (B2) (partial) hydrolyzates of silanes of formula (I) having 2 to 50 Si atoms, which can still have (OR<2>) groups, of (B3) linear, branched or cyclic siloxanes having 2-50 silicon atoms selected from units of formula (II), and of (B4) silanes of formula (III). The invention also relates to the use of the inventive compositions, especially for impregnating materials containing cellulose and in methods for producing cellulose.

Description

The invention relates to compositions for increasing the mas transfers of polar systems in hydrophobic-hydrophilic hy brid materials and their use, especially for impr gnierung of cellulose containing materials and in processes for Obtaining pulp.

Usually silanes or organosiloxanes become hydropho of various, mostly hydrophilic materials used. Examples of this are the textile equipment, the Building protection, the paper coatings and the epoxy resin modes fication. Organosiloxane polygly col copolymers (comb or block) to increase the hydro philie or the water absorption of the treated materials be wrote. A typical combination is the blend of poly glycol siloxane copolymers with various surfactants or ten sid mixes. Areas of application of such mixtures are e.g. B. according to the improvement of the water absorption of wood US-A-5,728,265 and the hydrophilic finishing of textiles according to JP-A-09215706. Pure organosiloxane polyglycol copolymers are e.g. B. for the hydrophilic finishing of polyesters, as in JP-A-09021071 described, or to increase the water absorption of polyurethane foaming according to JP-A-03275741 used. With all be Compounds written is the hydrophilicity or the increase water absorption not by a silane or siloxane, but due to the polyglycol content in the systems described is enough, which is chemically bound to a silane or siloxane can.

The cellulose fibers and contained in fibrous materials such as wood Hemicellulose fibers are made up of lignin, a polymer  from hydroxyphenylpropane units held together. At the Ge When cellulose is obtained, the lignin is removed from the cellulose separates. There are various methods of pulping. On the one hand, chemical exclusion processes at elevated temperatures temperatures and pressures such as B. in the alkaline sulfate process (Kraft process) or in the sulfite process and / or with high Shear forces like the CTMP (chemical-thermal-mechanical pul ping) applied. On the other hand, there are processes at ei digestion without chemicals, like the TMP (thermal-mechanical pulping). In the literature, ver various additives for the wood pulping described to an increased yield or an improved kappa Pulp value or reduced pulping times Process. On the one hand, connections are described ben that intervene directly in the redox system for lignin, such as the anthraquinone. The disadvantage of this addition is Um world aspects, since the exact whereabouts of this additive does not depend is finally clarified. On the other hand, connections are wrote that the impregnation of the wood with the outcrop Improve solution and thus the cooking process z. B. regarding off Optimize loot and backlog. So z. B. in US-A-5,728,265 mixtures of surface-active compounds, such as alkoxylated aryl phosphates with e.g. B. Polydime copolymers described thylsiloxanes with polyglycols. Furthermore be in US-A-5,501,769 mixtures of purely organic additives such as Fatty acid esters of polyoxyalkyl glycols used. Furthermore, who in GB-A-951325 and WO 96/15 312 the use of silanes and Organosiloxanes or of polyorganosiloxane-polyglycol copolymers described directly in the cooking process to also the cooking process or to improve the pulp obtained. The disadvantage of all Impregnation additives or cooker additives described above Silane or siloxane base to improve wood digestion is that they are not stable under stove conditions (siloxane  based components are removed under the cooking conditions builds, chlorosiloxies and alkoxysilanes are hydrolyzed and condensed sier to oligomers). Therefore, its effect is difficult to prove bar. Apparent effects cannot affect a particular one can be recycled and the reproducibility of the Results are generally extremely low.

The present invention relates to compositions for increasing the mass absorption of polar systems in hydrophobic-hydrophilic hybrid materials containing

