CN101748503B - Method for preparing chitin/acrylic composite fiber by using ionic liquid as solvent - Google Patents

Abstract

The invention discloses chitin/acrylic composite fiber with a skin-core structure and a manufacturing method thereof. Acrylic fiber spinning solution is used as a core layer, chitin or mixed spinning solution of chitin and acrylic fiber is used as a skin layer, the solution is extruded from a skin-core composite spinneret assembly, and composite fiber is obtained through spinning and forming, drafting and water washing; and ionic liquid is used as solvent for the preparation of composite fiber spinning solution, coagulating bath is formed by water or mixture of water and ionic liquid, and the concentration of ionic liquid in the coagulating bath is 0 to 60 percent. The composite fiber has the advantages that the biological functions are good because the chitin is used in the skin layer, the physical and mechanical performance is good because the acrylic fiber with good fiber forming property and draftability is used in the core layer and the production cost is low; and the composite fiber can be widely used as textile raw material for disposable or medical use, medical fiber, antibacterial fiber and the like.

Description

A kind of is the method that solvent prepares chitin/acrylic composite fiber with the ionic liquid

Technical field

The present invention relates to a kind of preparation method of chitin/acrylic composite fiber, particularly relating to a kind of is the preparation method of the chitin/acrylic composite fiber with skin-core structure of solvent with the ionic liquid.

Background technology

Polyacrylonitrile fibre is commonly called as acrylic fibers, be a kind of synthetic fiber, the dyeability of good warmth retention property, excellence is arranged and do not have moth erosion and mould sex change, can obtain than wool gay colours more after its dyeing, polyacrylonitrile fibre is widely used in makes the simulate wool goods, therefore polyacrylonitrile fibre is called artificial wool again, but polyacrylonitrile fibre also has a lot of shortcomings: hydrophily is poor, causes at easy static electrification of dry weather and human body compatibility relatively poor.Fiber itself does not have anti-microbial property simultaneously.

Chitin is a kind of linear polysaccharide class boiomacromolecule, extensively is present in the cell membrane of insects, aquatic crustacean shell and marine alga, and as crab, shrimp, squid bone, eggshell, cockroach, fungi etc., its reserves are only second to string.Deacetyl chitin claims chitosan again, have undersaturated cation group in the molecular structure, thereby it has powerful suction-operated to all kinds of harmful substances, the harmful bacteria that has negative electrical charge, it just can suppress the activity of harmful bacteria like this, it is lost activity, thereby reach antibiotic purpose.The structure that had both had the similar plants fiber has again to the human body ossein and organizes similar structure, with human body good compatibility is arranged, and can be decomposed by the lysozyme of human body to absorb, and the human body damaged cells is repaired and is activated, thereby good medical science characteristic is arranged.For simplicity, this paper is referred to as chitin fiber with chitin and chitosan fiber.

As previously mentioned, chitin fiber can be divided into two big classes, and a class is a chitin fiber, and raw material is a chitin; Another kind of is chitosan fiber, the deacetyl chitin that raw material is produced for the chitin alkaline hydrolysis, or claim shitosan.Fiber production generally will be through two steps, and the first step is that shrimp and crab shells is made chitin again through the watery hydrochloric acid decalcification behind the alkali deproteinization, if further processing promptly can be made into shitosan to chitin through alkali; Second step was with chitin or the certain dissolving of shitosan process, sprayed processes such as silk solidifies and promptly can be made into fiber.

Chitin fiber mainly contains following function: (1) enhancing immunity effect; (2) moisture retention; (3) promote the skin regeneration effect; (4) by the antibiotic enzyme of activating human body, lysozyme, enhance metabolism; (5) antienzyme effect; (6), suppress the bacterial reproduction effect; (7) deodorization; (8) prevent static.So chitin fiber can be made into the health textile of various bacteriostatic deodorizings.

