CN112813729A - Hydrolysis-resistant alkenyl succinic anhydride sizing agent and preparation method and application thereof - Google Patents

Abstract

The invention provides a preparation method of an anti-hydrolysis alkenyl succinic anhydride sizing agent, which comprises the following steps: mixing the CNC aqueous dispersion with acetone, ammonium monohydrate and hexadecyl trimethyl siloxane, and performing ultrasonic dispersion to obtain a mixed solution I; adding perfluorooctyl triethoxysilane into the mixed solution I, and performing ultrasonic dispersion to obtain a mixed solution II; drying the mixed solution II to obtain CNC-R powder; mixing CNC-R powder with perfluorohexane, performing ultrasonic dispersion, adding alkenyl succinic anhydride, mixing, and performing ultrasonic emulsification to obtain ASA-A emulsion; and mixing the ASA-A emulsion with a sodium dodecyl sulfate aqueous solution, and performing ultrasonic emulsification to obtain the hydrolysis-resistant alkenyl succinic anhydride sizing agent. The ASA emulsion prepared by the method has obviously improved surface sizing performance, and can greatly improve the hydrolysis resistance of ASA; the ASA sizing agent emulsion has the advantages of simple preparation process, small using amount of the emulsifier, low emulsification cost and good sizing effect.

Description

Hydrolysis-resistant alkenyl succinic anhydride sizing agent and preparation method and application thereof

Technical Field

The invention relates to the technical field of papermaking, in particular to an anti-hydrolysis alkenyl succinic anhydride sizing agent and a preparation method and application thereof.

Background

The emulsion is a dispersion system formed by dispersing a liquid in another liquid immiscible with the liquid, is mostly formed by mixing a water-insoluble oil phase and a water phase, and is widely applied to industries of papermaking, food, cosmetics, medicines and the like. Emulsions are thermodynamically unstable systems and in order to maintain the relative stability of the emulsion (kinetic stability) emulsifiers or stabilizers have to be added during the preparation of the emulsion. Most of the traditional emulsifiers or stabilizers are surfactants and high molecular polymers with surface activity, and the stability of the emulsion is maintained by reducing the interfacial tension between oil-water two-phase liquid, providing a stable interfacial film and improving the viscosity of a continuous phase. In recent years, solid particles have been receiving more and more attention because they can avoid adverse effects of surfactants on the environment, stabilize highly concentrated dispersed phase emulsions, and are less affected by changes in pH, salt concentration, temperature, and oil phase composition. For example, in the paper industry, water-insoluble sizing agents for papermaking need to be emulsified into an oil-in-water emulsion to be compatible with the papermaking system using water as a medium, and the purpose of sizing for papermaking is to increase the water resistance of paper, and the presence of surfactants generally reduces the water resistance of paper in addition to causing adverse effects on the environment, which can be avoided by using solid particle stabilized sizing agent emulsions.

The paper making industry in the twentieth century changes from an acid paper making system to medium-alkaline paper making, is an innovative change of a paper making process, greatly improves the paper quality, expands the filler range, reduces the pulp consumption and the energy consumption, lightens the environmental pollution and prolongs the service life of equipment. China adopts medium and alkaline sizing in production since 1989, and gradually popularizes in recent years, so that Alkyl Ketene Dimer (AKD) and Alkenyl Succinic Anhydride (ASA) are mainly used at present, and ASA is gradually adopted in large and medium-sized paper mills. In particular, in recent years, ASA sizing agents have been widely used for internal sizing of fine paper and board, particularly for large high-speed paper machines for internal coating, due to their high reactivity, low sizing cost, and high curing rate. However, ASA is a neutral sizing agent for papermaking with high reactivity, the hydrolysis speed is high, the sizing effect is reduced after the emulsion is stored for more than 1 hour at room temperature, the hydrolysate can cause paper making obstruction and the sizing efficiency is reduced, so when ASA is used, the ASA is required to be emulsified quickly, and the emulsified emulsion is required to be used as soon as possible. Alkenyl Succinic Anhydride (ASA) is very easy to hydrolyze, alcoholysis and ammonolysis, so alcohol, carboxylic acid and ammonia compounds are not suitable for being used as an emulsifier for ASA. At present, cationic starch and low molecular surfactant are mainly utilized for on-site emulsification of the ASA sizing agent and are used immediately, the shelf life of the emulsified ASA emulsion is short, and most of the sizing activity can be lost in 2-6 hours; in addition, the starch used for emulsifying ASA needs to be gelatinized and cooled before use, so that the ASA emulsifying process is quite complex and difficult to control, and the problems of deposition, felt blockage and the like are often caused. In addition, the surfactant in the sizing agent has certain adverse effects and certain pollution to the environment.