• 1. polar solvents and
• 2. Surface-active organosilicon compounds selected from the group consisting of
  • 1. (B1) silanes of the formula
    R _(4-ab) R ¹ _b Si (OR ² ) _a (I),
    in which
    R can be the same or different and a monovalent, SiC-bonded, optionally with halogen atoms, acid residues, amino groups, mercapto groups, carbinol groups, ester groups, acid anhydride groups or epoxy groups substituted hydrocarbon residue, the carbon chain also by heteroatoms, such as nitrogen, oxygen or sulfur, can be interrupted,
    R ^{1 can be the} same or different and a monovalent, SiC-bonded, optionally substituted with halogen atoms, acid residues, amino groups, mercapto groups, carbinol groups, ester groups, acid anhydride groups or epoxy groups, aliphatic hydrocarbon radical having at least 4 carbon atoms, the carbon chain also can be interrupted by heteroatoms such as nitrogen, oxygen or sulfur,
    R ^{2 can be the} same or different and represents hydrogen atom, metal atom or a monovalent hydrocarbon radical which is optionally substituted by halogen atoms and which can also be interrupted by hetero atoms such as nitrogen, oxygen or sulfur,
    a is 1, 2 or 3 and
    b is 1, 2 or 3, with the proviso that the sum a + b is less than or equal to 4,
  • 2. (B2) (part) hydrolyzates of silanes of the formula (I) having 2 to 50 Si atoms, which may also have (OR ² ) groups,
  • 3. (B3) linear, branched or cyclic siloxanes with 2-50 silicon atoms from units of the formula
    R ³ _c (OR ⁴ ) _d SiO _{(4-cd) / 2} (II),
    in which
    R ^{3 can be the} same or different and has a meaning given for the radical R,
    R ^{4 can be the} same or different and has a meaning given for radical R ² ,
    c is 0, 1, 2 or 3 and
    d is 0, 1, 2 or 3, with the proviso that the sum c + d is less than or equal to 3 and at least one siloxane unit with d different 0 is present per molecule, and
  • 4. (B4) silanes of the formula
    R ⁵ _4-e Si [R ⁶ (OR ⁷ ) _f OR ⁸ ] _e (III),
    in which
    R ^{5 can be the} same or different and has a meaning given for the radical R,
    R ^{6 can be the} same or different and represents a divalent hydrocarbon radical with 2 to 15 carbon atoms,
    R ^{7 can be the} same or different and represents a divalent hydrocarbon radical with 2 to 4 carbon atoms,
    R ^{8 can be the} same or different and means hydrogen atom, metal atom or a monovalent hydrocarbon radical with 1 to 4 carbon atoms, optionally substituted with halogen atoms, which can also be interrupted by heteroatoms, such as nitrogen, oxygen or sulfur,
    e is 1, 2, 3 or 4 and
    f is an integer from 1 to 20.

Examples of R are alkyl radicals, such as the methyl, ethyl, n-propyl, iso-propyl, 1-n-butyl, 2-n-butyl, iso-butyl, tert.- Butyl, n-pentyl, iso-pentyl, neo-pentyl, tert-pentyl; Hexyl radicals, such as the n-hexyl radical; Heptyl residues, such as n-heptyl rest; Octyl radicals, such as the n-octyl radical and iso-octyl radicals, such as the 2,2,4-trimethylpentyl radical; Nonyl radicals, such as the n-nonyl radical; Decyl radicals, such as the n-decyl radical; Dodecyl residues, such as the n-dode cylrest; Octadecyl radicals, such as the n-octadecyl radical; Cycloalkylre such as the cyclopentyl, cyclohexyl, cycloheptyl and Me thylcyclohexyl residues; Alkenyl residues, such as the vinyl, 1-propenyl and the 2-propenyl radical, aryl radicals, such as the phenyl, naphthyl, Anthryl and phenanthryl; Alkaryl residues, such as o-, m-, p- Tolyl residues; Xylyl residues and ethylphenyl residues; and aralkyl residues, like the benzyl radical, the α- and the β-phenylethyl radical.

Examples of halogenated radicals R are haloalkyl radicals, such as the 3,3,3-trifluoro-n-propyl radical, the 2,2,2,2 ', 2', 2'-hexafluoro  isopropyl, the heptafluoroisopropyl and haloaryl like the o-, m- and p-chlorophenyl radical.

The radical R is preferably a hydrocarbon radical with 1-16 carbon atoms, particularly preferably aliphatic saturated hydrocarbon residues with 1-16 carbon atoms, especially around the methyl radical.

Examples of radical R ¹ are the examples of aliphatic radicals with at least 4 carbon atoms given for R. In the context of the present invention, the term “aliphatic” hydrocarbon radicals is intended to include linear and branched as well as cyclic aliphatic radicals.

The radical R ¹ is preferably aliphatic carbon hydrogen radicals with 8-18 carbon atoms, especially alkyl radicals with 8-18 carbon atoms, in particular octyl, isooctyl, dodecyl and hexadecyl radical.

Examples of optionally substituted hydrocarbon radicals R ² are the radicals indicated for R.

Examples of metal atom R ² are sodium, potassium, calcium and magnesium.

The radical R ² is preferably hydrogen atom, sodium and alkyl radicals having 1-6 carbon atoms, particularly preferably the methyl and the ethyl radical, in particular the ethyl radical.

A is preferably 3.  

B preferably has the value 1 or 2, in particular 1.

Examples of ent in the composition according to the invention Silanes of the formula (I) are isooctyltrimethoxysilane, Isooctyltriethoxysilane, isooctylmethyldimethoxysilane, isooctyl methyldiethoxysilane, isooctyldimethylmethoxysilane, isooctyldi methylethoxysilane, dibutyldimethoxysilane, dodecyltrimethoxysi lan, dodecyltriethoxysilane, hexadecyltriethoxysilane, hexadecyl trimethoxysilane and their silanol and alkali metal salt deri vate, octadecylmethyldimethoxysilane, octadecylmethyldiethoxysi lan, being isooctyltriethoxysilane, dodecyltriethoxysilane, hexa decyltriethoxysilane, octadecyltriethoxysilane, isooctyltrime thoxysilane, dodecyltrimethoxysilane, hexadecyltrimethoxysilane and octadecyltrimethoxysilane is preferred and isooctyltrimethoxy silane and isooctyltriethoxysilane are particularly preferred.