Chitin solution can be spun into fiber, be used for to absorb fields such as operation suture thread and artificial skin, or be used for " drug application principle " health-care underclothes of " transdermal effect activating cell, enhance metabolism and enhancing immunity, antibiotic toxin expelling, Weight-reducing and lipid-lowering, delay senility " etc.But pure chitin fiber lacks the needed physical and mechanical properties of weaving back processing, and cost is very high, costs an arm and a leg, and popularization and application is restricted.Introduced method as the clear 60-59123 of day disclosure special permission communique: under stirring condition, shitosan is dissolved in the mixed liquor of 5% aqueous acetic acid and 1% urea, makes concentration after filtration after the deaeration and be 3.5%, viscosity is the spinning slurry of 1.52Pas by the Chitosan Preparation fiber.With the spinning head in aperture 0.14mm, 180 holes, spinning slurry is extruded in the room temperature coagulating bath, obtain chitin fiber through washing and drying, its TENSILE STRENGTH is between 0.6～1.5cN/dtex, and physical and mechanical properties is on the low side.

Application number is 200710043563.9, name is called that to disclose a kind of in the patent application of " preparation and the application that with the ionic liquid are the cellulose blending fibre of solvent " be the preparation and the application of the cellulose blending fibre of solvent with the ionic liquid, preparation comprises: (1) comminuted fibres element, chitin/shitosan and ionic liquid mix, dissolving is 1-80 hour under 25-160 ℃ of temperature, and forming total solid content is the stable homogeneous spinning solution of 3-40%; (2) filter, after the deaeration, enter in the coagulating bath through single hole or porous spinnerets and to solidify, spinning speed be 5-150 rice/minute; (3) behind plasticization drawing, again through wash, bleach, oil, drying, obtain the cellulose blending fibre goods.This method process energy consumption and operating cost are low, environmental protection, and the cellulose blending fibre of preparation has excellent mechanical intensity.

Chinese patent CN02100120.0, name is called and discloses a kind of chitosan and polyvinyl alcohol composite fiber and manufacture method thereof with skin-core structure in " chitosan and polyvinyl alcohol composite fiber and manufacture method thereof ", with the polyvinyl alcohol spin dope is sandwich layer, co-blended spinning stoste with chitosan or chitosan and polyvinyl alcohol is cortex, extrude from core-skin layer composite spinneret pack, through spinning moulding, obtain described composite fibre through drawing-off and washing process again.Superior fibre-forming performance and drawing-off performance by polyvinyl alcohol composition in the sandwich layer among the present invention make fiber obtain excellent physical and mechanical properties.

Application number is CN200810034673.3, name is called in the patent application of " a kind of polyacrylonitrile-chitin composite fiber and manufacture method thereof " provides a kind of polyacrylonitrile-chitin composite fiber and manufacture method thereof, this composite fibre is made up of chitin and polyacrylonitrile, chitin accounts for the 1-20% of composite fibre solid content, and acrylonitrile accounts for the 80-99% of fiber solid content; Its manufacture method comprises: (1) is dissolved in acrylonitrile in the solvent, is made into the polyacrylonitrile solution that content is 3-45%; (2) chitin is added in the polyacrylonitrile solution, addition is the 1-20% of polyacrylonitrile dry weight, is made into polyacrylonitrile, chitin spinning solution, standing and defoaming; (3) with spinning solution curing molding after the spinneret orifice ejection, make finished product in conventional operations such as stretched, washing, dryings.

In sum, though it is the preparation and the application of the cellulose blending fibre of solvent with the ionic liquid that prior art discloses, comprise chitin and cellulose in the described blended fiber, because chitin solubility in conventional solvent is less and the dissolving difficulty, and traditional dicyandiamide solution, all have volatility, these solvents jeopardize health of operators when environment is caused severe contamination.And, just because its dissolving in conventional solvent is bad, caused chitin fiber mechanical property not high defective simple in the prior art, make the spinnability and the woven performance of chitin fiber poor, need carry out blending improving its spinnability and stitchability with other fiber, so provide in the prior art that to adopt chitin and cellulose be that blended material prepares cellulose blending fibre to improve the intensity of fiber.But for intensity and the dyeability that improves composite fibre, prior art has also proposed the composite fibre of preparation chitin and polyvinyl alcohol skin-core structure, with the polyvinyl alcohol spin dope is sandwich layer, co-blended spinning stoste with chitosan or chitosan and polyvinyl alcohol is cortex, extrude from core-skin layer composite spinneret pack, through spinning moulding, obtain described composite fibre through drawing-off and washing process again.Superior fibre-forming performance and drawing-off performance by polyvinyl alcohol composition in the sandwich layer make fiber obtain excellent physical and mechanical properties.