At present, the research and the achievement of the emulsification preparation aspect of the ASA sizing agent are gradually enriched. US patent US6346554 discloses a method for stabilizing ASA emulsions using natural vegetable gums which purportedly increase ASA sizing efficiency by increasing ASA retention on the fibers, reducing ASA hydrolysis and consequent deposition problems, and forming a more uniform film on the fiber surface. US5962555 discloses a method for emulsifying ASA using a mixture of ionene polymers which not only increase sizing efficiency but also have a bactericidal effect and polyethyleneimine. Although these inventions eliminate the inconvenience of starch gelatinization in handling, they still require the addition of about 2% surfactant to obtain a stable ASA emulsion. US6284099 discloses a method for stabilizing ASA emulsions using anionic microparticle retention aids such as bentonite, colloidal silica, organic microparticles, and small amounts of surfactants and chelating agents for papermaking, which combines the microparticle retention aid with a sizing agent, simplifies the operation, and reduces the amount of surfactant used; however, the adverse effect of the surfactant cannot be completely avoided, and the addition amount of the particulate component is too large, so that the concentration of the prepared ASA emulsion is low, the storage of the emulsion is not facilitated, and the ASA is hydrolyzed seriously. Chinese patent 201510417679.9 discloses a biodegradable solid particle emulsifier based on modified cellulose nanocrystal particles and an emulsified ASA sizing agent thereof, the emulsified emulsion has good stability and can meet the general production requirements, but the emulsion has general stability, the sizing activity can only be kept for about 3 hours, and the limitation of ASA used in field emulsification still can not be removed.

In conclusion, the prior ASA sizing agent emulsion needs to be prepared at present, the ASA sizing agent emulsion has poor stability and is extremely easy to hydrolyze, and the shelf life of the sizing agent emulsion for papermaking is short.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an anti-hydrolysis alkenyl succinic anhydride sizing agent, a preparation method and application thereof, and the prepared ASA sizing agent has high stability and strong hydrolysis resistance.

In order to achieve the purpose, the invention adopts the following technical scheme.

A preparation method of an anti-hydrolysis alkenyl succinic anhydride sizing agent comprises the following steps:

(1) mixing Cellulose Nanocrystalline (CNC) water dispersion with acetone, ammonium monohydrate and hexadecyl trimethyl siloxane, and performing ultrasonic dispersion to obtain mixed solution I; adding perfluorooctyl triethoxysilane into the mixed solution I, and performing ultrasonic dispersion to obtain a mixed solution II; drying the mixed solution II to obtain CNC-R powder;

(2) mixing CNC-R powder with perfluorohexane, performing ultrasonic dispersion, adding Alkenyl Succinic Anhydride (ASA) for mixing, and performing ultrasonic emulsification to obtain ASA-A emulsion;

(3) mixing the ASA-A emulsion with a sodium dodecyl sulfate aqueous solution, and performing ultrasonic emulsification to obtain the ASA-B emulsion, namely the hydrolysis-resistant alkenyl succinic anhydride sizing agent.

The diameter of the Cellulose Nanocrystal (CNC) is 3-10nm, and the length is 100-500 nm.