Examples of the hydrolysates of silanes of the formula (I) contained in the composition according to the invention are MeO (-SiMeR'O) _5-6 -Me where Me is methyl and R 'is - (CH ₂ ) ₃ NH- (CH ₂ ) ₃ -NH ₂ .

Examples of radical R ³ are the examples given for R.

The radical R ³ is preferably optionally substituted hydrocarbon radicals having 1 to 4 carbon atoms, the methyl radical being particularly preferred.

Examples of radical R ⁴ are the examples given for R ² , where the hydrogen and sodium atoms, the methyl and the ethyl radical are preferred and the hydrogen atom and ethyl radical are particularly preferred.

C is preferably 1 or 2, in particular 2.

D is preferably 0 or 1.

The organosilicon compounds (B3) are preferably siloxanes which have at least one unit of the formula (II) with at least one radical R ^{3 of} monovalent, SiC-bonded, halogen atoms, acid radicals, amino groups, mercapto groups, carbinol groups, ester groups , Acid anhydride groups or epoxy groups substituted hydrocarbon radical, where the carbon chain can also be interrupted by hetero atoms such as nitrogen, oxygen or sulfur. In particular, these are hydrophilic radicals, such as the aminopropyl, the aminopropylaminoethyl, the hydroxypropyl and the mercaptopropyl radical.

Examples of siloxanes from units of the formula (II) which may be present in the compositions according to the invention are branched, linear or cyclic organopolysiloxanes with 2 to 50 silicon atoms, such as HO- [MeSi ((CH ₂ ) ₃ -NH- (CH ₂ ) ₂ -NH ₂ ) O] ₅ H (amine hydrolyzate), MeO- [Me ₂ SiO] ₁₀ [MeSi ((CH ₂ ) ₃ -NH ₂ ) O] ₅ -Me (short-chain amine oil), Me ₃ Si- [ Me ₂ SiO] ₁₀ [MeSi ((CH ₂ ) ₃ NH (CH ₂ ) ₂ -NH ₂ ) O] ₇ -H (short chain amine oil), HO- [Me ₂ SiO] ₁₀ [MeSi ((CH ₂ ) ₃ - OH) O] ₄ -H (carbinol functional siloxane oil),

HO- [Me ₂ SiO] ₁₀ [MeSi ((CH ₂ ) ₁₀ -COOH) O] ₄ -H (carboxylic acid funct. Oil) and
MeO- [Me ₂ SiO] ₂₀ [MeSi ((CH ₂ ) ₃ -SH) O] ₈ -Me (mercapto funct. Oil),
wherein the amine oils and the mercapto oil are preferred and the amine oils are particularly preferred and Me has the meaning of methyl radical.

Examples of radical R ⁵ are the examples given for R.

The radical R ⁵ is preferably alkyl radicals having 1 to 6 carbon atoms, methyl and ethyl radicals being particularly preferred, in particular the methyl radical.

The radical R ⁶ is preferably divalent hydrocarbon radicals having 2 to 6 carbon atoms, particularly preferably alkylene radicals having 3 to 6 carbon atoms, in particular the n-propylene and the n-hexylene radical.

The radical R ⁷ is preferably the ethylene radical.

Examples of radical R ⁸ are the examples given for R ² , where the hydrogen atom, sodium atom, the methyl and the ethyl radical are preferred and the sodium atom are particularly preferred.

E preferably has the value 1.

F is preferably an integer from 1 to 10, in particular from 6 to 10.

Examples of the silanes of the formula (III) contained in the composition according to the invention are
(CH ₃ ) ₃ Si (CH ₂ ) ₃ (OCH ₂ CH ₂ ) ₆ OCH ₃ ,
(CH ₃ ) ₃ Si (CH ₂ ) ₆ (OCH ₂ CH ₂ ) ₆ OH,
(CH ₃ ) ₃ Si (CH ₂ ) ₆ (OCH ₂ CH ₂ ) ₆ OCH ₃
(CH ₃ ) ₃ Si (CH ₂ ) ₆ (OCH ₂ CH ₂ ) ₆ O (CH ₂ ) ₃ CH ₃ ,
(CH ₃ ) ₃ Si (CH ₂ ) ₃ (OCH ₂ CH ₂ ) ₁₀ OCH ₃ ,
(CH ₃ ) ₃ Si (CH ₂ ) ₃ (OCH ₂ CH ₂ ) ₁₀ OH and
(CH ₃ ) ₃ Si (CH ₂ ) ₃ (OCH ₂ CH ₂ ) ₁₀ O (CH ₂ ) ₃ CH ₃ .