But, prior art does not also disclose a kind of composite fibre for preparing chitin and acrylic fibers skin-core structure and preparation method thereof, though disclose polyacrylonitrile-chitin composite fiber, but this composite fibre is not a skin-core structure, and because chitin and polyacrylonitrile all have polar group, and chitin can only be dissolved in the partial solvent of polyacrylonitrile, therefore this composite fibre can only improve polypropylene fibre hydrophily, antistatic behaviour and with the affine antibiotic property of human body.And do not have the advantageous property of skin-core structure composite fibre, different as composition in composition and the sandwich layer in the skin-core structure composite fibre mediopellis, thereby make itself performance of composition performance in the cortex, composition in the sandwich layer is brought into play its original effect, and its overall performance of the compound back of core-skin layer can be greatly improved.

Summary of the invention

The purpose of this invention is to provide a kind of is the method that solvent prepares the chitin/acrylic fiber with the ionic liquid, when remedying present chitin and adopting solvent spinning, spinning solution is inhomogeneous, the cost height, the defective of fibre machinery poor performance, described composite fibre has skin-core structure, has excellent physical and mechanical properties and good dyeability, have the individual style and the multiple biological health medical functions of biogenic fiber simultaneously, reduced production cost simultaneously.

To achieve these goals, the technical solution used in the present invention is:

A kind of chitin and acrylic composite fiber, described chitin and acrylic composite fiber have the core-skin type composite construction, and its fracture strength is 2.8～4.5cN/dtex, and elongation at break is 15～25%, and fiber number is 1.67～3.33dtex.

In the core-skin type composite construction of the present invention, cortex is the mixture of chitin or chitin and acrylic fibers, and sandwich layer is acrylic fibers.

In the mixture of chitin of the present invention and acrylic fibers, the content of chitin is the 20-70% of described mixture total weight amount; The content of preferred described chitin is the 20-50% of described mixture total weight amount.

Another object of the present invention is to provide a kind of method for preparing chitin and acrylic composite fiber, and described manufacture method adopts existing skin-core structure composite fibre manufacture method, and technology is simple, is fit to large-scale production.

To achieve these goals, the technical solution used in the present invention is:

A kind of method for preparing described chitin and acrylic composite fiber is characterized in that, described method comprises:

1) chitin is pulverized, obtained the superfine powder of chitin; Add ionic liquid then and make its dissolving in the superfine powder of chitin, obtaining mass percent concentration is the chitin solution of 3-25%;

2) utilize ionic liquid to dissolve acrylic fibers, obtaining mass percent concentration is the acrylic fibers solution of 3-25%;

3) the chitin solution and the step 2 that step 1) are obtained) obtain acrylic solution and mix, obtain the mixed solution of chitin and acrylic fibers, wherein the mass ratio of chitin and acrylic fibers is 1: 9～7: 3 in the mixed solution;

4) with step 2) described acrylic fibers solution is as being sandwich layer, by the sandwich layer measuring pump; With the mixed solution of the described chitin solution of step 1) or described chitin of step 3) and acrylic fibers as cortex, by the cortex measuring pump; Enter core-skin type composite spinneret pack ejection back curing molding then, stretched again, washing, curl, typing, drying steps make described composite fibre, obtains described chitin and acrylic composite fiber.