The mass fraction of the cellulose nanocrystalline in the mixed solution I is 0.05-2%, the mass fraction of the acetone is 0.1-1%, and the mass fraction of the ammonium monohydrate is 0.5-2%.

The dosage of the hexadecyl trimethyl siloxane is 2-30% of the mass of the cellulose nanocrystal.

The dosage of the perfluorooctyl triethoxysilane is 5-20% of the mass of the cellulose nanocrystal.

The alkenyl succinic anhydride is at least one of dodecyl to octadecyl alkenyl succinic anhydride monomers, and more preferably at least one of tetradecyl to hexadecyl alkenyl succinic anhydride monomers; when the alkenyl succinic anhydride is a mixture, the ratio of the dodecyl to octadecyl alkenyl succinic anhydride monomer is not particularly limited, and the dodecyl to octadecyl alkenyl succinic anhydride monomer can be mixed according to any ratio. The invention utilizes alkenyl succinic anhydride as a base stock for sizing agents.

The mass ratio of the CNC-R powder to the perfluorooctane is 1: 20-100.

The mass ratio of the alkenyl succinic anhydride to the perfluorooctane is 1: 0.1-2.

The mass ratio of the ASA-A emulsion to the sodium dodecyl sulfate aqueous solution is 1: 0.5-10.

The mass percentage of the sodium dodecyl sulfate aqueous solution is 0.1-2%, preferably 0.2-1%.

The power of the ultrasonic dispersion is 500-3000W.

An anti-hydrolysis alkenyl succinic anhydride sizing agent obtained by the preparation method.

An application of the anti-hydrolysis alkenyl succinic anhydride sizing agent in preparation of water-resistant paper.

The invention has the following advantages:

the oil-in-water-in-oil (W/O/O) type composite ASA emulsion emulsified and stabilized by CNC-R and sodium dodecyl sulfate has ultrahigh stability and strong hydrolysis resistance. The ASA sizing agent emulsion prepared by the invention can not generate particle aggregation and precipitation after being placed for 90 days, has no phase body precipitation and no demulsification phenomenon, has good emulsion stability, almost no attenuation on the sizing degree of sized paper, achieves the sizing degree of 455 seconds when the internal sizing dosage of paper pulp is 0.2 percent (relative to the mass percentage of absolute dry pulp), and has good sizing performance and hydrolysis resistance. The invention is expected to solve the problems of the on-site emulsification and on-site sizing process commonly adopted by the prior ASA papermaking sizing process and the sizing process limitation caused by ASA hydrolysis. Compared with ASA emulsions with stable emulsification of traditional surfactants (such as starch) and ASA emulsions with stable emulsification of solid particles (such as clay nanoparticles and modified particles thereof), the ASA emulsions prepared by the method have the advantages that the surface sizing performance is remarkably improved, and the hydrolysis resistance of ASA can be greatly improved; the ASA sizing agent emulsion has the advantages of simple preparation process, small using amount of the emulsifier, low emulsification cost and good sizing effect.

Drawings

FIG. 1 is a micrograph of an ASA-A emulsion prepared according to example 2;

FIG. 2 is a micrograph of an ASA-B emulsion prepared according to example 2.

Detailed Description

The present invention will be further described with reference to the following examples and drawings, but the present invention is not limited to the following examples.