It is preferably the case of the in the invention compositions containing organosilicon compounds (B) (B1), (B3) and (B4), in particular (B3) and (B4).

The organosilicon compounds (B) contained in the compositions according to the invention are preferably distinguished by the fact that they lower the surface tension of the polar solvent (A), particular preference being given to using organosilicon compounds (B) which reduce the surface tension of (A) lower at least 15%. The surface tension is measured using the so-called loop pull method. With this measurement method, a platinum ring (platinum wire diameter approx. 0.5 mm) with a diameter of approx. 2 cm is immersed in the solution to be examined. When the platinum ring is pulled out of the solution to be examined, the force required for this is measured using a force transducer. With the formula

Surface tension = measured force divided by twice the circumference of the ring

you can calculate the surface tension.

Examples of ent in the composition according to the invention polar solvents (A) are water and with water at room temperature and ambient pressure, d. H. at approx. 1013 hPa, any miscible compounds, such as alcohols, cyclic Ethers such as B. tetrahydrofuran and dioxane, nitrogenous Solvents such as B. amines and dimethylformamide, glycols, such as B. polyethylene glycols, organic and inorganic acid ren, organic and inorganic bases, solvent mixtures, Solutions, such as inorganic and organic salt solutions in the solvents or solvent mixtures listed above, Emulsions or dispersions.  

With those contained in the composition according to the invention polar solvents (A) are preferably water, aqueous salt solutions and aqueous bases, such as sodium hydroxide solution, where aqueous lyes, especially sodium hydroxide solution, are particularly preferred are.

With those contained in the composition according to the invention Components can each be a type of such a comm component as well as a mixture of at least two types of one act on each component.

The compositions according to the invention can be any Procedure as by simply mixing the individual compos nents. If desired, you can position of the compositions according to the invention also organosi Licium compounds are used that only when mixing with component (A) the surface-active organosilicon compound extensions of the formula (I) or (III) or from units of the formula (II) result, such as. B. Si-bonded chlorine containing silanes, those in contact with aqueous alkalis as a polar solvent (A) react to partial hydrolyzates containing silanol groups.

The organosilicon compounds (B) used according to the invention can be directly, in solution with organic solvent or as Dispersion to the polar solvent (A) are added.

The compositions of the invention can be any have pH and salt concentration; you can do it yourself be an emulsion or dispersion. Which substances the invent compositions according to the invention in addition to the components (A) and (B) must contain, so that they an emulsion or Forming dispersion are well known to those skilled in the art.  

The compositions according to the invention are produced preferably at a temperature of 0 to 100 ° C and the pressure the surrounding atmosphere, i.e. about 1013 hPa. Pressure and temp rature can, if desired, also be chosen so that the Components (A) and (B) used according to the invention in each case are present as gases.

The amount of contained in the compositions according to the invention The organosilicon compound (B) is primarily directed after their interfacial activity compared to the po laren solvent (A).

The compositions according to the invention contain organosilicas Umverbindung (B) in amounts of preferably up to a Ge part by weight, particularly preferably 0.01 to 0.25 part by weight, each based on 100 parts by weight of polar solvent (A).

The compositions of the invention can, depending on the ge Desired application contain additives. Type and amount of These application-specific additives are known to the expert knows.

The compositions according to the invention have the advantage that the mass absorption of strongly polar solvents or solvents medium mixtures, solutions, emulsions or dispersions in hy Increase drophil-hydrophobic hybrid materials.

The compositions according to the invention have the advantage that they are excellent for impregnating hydrophilic hydrophobic hybrid materials, such as wood, are suitable. You can do it e.g. B. penetrate very deeply into the wood as a wood preservative, oh  ne that a high expenditure on equipment, such as with Druckimprä gnations necessary, would be needed.

The hydrophilic-hydrophobic hybrid materials are preferably around materials containing cellulose fibers, such as wood, Grass fibers, straw, bamboo, corn fibers and hemp, all in be lovely shapes, such as schnitzel, shavings and sawdust, with wood is particularly preferred.

The compositions according to the invention can be used anywhere be used where polar solvent systems in hydrophilic should penetrate hydrophobic hybrid materials, such as in the Impregnation of wood and wood composite materials, such as chip boards, chipboard, soft wood fiber boards and imitation wood te, such as laminate floors, as well as the wood pulp to pulp win.

Another object of the present invention is a ver drive for the impregnation of cellulose-containing materials s, characterized in that cellulose fiber-containing materia in contact with the composition according to the invention be brought.

The impregnation process according to the invention is carried out at temperatures from preferably -25 to 300 ° C, particularly preferably 60 to 120 ° C.

The impregnation process according to the invention is at a pressure from preferably 0 to 250,000 hPa, particularly preferably 1000 up to 50,000 hPa, in particular 1000 to 5000 hPa.  