Ionic liquid of the present invention is made up of CATION and anion; Wherein said CATION is:

The alkyl imidazole ion

Wherein: R ₁, R ₂, R ₃, R ₄And R ₅Identical or different, be H, C ₁～C ₈Alkyl, vinyl, propenyl, cyclobutenyl, ethoxy, hydroxypropyl in one or several;

Described anion is Cl ^-, Br ^-, CH ₃COO ^-In a kind of.

THE MOLECULAR WEIGHT OF CHITIN of the present invention is 15-50 ten thousand, and deacetylation is 0-95%.

Dissolving of the present invention is included under 50～150 ℃ of temperature dissolved 1～50 hour, formed concentration and be the solution of 3～25% stable homogeneous.

Cortex inlet measuring pump conveying capacity of the present invention is 1/9～8/2 with the ratio of sandwich layer inlet measuring pump conveying capacity.

Curing molding of the present invention comprises through wet spinning or dry-wet spinning moulding.

Draw ratio of the present invention is 3～20 times.

Specifically, the described method for preparing chitin and acrylic composite fiber of the present invention comprises:

1) chitin is pulverized, obtained the superfine powder of chitin; Add ionic liquid then and make its dissolving in the superfine powder of chitin, obtaining mass percent concentration is the chitin solution of 3-25%;

At first chitin is pulverized, adopted the special-purpose pulverizer of chitin during pulverizing, make the particle size range of pulverizing the resulting chitin in back at the 100-800 order.Why needing chitin is crushed to the 100-800 order, is in order to make the chitin after pulverizing can better be dissolved in the ionic liquid, for the skin-core structure composite fibre of preparation good mechanical performance is prepared.Molecular weight 15～500,000 just, deacetylation are that 0～95% chitin evenly mixes with ionic liquid, dissolve 1～50 hour under 50～150 ℃ of temperature, form the spinning solution of stable homogeneous, and the concentration of spinning solution is 3～25%.In these preferred 80～120 ℃ of dissolvings 10～30 hours, spinning solution concentration preferred 10～20%.

Described ionic liquid is made up of CATION and anion;

Described CATION is:

The alkyl imidazole ion

Wherein: R ₁, R ₂, R ₃, R ₄And R ₅Identical or different, be H, C ₁～C ₈Alkyl, vinyl, propenyl, cyclobutenyl, ethoxy, hydroxypropyl in one or several;

Described anion is Cl ^-, Br ^-, CH ₃COO ^-In a kind of.

2) utilize ionic liquid to dissolve acrylic fibers, obtaining mass percent concentration is the acrylic fibers solution of 3-25%;

The acrylic fibers of molecular weight 5～300,000 are evenly mixed with ionic liquid dissolve, dissolved 1～50 hour under 50～150 ℃ of temperature, forming concentration is 3～25%, the spinning solution of stable homogeneous;

3) the chitin solution and the step 2 that step 1) are obtained) obtain acrylic solution and mix, obtain the mixed solution of chitin and acrylic fibers, wherein the mass ratio of chitin and acrylic fibers is 1: 9～7: 3 in the mixed solution;

When above-mentioned two kinds of solution are mixed, can stir in the time of necessary, the speed of stirring is 10～100rpm, and mixing time is 10-30 minute, the mixed solution that obtains like this can fully mix, and gets ready for preparing high performance skin-core structure composite fibre.

4) with step 2) described acrylic fibers solution is as being sandwich layer, by the sandwich layer measuring pump; With the mixed solution of the described chitin solution of step 1) or described chitin of step 3) and acrylic fibers as cortex, by the cortex measuring pump; Enter core-skin type composite spinneret pack ejection back curing molding then, make described composite fibre through 3～20 times of stretching, washing, curling, typing, drying steps again, obtain described chitin and acrylic composite fiber.

Chitin solution is delivered to cortex inlet measuring pump through prefilter, or gained chitin and acrylic spinning stoste evenly mixed the co-blended spinning stoste that obtains and enter cortex inlet measuring pump through prefilter, acrylic fibers solution enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 1/9～8/2.After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.As optimized technical scheme, in the described cortex, the content of chitin is 25～65wt%; In the described chitin/acrylic composite fiber, the content of chitin is 2.5～52wt% of fiber total amount.