Example 1 preparation of hydrolysis resistant dodecenyl succinic anhydride sizing agent

(1) Dispersing 1 part by weight of CNC (computerized numerical control) (with the diameter of 3nm and the length of 100 nm) in water to prepare a dispersion liquid with the mass fraction of 0.05%, adding 2 parts by weight of acetone, 10 parts by weight of ammonium monohydrate and 0.02 part by weight of hexadecyl trimethyl siloxane, mixing, and ultrasonically dispersing at the temperature of 25 ℃ for 1 hour at 500W to obtain a mixed solution I; adding 0.05 weight part of perfluorooctyl triethoxysilane into the mixed solution I, and continuing to perform ultrasonic dispersion for 1 hour to obtain mixed solution II; vacuum drying the mixed solution II at 65 ℃ to obtain CNC-R powder;

(2) mixing 1 part by weight of CNC-R powder with 20 parts by weight of perfluorohexane, ultrasonically dispersing the mixture at 25 ℃ for 1 hour by 500W, adding 200 parts by weight of dodecenyl succinic anhydride, mixing, and continuing to ultrasonically emulsify the mixture for 15 minutes to obtain ASA-A emulsion;

(3) mixing 2 parts by weight of ASA-A emulsion with 1 part by weight of sodium dodecyl sulfate aqueous solution with the mass concentration of 0.1%, and ultrasonically emulsifying for 15 minutes at 25 ℃ under 500W to obtain ASA-B emulsion, namely an anti-hydrolysis alkenyl succinic anhydride sizing agent.

Example 2 preparation of hydrolysis resistant hexadecylsuccinic anhydride sizing agent

(1) Dispersing 1 part by weight of CNC (computerized numerical control) (diameter 5nm and length 220 nm) in water to prepare a dispersion liquid with the mass fraction of 1%, adding 10 parts by weight of acetone, 20 parts by weight of ammonium monohydrate and 0.2 part by weight of hexadecyl trimethyl siloxane, mixing, and performing ultrasonic dispersion at 25 ℃ for 1 hour at 1000W to obtain a mixed solution I; adding 0.1 part by weight of perfluorooctyl triethoxysilane into the mixed solution I, and continuing to perform ultrasonic dispersion for 1 hour to obtain mixed solution II; vacuum drying the mixed solution II at 65 ℃ to obtain CNC-R powder;

(2) mixing 1 part by weight of CNC-R powder with 60 parts by weight of perfluorohexane, ultrasonically dispersing the mixture at the temperature of 25 ℃ for 1 hour by 1000W, adding 60 parts by weight of hexadecenyl succinic anhydride, mixing, and continuously ultrasonically emulsifying the mixture for 15 minutes to obtain ASA-A emulsion; the micrograph is shown in figure 1: wherein the continuous phase is perfluorohexane, the droplets are perfluorohexane-coated ASA emulsion (oil-in-oil) droplets, and the interface component of the droplets is composed of ASA emulsion (oil-in-oil) droplets with long-chain alkyl groups [ - (CH) grafted on the surface₂)_xCH₃]And long-chain perfluoroalkane group [ - (CH)₂)_x(CF₂)_xCF₃]Modified CNC-R particles effective as interfacial particle stabilizers to stabilize perfluorohexane and ASA oil phases to form ASA-A emulsions having a mean droplet diameter of about 1 μm.

(3) Mixing 1 part by weight of ASA-A emulsion with 5 parts by weight of sodium dodecyl sulfate aqueous solution with the mass concentration of 0.5%, and ultrasonically emulsifying for 15 minutes at the temperature of 25 ℃ under 1000W to obtain ASA-B emulsion, namely an anti-hydrolysis alkenyl succinic anhydride sizing agent, wherein a micrograph of the ASA-A emulsion is shown in figure 2:

the sizing agent emulsion takes sodium dodecyl sulfate aqueous solution as a continuous phase, and the ASA-perfluorooctane emulsion is uniformly dispersed in the sodium dodecyl sulfate aqueous solution in a spherical dispersion droplet form; wherein ASA is coated by perfluorooctane, and CNC-R is adsorbed at an oil-oil interface between ASA and perfluorooctane in the form of solid particles to form an oil-oil emulsion; the finally obtained ASA emulsion liquid drop is wrapped by the outer oil phase, so that the contact between ASA and a water phase is avoided, and the purpose of avoiding hydrolysis is achieved.