The method according to the invention can also be in the gas phase be performed, e.g. B. in water vapor impregnation where in those contained in the composition according to the invention Components (A) and (B) could be metered in separately.

In the impregnation process according to the invention, the invented composition according to the invention in such an amount to hydrophilizing materials given that the amount of one set organosilicon compound (B) preferably 100 ppm to 10% by weight, particularly preferably 100 ppm to 1.5% by weight, each based on the total amount to be hydrophilized Materials.

Applying the composition of the invention to the Materials containing cellulose fiber can be used in the invention ß impregnation in any known manner, such as for example painting, dipping, spraying and steaming, he consequences.

The impregnation process according to the invention is preferably carried out in Area of wood protection applied. Here, the inventions According to the compositions used for wood protection or the refractory finishing of wood or wood ver additives typical of coil materials, such as organic or organic fungicides, such as boron salts, organic or inorganic pigments such as vegetable fibers or titanium dioxide, chro mate, preservative, drying agent, hardener, emulsifier ren and flow control agents, such as polyglycols.

The impregnation process according to the invention has the advantage that the composition of the invention excellently in the wood structures can penetrate.  

Furthermore, the impregnation process according to the invention has the Advantage that a deep effect of the impregnation is achieved and thus permanent wood protection.

Furthermore, the impregnation process according to the invention has the front partly that the impregnation times can be shortened. The white teren the wetting is improved, with a shortening of the Operation is achieved.

Another object of the present invention is a ver drive to the production of pulp, characterized in that Fiber raw materials with the composition according to the invention in Im the pulping step.

The production of pulp can be any, up to fro known pulping processes, such as. B. the soda, the sulfite and sulfate digestion (Kraft process), the NSSC procedure, the CTMP and TMP digestion procedure etc., han that are carried out batchwise or continuously can. Have all known pulping processes a common impregnation step before the actual digestion, which in turn are run continuously or in batches can, e.g. B. with process liquor, a mixture of water with so-called "white liquor" and / or so-called "black liquor", or water, like the TMP. For example, see US Pat. No. 5,728,265, in particular column 1, lines 25 to 53, and US-A 5,501,769, in particular column 1, lines 22-67 and column 2 lines 1-55, referenced to the disclosure content of the present inven are counted.

In the method according to the invention, the method according to the invention is used Composition in the impregnation step of pulp pulping  Process added to the fiber raw material. This will increase te absorption of impregnation solutions in the fiber raw material enough. Furthermore, those in the composition according to the invention tion contained defoaming organosilicon compounds during the digestion and thus again to one Contribute to improving the outcrop.

The composition according to the invention preferably contains the in the impregnation step of the pulping process except process liquor as polar solvent (A), Organosilicon compound (B), preferably isooctyltriethoxysilane, Isooctylmethyldiethoxysilane, dodecyltriethoxysilane, hexydecyl triethoxysilane, octadecyltriethoxysilane and octadecylmethyl diethoxysilane and their hydrolysis and condensation derivatives, with isooctyl derivatives as organosilicon compound (B) who are preferred.

Furthermore, they can usually in the impregnation step To be used by known pulping processes Substitutes are used, such as. B. anthraquinone, amines, such as Hexamethylenetetraamine, alkylamines such as ethylamine, methylamine and diethylamine, basic oxidizing agents such as sodium oxide, and Polyglycols, such as polyethylene glycol phenyl ether.

In the method according to the invention, the method according to the invention is used Composition in the impregnation step before the actual im Impregnation of the fiber raw materials added. It is also possible the fiber raw materials with the polar solvent, such as process Mix liquor and then the surface-active orga Add nosilicon compound (B) so that the invention Composition made during the impregnation step becomes.  

The impregnation step of the method according to the invention is carried out at Temperatures of preferably 0 to 200 ° C, particularly preferably 30 up to 130 ° C, especially at 60 to 100 ° C, performed.

The impregnation step of the inventive method is preferably at a pressure of the surrounding atmosphere, i.e. approximately 1013 hPa, or at the pressure in a closed system men at the selected temperature, particularly preferred at the pressure of the surrounding atmosphere.

In the impregnation step of the method according to the invention the composition according to the invention preferably in an amount admitted that per 100 parts by weight of dry fiber raw material preferably 5 to 0.001 parts by weight, particularly preferably 0.5 up to 0.05 parts by weight, surface-active organosilicon compound (B) are present.

All fiber plants can be used as fiber raw materials. Examples of this are the different types of wood, such as birch, Beech, pine, spruce, eucalyptus etc., which in the form of e.g. B. Wood chips, sawdust, sawdust etc. can be used or hemp, straw, grass, etc.

The fiber raw materials are preferably wood.