Curing molding method of the present invention comprises wet spinning or dry-wet spinning.

Described wet spinning comprises: enter through the composite spinning stoste that skin-core composite spinneret is extruded and contain curing molding in 0～60% the ion liquid coagulating bath, drawn, washing again, curl, make chitin/acrylic composite fiber after the typing, drying.

Described dry-wet spinning comprises: the composite spinning stoste of extruding through skin-core composite spinneret, after the air gap layer cooling curing stretching through 1～25cm, enter again to contain in 0～60% the ion liquid coagulating bath and further improve fibre structure, then through after the road stretch, washing, curl, make chitin/acrylic composite fiber after the drying.

Chitin of the present invention and acrylic composite fiber are owing to the chitin composition in the cortex has good biological function and dyeability; Has lower production cost owing to chitin content content in total fiber is lower; Owing to the good fibre forming property of acrylic fibers in the sandwich layer makes fiber have good physical and mechanical properties.Described composite fibre can be used as the textile raw material of medical application.

In addition, chitin of the present invention and acrylic composite fiber, has skin-core structure, its cortex is chitin or chitin and the mixing of acrylic fibers, because chitin is the found up to now unique positively charged natural polymer of occurring in nature, have undersaturated cation group in the molecular structure, thereby it has powerful suction-operated to all kinds of harmful substances, the harmful bacteria that has negative electrical charge, it just can suppress the activity of harmful bacteria like this, it is lost activity, thereby reach antibiotic purpose.And described chitin and acrylic composite fiber have good dyeability and mechanical strength, is a kind of skin-core structure fiber of high-quality.

Beneficial effect of the present invention is:

1) ionic liquid of Cai Yonging all has good solubility property to chitin and acrylic fibers, and ionic liquid is nontoxic, non-volatile simultaneously, can avoid environment is polluted and operating personnel's health is damaged.

2) ionic liquid can effectively reclaim, and reduces production costs, and economizes on resources.

3) skin-core structure makes described composite fibre have good biological property and physical and mechanical properties simultaneously, reduces cost.

Description of drawings

Fig. 1 is the process chart that solvent prepares chitin/acrylic composite fiber with the ionic liquid for the present invention.

The specific embodiment

The present invention is further elaborated in conjunction with specific embodiments.

Embodiment 1

Chitin is evenly mixed with ionic liquid, and dissolving is 50 hours under 50 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 9%.Acrylic fibers are evenly mixed with ionic liquid, and dissolving is 50 hours under 50 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 15%.The chitin spinning solution is delivered to cortex inlet measuring pump through prefilter, and acrylic spinning stoste enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 3/7;

After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.Coagulating bath is [PMIN] Cl-(Chinese is chlorination 1-propyl group-3-methylimidazole salt) aqueous solution, and coagulating bath intermediate ion strength of fluid is 10%, and temperature is 25 ℃.Chitin content is the 20wt% of fiber total content, and fibre number is that 3.33dtex, intensity are 3.8cN/dtex.

Embodiment 2

Chitin is evenly mixed with ionic liquid, and dissolving is 1 hour under 150 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 7%.Acrylic fibers are evenly mixed with ionic liquid, and dissolving is 1 hour under 150 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 15%.The chitin spinning solution is delivered to cortex inlet measuring pump through prefilter, and acrylic spinning stoste enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 3/7;

After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.Coagulating bath is [EMIN] Ac-(Chinese is acetic acid 1-ethyl-3-methylimidazole salt) aqueous solution, and coagulating bath intermediate ion strength of fluid is 10%, and temperature is 20 ℃.Chitin content is the 17.5wt% of fiber total content, and fibre number is that 1.67dtex, intensity are 4.5cN/dtex.

