DE3119907A1 - Wood pulp, process for its production, and its use - Google Patents

Abstract

Cellulose pulp having a reduced tensile strength [sic] and excellent hydrophilic properties, which is prepared using a hydrophilic debonder of the general formula <IMAGE> in which: R1 denotes methyl, ethyl, propyl, hydrogen or hydroxyethyl, R2 denotes methyl, ethyl, propyl or (ethylene oxide)n, in which n represents an integer from 1 to 50, R3 denotes an aliphatic chain having at least 4 carbon atoms, R4 denotes (ethylene oxide)n or (propylene oxide)n, in which n represents an integer from 1 to 50 and X denotes Cl, I, Br, SO4, PO4 or CH3CO2.

Description

description

The invention relates to a pulp with a low tensile strength and excellent hydrophilic properties obtained by incorporating a hydrophilic Debonders (debonding agents) of the quaternary amine type is produced.

In recent years there has been constant attempt to find specific properties of cellulose pulp derived products through the use of a variety of To improve debonding (delivery equipment). These debonders very often contain a quaternary amine component because of the high level of Substantivity of this molecule for cellulose. Examples of quaternary amine debonders are in U.S. Patents 3,554,863, 3,554,862, 3,395,708, and U.S. Reissue Patent 26 939 to be found. Further examples of such debonders can be found in the US patent 3,617,439, Canadian 1,020,935, British Patents 1,282,593 and 1,180,801 and in U.S. Patents 3,556,931, 3,510,246 and 3,356,526.

Until recently it was believed in the pulp and paper industry that that the debonder function is inversely related to the hydrophilicity, i.e. an increase in the effectiveness of the debonder, represented by the decreased Tensile strength, would lead to decreased water absorption. In the US patent 4,144,122, a quaternary amine compound is described which is linked to two of the quaternary Contains positions of repeating ethylene oxide units. These ethylene oxide units are in in each case bound to the ammonium ion via propylene bonds and they are also characterized by an ether linkage to an aliphatic chain in both positions. According to US Pat. No. 4,144,122, the debonder effect achieved while at the same time improving the hydrophilic character of the Debonder treated pulp compared to pulps made with a conventional one Debonders have been treated.

In accordance with the present invention, another class of Debonders (debonding agents) found that provide a pulp that is even more hydrophilic than the pulp made in accordance with U.S. Patent 4,144,122.

According to the invention, a hydrophilic debonder (debonding agent) with the general formula is used where: R1 is methyl, ethyl, propyl, hydrogen or hydroxyethyl, R2 is methyl, ethyl, propyl or (ethylene oxide) n, where n is a number from 1 to 50, R3 is an aliphatic chain with at least 4 carbon atoms, R4 (ethylene oxide) n or (propylene oxide) n, where n is a number from 1 to 50, and X Cl, I, Br, SO4-, PO4 =, CH3CO2.

Compounds of this general formula actually have an improved Ability to form hydrophilic pulps than that in U.S. Patent 4,144 122 connections described.

One or more of the selected chemicals identified by the above given general formula can be defined on a number of different Make in the pulp during commercial pulping operations or the pulp layer can be incorporated. Because of the hydrophilic properties the pulp after treatment with the debonder varies Usability of products made from this pulp of a fluff, as used in conventional absorbent materials, such as in Sanitary napkins and diapers, to an absorbent sheet material such as paper towels. Regarding the diapers, it should be noted that a number of absorbency tests a considerable increase in the absorption of urine compared to the more conventional ones Debonding indicates and that therefore the products according to the invention are particularly good can be used in diaper products.

[Under the terms "diapers" and "diaper products" used here all incontinence pads and products are to be understood, regardless of whether or not they are are specifically designed to be worn by a child or adult or whether they are in layer form, for example for use with incontinence children or adults in a hospital or nursing home].

The quaternure ammonium compounds according to the invention should be wet cellulose pulp either after delignification or after bleaching before or during processing into layers or continuous webs a cellulose pulping machine or a paper machine.

The compounds are preferably in an aqueous carrier Concentration within the range of about 1 to about 15 weight percent debonder. These treatment solutions can also be conventional, viscosity-reducing Additives such as ethanol, propanol, monoethyl ether or diethylene glycol, and others Contains additives that are usually associated with the debonder addition process. The amount of the new debonder, based on the dry weight of the cellulose, is within the range of about 0.1 to about 5.0, preferably between about 0.2 and about 2.5%.

The treatment solution can be applied by mixing with a Pulp slurry. It can also be applied by spraying or dipping, by spotting rollers or using any other suitable method. After application, the treated cellulose pulp or the treated paper can be used be dried in the usual way. The treated cellulose can become a cellulose fluff (fluff), as stated above, for use in various Hygiene products. In all other respects the processing of paper and Pulp in relation to the handling of the pulp containing these compounds hen conventional.