The impregnation step carried out according to the invention has the Advantage that in the subsequent cooking step, in which the pulping takes place to achieve a certain residual lignin content (kappa value) less digestion solution solution is needed. This causes an increase in the pulp yield, based on the fiber raw materials used, since little low carbohydrates, especially hemicellulose the.  

The kappa value is an essential indicator of the timber and is a measure of the residual lignin content in the cell substance, measured by the consumption of a 0.1 normal potassium permanga nat solution per 1 g of pulp.

A certain kappa value can be determined by the ver Improved impregnation can also be achieved by the cooking time is shortened or the dwell time with a continuous Cooker shortens and thus the capacity is increased, which last finally means that with less use of resources ne higher yield can be achieved.

Under constant digestion conditions, the kappa value can pass through the impregnation according to the invention can be lowered.

The method according to the invention has the further advantage that the penetration of the impregnation solution of the wood pulping increased in the fiber raw materials during the impregnation step and a significant improvement in the cooking process is achieved. So the yield of pulp increases and at the same time the coarse residue ("reject") reduced, or with less Cooking chemicals or shorter cooking times can use the same cell fabric quality can be maintained.

The method according to the invention has the further advantage that thanks to the improved impregnation of the CTMP and TMP Process of energy input with constant pulp quality lity, d. H. constant kappa value, yield and reject deut Lich can be lowered.

In general, the method according to the invention has the advantage that the mass transport of the digestion solution into the fiber raw material is significantly improved.  

In the following examples, all information is from Unless otherwise stated, parts and percentages the weight. Unless otherwise stated, they will follow the examples at a pressure of the surrounding atmosphere, so at about 1000 hPa, and at room temperature, i.e. about 20 ° C or a temperature that changes when the reactants are combined at room temperature without additional heating or cooling poses, carried out. All visco shown in the examples information on temperature should refer to a temperature of 25 ° C hen.

The surface tension values given in the examples were determined as follows:
Approx. 30 ml of the substance to be examined is weighed into a double-coated 50 ml beaker. The solution to be examined is then allowed to temper for about 15 minutes. Then a platinum ring, which has already been described in more detail above, is immersed in the solution and slowly pulled out again (everything happens automatically). The force that is required for this is registered. This measurement is repeated three times and the mean is given in the tables.

example 1

The following compositions are made:
(1a): 0.1 g of isooctyltriethoxysilane is mixed with 1100 g of water.
(1b): 0.1 g of isooctyltriethoxysilane is mixed with 1100 g of water and adjusted to a pH of 13 with 25% sodium hydroxide solution.
(1c): 0.1 g of silane of the formula (CH ₃ ) ₃ Si (CH ₂ ) ₃ (OCH ₂ CH ₂ ) ₆ OCH ₃ (EO-silane) are mixed with 1100 g of water.

In a 1 liter autoclave, 100 g of birch wood chips are added an average diameter of approx. 8 to 13 mm and one average thickness of 1 to 2 mm, which can be divided into a me tall basket, filled. Then the wood is with of the impregnation solution given in Table 1 among those in Ta belle 1 impregnated temperature conditions by 900 g of the respective impregnation solution with a pump pumps / scales combination in the autoclave. After the ge all the amount has been added, wait another 10 minutes, then the solution is drained through the bottom valve and the masses increase in wood chips determined on a scale. The direct This happens in such a way that you measure until you find out the weight does not change by more than ± 0.1 g for more than 1 minute, d. H. all adhering water has drained off.

The impregnation conditions and the results are in Table 1 summarized. The concentration of organosilicon compound in all experiments is 0.08% by weight relative to the wood Libra.

Table 1

Comparative Example 1

The following compositions are used:
(V1d) 1100 g water
(V1e) 1100 g of water, which is adjusted to a pH of 13 with NaOH
(V1f) 0.9 g trimethylethoxysilane in 1100 g water
(V1g) 0.9 g methyltrimethoxysilane in 1100 g water
(V1h) 0.9 g hexamethyldisiloxane in 1100 g water
(V1i) 0.9 g dodecylbenzenesulfonic acid sodium salt in 1100 g water
(V1j) 0.9 g of sodium dodecylbenzenate in 1100 g of water with 25% sodium hydroxide solution adjusted to pH 13.

100 g of the one described in Example 1 are placed in a 1 liter autoclave filled with birch wood chips. Then that will Wood with the impregnation solution given in table 2 below the temperature conditions described in Table 2 gniert by proceeding as described in Example 1. The impregnation conditions and the results are in Table 2 summarized.

Table 2

The comparative examples (1f to 1h) show that with a ge wrestle surface activity of the silane or silo used xanadditive the treated materials are made hydrophobic and therefore a lower water absorption than the untreated Show samples. The comparative examples V1i to V1j clearly show Lich that not only the aspect of the surface tension low important, but that the combination of si compounds containing licensing and simultaneous surface acti vity is the decisive factor.