Embodiment 3

Chitin is evenly mixed with ionic liquid, and dissolving is 5 hours under 100 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 15%.Acrylic fibers are evenly mixed with ionic liquid, and dissolving is 3 hours under 100 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 15%.The chitin spinning solution is delivered to cortex inlet measuring pump through prefilter, and acrylic spinning stoste enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 5/5;

After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.Coagulating bath is [PMIN] Cl-(Chinese is chlorination 1-propyl group-3-methylimidazole salt) aqueous solution, and coagulating bath intermediate ion strength of fluid is 5%, and temperature is 25 ℃.Chitin content is the 50wt% of fiber total content, and fibre number is that 3.33dtex, intensity are 2.8cN/dtex.

Embodiment 4

Chitin is evenly mixed with ionic liquid, and dissolving is 6.5 hours under 80 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 20%.Acrylic fibers are evenly mixed with ionic liquid, and dissolving is 3 hours under 80 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 15%.The chitin spinning solution is delivered to cortex inlet measuring pump through prefilter, and acrylic spinning stoste enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 2/8;

After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.Coagulating bath is [EMIN] Ac-(Chinese is acetic acid 1-ethyl-3-methylimidazole salt) aqueous solution, and coagulating bath intermediate ion strength of fluid is 10%, and temperature is 25 ℃.Chitin content is the 25wt% of fiber total content, and fibre number is that 2.5dtex, intensity are 3.2cN/dtex.

Embodiment 5

Chitin is evenly mixed with ionic liquid, and dissolving is 6.5 hours under 80 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 10%.Acrylic fibers are evenly mixed with ionic liquid, and dissolving is 3 hours under 80 ℃ of temperature, and through the spinning solution of deaeration formation stable homogeneous, the concentration of spinning solution is 20%.The chitin spinning solution is extruded the back be delivered to static mixer in dissolution kettle by booster pump, evenly mix with direct pump to the acrylic spinning stoste of static mixer, chitin/acrylic stoste conveying capacity ratio is 5/5, enter cortex inlet measuring pump through prefilter, acrylic spinning stoste enters the sandwich layer measuring pump through prefilter.The ratio of cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 4/6;

After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.Coagulating bath is [EMIN] Ac-(Chinese is acetic acid 1-ethyl-3-methylimidazole salt) aqueous solution, and coagulating bath intermediate ion strength of fluid is 10%, and temperature is 25 ℃.Chitin content is the 15wt% of fiber total content, and fibre number is that 3.33dtex, intensity are 3.5cN/dtex.

Embodiment 6

(1) chitin is pulverized, obtained the superfine powder of chitin; In the superfine powder of chitin, add ionic liquid then and make its dissolving, obtain mass percent concentration and be 3% chitin solution;

At first chitin is pulverized, adopted the special-purpose pulverizer of chitin during pulverizing, make the particle size range of pulverizing the resulting chitin in back at 100 orders.Why needing chitin is crushed to 100 orders, is in order to make the chitin after pulverizing can better be dissolved in the ionic liquid, for the skin-core structure composite fibre of preparation good mechanical performance is prepared.With molecular weight 150,000, deacetylation is that 0～5 chitin evenly mixes with ionic liquid, and dissolving is 10 hours under 50 ℃ of temperature, forms the spinning solution of stable homogeneous, and the concentration of spinning solution is 3%.

Described ionic liquid is made up of CATION and anion;

Described CATION is:

The alkyl imidazole ion

Wherein: R ₁, R ₂, R ₃, R ₄And R ₅Identical, be vinyl;

Described anion is CH ₃COO ^-

(2) utilize ionic liquid to dissolve acrylic fibers, obtain mass percent concentration and be 3% acrylic fibers solution;

The acrylic fibers of molecular weight 50,000 are evenly mixed with ionic liquid dissolve, dissolving is 1 hour under 50 ℃ of temperature, forms concentration and be 3%, the spinning solution of stable homogeneous;

(3) the chitin solution and the step 2 that step 1) are obtained) obtain acrylic solution and mix, obtain the mixed solution of chitin and acrylic fibers, wherein the conveying capacity ratio of chitin and acrylic fibers is 1: 9 in the mixed solution;

When above-mentioned two kinds of solution are mixed, can stir in the time of necessary, the speed of stirring is 10rpm, and mixing time is 10 minutes, and the mixed solution that obtains like this can fully mix, and gets ready for preparing high performance skin-core structure composite fibre.