Products falling under this inventive category of definition fall are currently commercially available and they are sold under the trademark "ETH04UAD" from Armak Industrial Chemical Division of Akzona Inc., Asheville, North Carolina / USA, and they are generally used as antistatic agents, Electroplating bath additives and dye leveling agents are used. Useful is also the class of compounds sold under the trademark "EMCOL" by the Witco Chemical Company, Inc., New York, New York / USA, which used for similar purposes.

An example of the debonders according to the invention (debonding agents) is given below. In this example the debonding capacity is measured by bursting according to the TAPPI standard procedure T403 OS-76, and the tensile strength, measured according to the TAPPI standard method T494 OS-70, compared with one another. That Water absorbency is determined by the following procedure: Test Samples are made from hand-formed sheets treated with the debonder Cut out three 1 "x 3" (2.54 cm x 7.62 cm) randomized Strips from each sheet. It is found that 5 sheets for each test condition are suitable.

Each strip is spaced 0.5 cm with a 3.5 cm spacing the edge of the 1 inch (2.54 cm) end.

Deionized water (surface tension 72 dynes / cm) introduced. The test strip is in the bottle immediately above and attached perpendicular to the liquid surface. Then the height of the liquid adjusted until the liquid surface just lines up with the strip in Contact comes. The leaf then absorbs the liquid and it rises on the Strip up. A light source behind the bottle supports viewing the rise in the liquid. When the liquid meets the first 0.5 cm line in Contact comes, a timer is started. Every time the liquid dies touches the next higher 0.5 cm line, the time is recorded. This leads to 90 Measurements at each test condition (3 strips / sheet x 6 measurements / strips x 5 blood / test conditions).

The speed or rate is determined by assigning the data to a regression of the height of rise on the strip and application of the same against the square root of the time required. The square root results from the Consideration of the Lucas-Washburn equation. The correspondences are considered in all Cases excellent with r> 0.98. This leads to speeds or rates, which are calculated to be better than + 4%. All data received will be in relation to corrected the density.

For all the tests described, hand-formed blotters with a Made base weight of 100.9 g / m2 (60 lbs / 3000 ft2).

Three compounds of the general formula according to the invention were tested as debonders (debonding devices) and these were the following: These compounds were compared in the test with QUAKER 2006, a debonder that is now being sold by Quaker Chemicals in Barrington, Illinois / USA; with ARQUAD 2HT-75, a commercially available debonder from Armak Chemical Inc., Chicago, Illinois / USA; and with BEROCELL 579, 582 and 584, made according to US Pat. No. 4,144,122. The structure of the BEROCELL compounds cannot be identified otherwise than by the patent number; the ARQUAD compound is a quaternary amine with a methyl group in R1 and R2 and saturated C18 groups in R3 and R4. The QUAKER 2006 compound is not specifically defined by the Quaker Company, but is believed to have a five-membered ring structure with two nitrogen atoms, one nitrogen atom being linked by a double bond to one of the carbon atoms in the ring structure and the other Nitrogen atom has two substituent groups attached thereto in addition to the bond associated with the ring structure.

When compared in the tests described above, the in the values given in Table I below are obtained.