Example 3 preparation of hydrolysis resistant alkenyl succinic anhydride sizing agent

(1) Dispersing 2 parts by weight of CNC (computer numerical control) (with the diameter of 10nm and the length of 500 nm) in water to prepare a dispersion liquid with the mass fraction of 2%, adding 1 part by weight of acetone, 2 parts by weight of ammonium monohydrate and 0.6 part by weight of hexadecyl trimethyl siloxane, mixing, and ultrasonically dispersing at the temperature of 25 ℃ for 1 hour at 3000W to obtain a mixed solution I; adding 0.4 part by weight of perfluorooctyl triethoxysilane into the mixed solution I, and continuing to perform ultrasonic dispersion for 1 hour to obtain mixed solution II; vacuum drying the mixed solution II at 65 ℃ to obtain CNC-R powder;

(2) mixing 1 part by weight of CNC-R powder with 100 parts by weight of perfluorohexane, ultrasonically dispersing at 3000W for 1 hour at 25 ℃, adding 10 parts by weight of octadecenyl succinic anhydride, mixing, and continuing to ultrasonically emulsify for 15 minutes to obtain ASA-A emulsion;

(3) mixing 1 part by weight of ASA-A emulsion with 10 parts by weight of sodium dodecyl sulfate aqueous solution with the mass concentration of 1%, and ultrasonically emulsifying for 15 minutes at 3000W at 25 ℃ to obtain ASA-B emulsion, namely an anti-hydrolysis alkenyl succinic anhydride sizing agent.

Comparative example 1

The stable alkenyl succinic anhydride papermaking sizing agent emulsion (CN 200810017130.0) is prepared by using micro-floccules of anion and cation inorganic nano-particles as an emulsifying and stabilizing agent, and the specific method is the method adopted in example 4 in the patent. The method comprises the following specific steps: 2g of sodium fluoride modified sodium bentonite (crude soil is obtained from Liaoning), 0.02g of interlayer anion is Cl^-Dispersing ionic hydrotalcite in 40mL of deionized water to prepare an ASA emulsifier, wherein the solid content of the emulsifier is 4.8%; weighing 20g of industrial ASA, and preparing the productMixing the prepared emulsifier with ASA, keeping the oil-water ratio at 1:2, and emulsifying for 3min at 10000r/min with a shearing emulsifying machine. The ASA emulsion produced was a homogeneous, milky oil-in-water (O/W) emulsion.

Application example hydrolysis-resistant alkenyl succinic anhydride sizing agent performance measurement

(1) Paper making of sized paper

Sizing by an internal sizing method. Before sizing, the sizing agent prepared in the example or the comparative example is diluted to 0.2%, the pulp concentration is adjusted to 1%, 1% of aluminum sulfate (mass percent relative to the oven dry pulp) is added into the pulp at the stirring speed of 500rpm, then the pH value of the pulp is adjusted to 7.5-8.5 by using 1 mol/L of sodium hydroxide solution, then the sizing agent (the amount is 1%, the mass percent relative to the total mass of the oven dry pulp) and the cationic polyacrylamide (the amount is 0.03% (mass percent relative to the oven dry pulp) are sequentially added, then the pulp is stirred for 2 minutes at the shearing speed of 500rpm by using a stirrer and is kept still for 30 seconds, and then a PTI paper sheet maker (model: RK3 AKWT) is used for making handsheets, the handsheets have the quantitative of 60 g/m²(T205 om-88, TAPPI), the sheet making system selects a Kaiser method manual sheet making mode to make sheets according to the ISO5289/2 and DIN54358 standards. The handsheets produced were dried at 105 ℃ and then the moisture of the paper was equilibrated at room temperature for 24h with an ambient humidity of 50%.