Example 2 I) General description for the laboratory power-cooking process

The examples are in a 20 l laboratory cooker with a be heated jacket performed. The stove's heating mantle will heated to 80 ° C before the start of the experiment. In this cooker becomes a metal basket filled with 1 kg of wood chips used. Reproducible and meaningful cooker versu  Only selected wood chips with a Diameters from 8 to 13 mm and an average thickness from 1 to 2 mm used. This wood chip cut is representative for wood chips used in the pulp industry.

II) Execution of the power-cooking process experiments

The subsequent cooking process is carried out in two stages:

a) impregnation

For this, the stove is filled with the impregnation solution. This consists of a mixture of 0.8 g isooctyltriethoxysilane, 10 l Aqueous sodium hydroxide solution containing sodium polysulfide with a sulfidity of 37%, which in the pulp industry like described above is known as the so-called white liquor and 10 l of the generally known in the pulp industry, described above black liquids (for experiments with birch wood 2a-2d this one from the Enocell pulp mill in Finland and for the Trials with pine wood 2e-2h from the pulp mill Joutseno in Finland directly from the cooking process of pulp mills bezo gene).

In the comparison tests V2a to V2d (birch) and V2e to V2h (Pine) is only a mixture of impregnation solution 10 l of the same white liquor and 10 l of the same black Liquors used.

The fill level of the cooker with the imprä used in each case gnier solution depends on the type of wood. With birch wood a ratio of wood to impregnation solution of 1: 4.1 and at Pine wood is a ratio of wood to impregnation solution 1: 5.3 set.

The amount of alkali in the form of the impregnation solution sodium hydroxide was always constant in all experiments  hold and was 20% by weight relative to the initial weight of birch and 22% by weight relative to the weight of wood in pine.

After filling the stove, the impregnation solution is mixed with approx. 3 l / min pumped in a circuit via a temperature control unit. Doing so a temperature of 80 ° C and a pressure of 2 bar in the stove posed. These conditions are held for 10 minutes (Im phase of impregnation).

b) pulping

The pulping process closes after the impregnation phase on. The contents of the cooker are opened within 60 minutes Heated to 165 ° C. Throughout the process, the on final solution (corresponds to the impregnation solution) at 3 l / min a temperature control unit pumped in a circle. This pumping rate will kept constant throughout the pulping process. Two cell disruption variants were examined:

version 1

The cooking process will start immediately after 165 ° C cooker temperature canceled by the pressure in the Ko relaxed and at the same time cools the jacket to 80 ° C.

Variant 2

The cooking process is carried out at 165 ° C for 30 minutes leads and then proceed as in variant 1.

c) pulp processing

The raw pulp obtained from the digestion process is approx. 50 l fully demineralized water washed at 80 ° C in the stove. On the pulp is then removed from the cooker.

The raw pulp washed in this way is divided into two batches and then 2 or 10 minutes in a Sundsberg disinte grator grated to further digest the raw pulp.  

(III) Pulp analysis

The following analysis was carried out on the batches obtained in this way:

• a) Kappa value is determined as described above;
• b) The determination of the yield of pulp is the entire recovery amount of pulp relative to the total weight of wood per cooker attempt;
• c) Screened yield of pulp is the total return weighed amount of pulp minus the residue rela tiv to the total weight of wood per cooker test;
• d) residue, d. H. not digested wood parts, like Branch pieces used in the mechanical processing of the raw pulp in the Sundberg disintegrator.

(IV) Results of the stove tests with birch wood chips

Table 3

Summary of the results of the pulp analysis

In order to better interpret the results obtained Table 4 shows the changes in the mean values relative to the reference values.

Table 4

Comparison of the change in the mean values of the measured values from Table 3 of stove tests with the impregnation solution according to the invention with the comparison tests at comparable kappa values

The cooker experiments show a significant improvement in all measured values compared to the values of the comparative examples. So the kappa value is significantly reduced at the same time increasing yield and low residue. Thus improved  the impregnation solution according to the invention the pulping significant.

(V) Results of the stove tests with pine wood chips

Table 5

Summary of the results of the pulp analysis

In order to better interpret the results obtained Table 6 shows the changes in the mean values relative to the values of the comparative examples.  

Table 6

Comparison of the change in the mean values of the measured values from Table 5 of stove tests with the impregnation solution according to the invention with the comparison tests at comparable kappa values

The cooker experiments show a significant improvement in all measured values compared to the values of the comparative tests. So the kappa value is reduced while increasing Yield and low residue. The impregnation solution according to the invention thus improves the Cell pulping also significant in pine wood.  

Table 6

Comparison of the change in the mean values of the measured values from Table 5 of stove tests with the impregnation solution according to the invention with the comparison tests at comparable kappa values

The cooker experiments show a significant improvement in all measured values compared to the values of the comparative tests. So the kappa value is reduced while increasing Yield and low residue. The impregnation solution according to the invention thus improves the Cell pulping also significant in pine wood.