Table I Addition Addition Pulp Bursting in Tensile Strength Water Removal - (%) kg / cm2 (psi) in kg / cm sorption (lbsJinch) capacity (cm / sec) - --- SSK 0.63 (9.02) 0.99 (5.47) 0.63 EMCOL CC-42 0.4 SSK 0.29 (4.19) 0.70 (3.90) 0.68 EMCOL CC-42 1.0 SSK 0.28 (4.00) 0.62 (3.44) 0.64 EMCOL CC-42 2.4 SSK 0.23 (3.33) 0.56 (3.10) 0.63 ETHOQUAD C / 25 0.25 SSK 0.44 (6.31) 0.82 (4.57) 0.57 ETHOQUAD C / 25 0.5 SSK: 0.44 (6.23) 0.84 (4.65) 0.55 ETHOQUAD C / 25 0.7 SSK 0.38 (5.37) 0.81 (4.52) 0.55 ETHOQUAD C / 25 1.0 SSK 0.37 (5.32) 0.81 (4.49) 0.54 ETHOQUAD 0/12 0.4 SSK 0.38 (5.44) 0.83 (4.60) 0.64 ETHOQUAD 0/12 1.0 SSK 0.34 (4.85) 0.69 (3.83) 0.60 ETHOQUAD 0/12 2.4 SSK 0.33 (4.74) 0.55 (3.03) 0.57 QUAKER 2006 0.4 SSK 0.45 (6.38) 0.69 (3.85) 0.31 QUAKER 2006 1.0 SSK- 0.39 (5.60) 0.48 (2.68) 0.30 QUAKER 2006 2.4 SSK 0.28 (4.04) 0.30 (1.68) 0.42 ARQUAD 2HT-75 0.4 SSK 0t33 (4.70) 0.57 (3.18) 0.34 ARQUAD 2HT-75 1.0 SSK 0.28 (3.95) 0.36 (2.02) 0.32 ARQUAD 2HT-75 2.4 SSK 0.25 (3.56) 0.36 (2.00) 0.29 BEROCELL 579 0.4 SSK 0.34 (4.88) 0.50 (2.75) 0.39 BEROCELL 579 1.0 SSK 0.32 (4.52) 0.48 (2.69) 0.39 BEROCELL 579 2.4 SSK 0t27 (3.81 0.36 (2.00) 0.30 BEROCELL 582 0.4 SSK 0.37 (5.21) 0.47 (2.59) 0.45 BEROCELL 582 1.0 SSK 0.26 (3.76) 0.33 (1.83) 0.41 BEROCELL 582 2.4 SSK 0.25 (3.51) 0.32 (1.76) 0.35 BEROCELL 584 0.4 SSK 0.29 (4.10) 0.33 (1.86) 0.45 BEROCELL 584 1.0 SSK 0.23 (3.22) 0.26 (1.45) 0.42 Tabel I - continued BEROCELL 584 2.4 SSK @ 0.20 (2.90) 0.25 (1.40) 0.38 NSK 0.81 (11.50) 1.55 (8.62) 0.43 ETHOQUAD C / 25 0.4 NSK + 1.49 (8.30) 0.49 ETHOQUAD C / 25 1.0 NSK - 1.38 (7.65) 0.44 ETHOQUAD C / 25 2.5 NSK - 1.17 (6.48) 0.42 ETHOQUAD 0/12 0.4 NSK - 1.42 (7.90) 0.53 ETHOQUAD0 / 12 1.0 NSK - 1.18 18 (6.57) 0.46 ETHOQUAD 0/12 2.5 NSK - 0.94 (5.21) 0.42 ARQUAD 2HT-75 0.4 NSK - 0.83 (4.60) 0.23 ARQUAD 2HT-75 1.0 NSK - 0.61 (3.40) 0.21 ARQUAD 2HT-75 2.5 NSK - 0.68 (3.75) 0.20 Footnote: SSK = Southern Softwood Kraft NSK = Northern Softwood Kraft As can be seen from the above data, is sufficient with the debonders according to the invention (debonding agents) Reduction in tensile strength achieved while at the same time through the same connections a much better water absorption capacity is generated, compared for example with BEROCELL compounds, which act as a debonder (unbinding agent) to reduce the hydrophilicity as indicated in U.S. Patent 4,144,122. These values also apply for varying levels of debonders. More importantly, in some cases with lower amounts of the debonder according to the invention added, the hydrophilicity the pulp treated with the debonder is actually larger than that of the untreated pulp.

The table above also shows that the data, although different slightly different depending on different pulp sources, always in the of the same general order of magnitude.

When the compounds of the invention are able to absorb urine were tested, based on a synthetic urine, containing the following components contained: compound concentration (g / l) KH2PO4 0.681 F.W. = 136 CaH4 (PO4) 2 # H2O 0.309 F.W. = 252.1 NgSO4 7H20 0.477 F.W. = 246.5 K2S04 1.333 F.W. = 174 Na3PO4 # 12H2O 1,244 F.W. = 380 NaCL 4,441 F.W. = 58.4 KCL 3.161 F.W. = 74.5 NaN3 0.400 F.W.- = 65 urea 8,560 F.W. = 60 nonionic surfactant 0.100 F.W. = 5000 was the values obtained, in turn, are significantly greater than those of the comparable ones, commercially available debonders as shown in Table II below is: Table II Addition of pulp Addition of synthetic urine absorbency (cm / sec) SSK --- 0.64 EMCOL CC-42 SSK 0.4 0.69 EMCOL CC-42 SSK 1.0 0.66 EMCOL CC-42 SSK 2.4 0.64 ETHOQUAD C / 25 SSK 0.25 0.55 ETHOQUAD C / 25 SSK 0.5 0.55 ETHOQUAD C / 25 SSK 0.7 0.54 ETHOQUAD C / 25 SSK 1.0 0.53 ETHOQUAD 0/12 SSK 0.4 0.65 ETHOQUAD 0/12 SSK 1.0 0.56 ETHOQUAD 0/12 SSK 2.4 0.61 QUAKER 2006 SSK 0.4 0.33 QUAKER 2006 SSK 1.0 .0.35 QUAKER 2006 SSK 2.4 0.40 ARQUAD 2HT-75 SSK 0.4 0.25 ARQUAD 2HT-75 SSK 1.0 0.20 ARQUAD 2HT-75 SSK 2.4 0.22 - NSK --- 0 .45 Table II - Continuation at ETHOQUAD C / 25 NSK 0.4 0.40 ETHOQUAD C / 25 NSK 1.0 0.39 ETHOQUAD C / 25 NSK 2.5 0.40 ETHOQUAD C / 25 NSK 0.4 0.43 ETHOQUAD 0/12 NSK 1.0 ° .39 ETHOQUAD 0/12 NSK 2.5 0.34 ARQUAD 2HT-75 NSK 0.4 0.18 ARQUAD 2HT-75 NSK 1.0 0.14 ARQUAD 2HT-75 NSK 2.5 0.15 As can be seen from the table above, considerable Advantages achieved when using the debonder according to the invention (debonding agent), if the end product is supposed to be a fluff, which is then put into diapers or related diaper products is used.