(2) Sizing degree measuring method

Sizing performance was evaluated by measuring the degree of sizing of paper made (GB/T5405-2002). Before measurement, the paper was cut into square pieces of 30X 30mm and allowed to stand at 25 ℃ under a 50% humidity environment to equilibrate the moisture for 24 hours. The paper is folded at four sides to form a boat-shaped structure with the bottom surface area of about 20 multiplied by 20mm, then the boat-shaped structure floats in ammonium thiocyanate dilute solution with the concentration of 2 percent, 0.5 mu L of ferric chloride solution with the mass concentration of 1 percent is dripped on the upper part of the boat-shaped paper by a rubber head dropper, and the timing is ended by a stopwatch when red spots appear in the middle of the ferric chloride solution, and the timing is the sizing degree of the paper sample. The front and back sides of the test sample were measured 10 times each and the average value was taken.

(3) Method for measuring average particle diameter of liquid drop

The diameters of 100 emulsion droplets observed under a microscope are counted by using particle size counting software carried by an optical microscope, and the average value is taken, namely the average particle size of the droplets.

TABLE 1 Properties of different sizing agents

According to the table 1, the average diameter of emulsion droplets of the anti-hydrolysis ASA sizing agent prepared by the invention is smaller, and the emulsion is not precipitated by any phase body or demulsified after being placed for 90 days, which shows that the stability of the emulsion is good; the paper sizing degree of the sized paper is 454-511 seconds, which shows that the sizing performance of the emulsion is good; the sizing degree of the sizing paper after the emulsion is placed for 90 days is 441-510 seconds, and the hydrolysis resistance of the emulsion is good.

Claims (7)

1. The preparation method of the hydrolysis-resistant alkenyl succinic anhydride sizing agent is characterized by comprising the following steps of:

(1) mixing the cellulose nanocrystalline water dispersion liquid with acetone, ammonium monohydrate and hexadecyl trimethyl siloxane, and performing ultrasonic dispersion to obtain a mixed liquid I; adding perfluorooctyl triethoxysilane into the mixed solution I, and performing ultrasonic dispersion to obtain a mixed solution II; drying the mixed solution II to obtain CNC-R powder;

(2) mixing CNC-R powder with perfluorohexane, performing ultrasonic dispersion, adding alkenyl succinic anhydride, mixing, and performing ultrasonic emulsification to obtain ASA-A emulsion;

(3) mixing the ASA-A emulsion with a sodium dodecyl sulfate aqueous solution, and performing ultrasonic emulsification to obtain the ASA-B emulsion, namely the hydrolysis-resistant alkenyl succinic anhydride sizing agent.

2. The method as claimed in claim 1, wherein the cellulose nanocrystals have a diameter of 3-10nm and a length of 100-500 nm;

the mass fraction of the cellulose nanocrystals in the mixed solution I is 0.05-2%, the mass fraction of the acetone is 0.1-1%, and the mass fraction of the ammonium monohydrate is 0.5-2%;

the dosage of the hexadecyl trimethyl siloxane is 2-30% of the mass of the cellulose nanocrystal; the dosage of the perfluorooctyl triethoxysilane is 5-20% of the mass of the cellulose nanocrystal.

3. The method according to claim 1, wherein the alkenyl succinic anhydride is at least one of alkenyl succinic anhydride monomers of dodecyl to octadecyl;

the mass ratio of the CNC-R powder to the perfluorooctane is 1: 20-100;

the mass ratio of the alkenyl succinic anhydride to the perfluorooctane is 1: 0.1-2.

4. The method according to claim 1, wherein the mass ratio of the ASA-A emulsion to the aqueous solution of sodium dodecyl sulfate is 1: 0.5-10;

the mass percentage of the sodium dodecyl sulfate aqueous solution is 0.1-2%.

5. The method as claimed in claim 1, wherein the power of the ultrasonic dispersion is 500-3000W.

6. An hydrolysis-resistant alkenyl succinic anhydride sizing agent obtained by the production method according to any one of claims 1 to 5.

7. Use of the hydrolysis-resistant alkenyl succinic anhydride sizing agent of claim 6 in the preparation of water-resistant paper.

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