Claims (10)

1. Compositions to increase the mass absorption of polar systems in hydrophobic-hydrophilic hybrid materials containing tend

• 1. (A) polar solvents and
• 2. (B) organosilicon surface active compounds selected from the group consisting of
  • 1. (B1) silanes of the formula
    R _(4-ab) R ¹ _b Si (OR ² ) _a (I),
    in which
    R can be the same or different and a monovalent, SiC-bonded, optionally with halogen atoms, acid residues, amino groups, mercapto groups, carbinol groups, ester groups, acid anhydride groups and epoxy groups substituted hydrocarbon residue, the carbon chain also by heteroatoms such as nitrogen, oxygen or sulfur, can be interrupted,
    R ^{1 can be the} same or different and is a monovalent, SiC-bonded, optionally substituted with halogen atoms, acid residues, amino groups, mercapto groups, carbinol groups, ester groups, acid anhydride groups and epoxy groups, aliphatic hydrocarbon radical having at least 4 carbon atoms, the carbon chain also can be interrupted by heteroatoms such as nitrogen, oxygen or sulfur,
    R ^{2 can be the} same or different and represents hydrogen atom, metal atom or a monovalent hydrocarbon radical which is optionally substituted by halogen atoms and which can also be interrupted by hetero atoms such as nitrogen, oxygen or sulfur,
    a is 1, 2 or 3 and
    b is 1, 2 or 3, with the proviso that the sum a + b is less than or equal to 4,
  • 2. (B2) (part) hydrolyzates of silanes of the formula (I) having 2 to 50 Si atoms, which may also have (OR ² ) groups,
  • 3. (B3) linear, branched or cyclic siloxanes with 2-50 silicon atoms from units of the formula
    R ³ _c (OR ⁴ ) _d SiO _{(4-cd) / 2} (II)
    in which
    R ^{3 can be the} same or different and has a meaning given for the radical R,
    R ^{4 can be the} same or different and has a meaning given for radical R ² ,
    c is 0, 1, 2 or 3 and
    d is 0, 1, 2 or 3, with the proviso that the sum c + d is less than or equal to 3 and at least one siloxane unit with d different 0 is present per molecule, and
  • 4. (B4) silanes of the formula
    R ⁵ _4-e Si [R ⁶ (OR ⁷ ) _f OR ⁸ ] _e (III),
    in which
    R ^{5 can be the} same or different and has a meaning given for the radical R,
    R ^{6 can be the} same or different and represents a divalent hydrocarbon radical with 2 to 15 carbon atoms,
    R ^{7 can be the} same or different and represents a divalent hydrocarbon radical with 2 to 4 carbon atoms,
    R ^{8 can be the} same or different hydrogen atom, metal atom or a monovalent hydrocarbon radical, optionally substituted with halogen atoms, with 1 to 4 carbon atoms, which can also be interrupted by heteroatoms, such as nitrogen, oxygen or sulfur,
    e is 1, 2, 3 or 4 and
    f is an integer from 1 to 20.

2. Compositions according to claim 1, characterized in that the radical R ¹ is aliphatic hydrocarbon radicals having 8-18 carbon atoms, which can be linear, branched or cyclic. 3. Compositions according to claim 1 or 2, characterized in that the organosilicon compounds (B3) are siloxanes which have at least one unit of the formula (II) with at least one radical R ³ equivalent to SiC-bonded, with Halogen atoms, acid residues, amino groups, mercapto groups, carbinol groups, ester groups, acid anhydride groups or epoxy groups substituted hydrocarbon radical, where the carbon chain can also be interrupted by hetero atoms such as nitrogen, oxygen or sulfur. 4. Compositions according to one or more of claims 1 to 3, characterized in that it is in the Organosili cium compounds (B) are those which cover the surfaces voltage of the polar solvent (A) by at least 15% reduce. 5. Compositions according to one or more of claims 1 to 4, characterized in that it is the polar Lö  solvents (A) around water and with water at room temperature and ambient pressure, d. H. at approx. 1013 hPa, can be mixed as required Connections. 6. Compositions according to one or more of claims 1 to 5, characterized in that they are organosilicon compound (B) in amounts up to 1 part by weight based on 100 Parts by weight of polar solvent (A). 7. Process for the impregnation of cellulose-containing mate rialien, characterized in that cellulose fiber-containing Ma materials with the composition according to one or more of the Claims 1 to 6 are brought into contact. 8. The method according to claim 7, characterized in that the Composition in such an amount to that too hydrophilic material is given that the amount of used ter organosilicon compound (B) 100 ppm to 10 wt .-%, based on the total amount of the material to be hydrophilized, be wearing. 9. Process for the production of pulp, characterized net that fiber raw materials with the composition according to a or more of claims 1 to 6 are treated. 10. The method according to claim 9, characterized in that the Fiber raw materials with the composition in the impregnation step be acts and then unlocked in the cooker step the.