As indicated above, the increase in hydrophilicity can still be substantial offer further advantages in relation to the fluff in its conventional Uses, for example in sanitary towels or in other hygiene products.

Although the invention has been preferred with reference to FIG Embodiments explained in more detail, but it is self-evident for the person skilled in the art that it is by no means restricted to this, but that it is in many respects altered and modified without departing from the scope of the present Invention is abandoned.

Claims (13)

Wood pulp, process for its production and the use thereof. Patent claims 1. Wood pulp, characterized in that it contains a hydrophilic debonder (debonding agent) of the general formula where: R1 is methyl, ethyl, propyl, hydrogen or hydroxyethyl, R2 is methyl, ethyl, propyl or (ethylene oxide) n, where n is a number from 1 to 50, R3 is an aliphatic chain with at least 4 carbon atoms, R4 (ethylene oxide) n or (propylene oxide) n, where n is a number from 1 to 50, and X is C1, J, Br, 504, PO4, CH3CO2. 2. Wood pulp according to claim 1, characterized in that it has the Debonder in an amount between about 0.1 and about 5.0% by weight, based on the dry Cellulosic material. 3. A process for treating cellulose pulp fiber to reduce the interfiber bond while maintaining the hydrophilicity of the pulp, characterized in that the cellulose pulp fiber slurry contains a quaternary ammonium compound of the general formula before or during processing of the slurry into a web where: R1 is methyl, ethyl, propyl, hydrogen or hydroxyethyl, R2 is methyl, ethyl, propyl or (ethylene oxide) n, where n is a number from 1 to 50, R3 is an aliphatic chain with at least 4 carbon atoms, R4 (ethylene oxide) n or (propylene oxide) n, wherein n is a number from 1 to 50, and X C1, J, Br, SO4, Poi, CH3CO2 is added and a sheet is formed therefrom and dried. 4. The method according to claim 3, characterized in that the quaternary Ammonium compound used in an aqueous vehicle in an amount of 1 to 15% by weight will. 5. The method or claim 3 and / or 4, characterized in that the quaternary ammonium compound in an amount of from about 0.1 to about 5.0 percent on the dry weight of the cellulose to which the fibers are applied. 6. The method according to at least one of claims 3 to 5, characterized characterized in that the quaternary ammonium compound by spraying a solution the same is added to the web and drying the web. 7. The method according to at least one of claims 3 to 6, characterized characterized in that the quaternary ammonium compound of the slurry of cellulose pulp fibers added and the pulp is then dried. 8. The method according to at least one of claims 3 to 7, characterized characterized in that the web is shredded into a cellulose fluff. 9. The method according to at least one of claims 3 to 8, characterized characterized that the quateradre ammonium compound during the processing of the Cellulose pulp fiber slurry is added to a web. 10. Absorbent fluff (fluff), characterized in that it is the hydrophilic debonder according to claim 1 and / or 2 contains. 11. Absorbent fluff according to claim 10, characterized in that that he has the hydrophilic debonder in an amount of about 0.1 to about 5.0 wt .-%, based on the dry cellulose material. 12. Diaper, characterized in that it contains einrnabsorbierenden fluff with a hydrophilic debonder of the general formula where: R1 is methyl, ethyl, propyl hydrogen or hydroxyethyl, R2 is methyl, ethyl, propyl or (ethylene oxide) n, where n is a number from 1 to 50, R3 is an aliphatic chain with at least 4 carbon atoms, R4 (ethylene oxide) n or (Propylene oxide) n, where n is a number from 1 to 50, and X is Cl, I, Br, SO4, PO4, CH3CO2. 13. Layer material based on absorbent cellulose, characterized in that it contains a hydrophilic debonder of the general formula where: -Rl is methyl, ethyl, propyl, hydrogen or hydroxyethyl, R2 is methyl, ethyl, propyl or (ethylene oxide) n, where n is a number from 1 to 50, R3 is an aliphatic chain with at least 4 carbon atoms, R4 (ethylene oxide) n or (propylene oxide) n, where n is a number from 1 to 50, and X Cl, I, Br, SO4, PO4 =, CH3CO2.