4) with step 2) described acrylic fibers solution is as being sandwich layer, by the sandwich layer measuring pump; With the described chitin solution of step 1) as cortex, by the cortex measuring pump; Enter core-skin type composite spinneret pack ejection back curing molding then, make described composite fibre through 10 times of stretching, washing, curling, typing, drying steps again, obtain described chitin and acrylic composite fiber.

Chitin solution is delivered to cortex inlet measuring pump through prefilter, or gained chitin and acrylic spinning stoste evenly mixed the co-blended spinning stoste that obtains and enter cortex inlet measuring pump through prefilter, acrylic fibers solution enters the sandwich layer measuring pump through prefilter.Cortex inlet measuring pump conveying capacity/sandwich layer inlet measuring pump conveying capacity is 1/9.After stretching, spinning moulding obtains the core-skin type chitin/acrylic composite fiber through the compound stoste that the core-skin composite spinneret is extruded.

The fracture strength of the fiber that obtains is 2.8cN/dtex, and elongation at break is 12%, and fiber number is 1.67dtex.

Below be embodiments of the invention 7-11:

The ionic liquid of embodiment 7-11 is made up of CATION and anion, wherein cationic structure as shown in the formula, substituting group and anion structure are as shown in table 1, concrete operations are with embodiment 6, related parameter of per step is as shown in table 1:

The alkyl imidazole ion

Table 1

Claims (10)

1. a chitin and acrylic fiber composite fiber, it is characterized in that, described chitin and acrylic fiber composite fiber have sheath-core composite structure, and its breaking strength is 2.8～4.5cN/dtex, and breaking elongation is 15～25% , the fineness is 1.67-3.33dtex; in the skin-core composite structure, the skin layer is chitin or a mixture of chitin and acrylic fiber, and the core layer is acrylic fiber. 2. The composite fiber of chitin and acrylic fiber according to claim 1, characterized in that, in the mixture of chitin and acrylic fiber, the content of chitin is 20-70% of the total weight of the mixture. 3. The composite fiber of chitin and acrylic fiber according to claim 2, characterized in that, in the mixture of chitin and acrylic fiber, the content of chitin is 20-50% of the total weight of the mixture. 4. a method for preparing chitin and acrylic fiber composite fiber described in any one of claims 1-3, is characterized in that, described method comprises: 1) Pulverizing chitin to obtain ultrafine powder of chitin; then adding ionic liquid to the ultrafine powder of chitin to dissolve it to obtain a chitin solution with a concentration of 3-25% by mass; 2) dissolving the acrylic fiber with an ionic liquid to obtain an acrylic fiber solution with a mass percent concentration of 3-25%; 3) mixing the chitin solution obtained in step 1) with the acrylic fiber solution obtained in step 2) to obtain a mixed solution of chitin and acrylic fiber, wherein the mass ratio of chitin and acrylic fiber in the mixed solution is 1:9 to 7:3; 4) using the acrylic fiber solution described in step 2) as the core layer, passing through the core layer metering pump; using the chitin solution described in step 1) or the mixed solution of chitin and acrylic fiber described in step 3) as the cortex, passing through Cortex metering pump; then enter the sheath-core type composite spinneret assembly to be sprayed out and then solidified and formed, and then the composite fiber is obtained through the steps of stretching, washing, crimping, shaping and drying to obtain the chitin and acrylic composite fiber . 5. method according to claim 4, is characterized in that, described ionic liquid is made up of cation and anion; Wherein said cation is:

Alkyl imidazolium ion Among them: R ₁ , R ₂ , R ₃ , R ₄ and R ₅ are the same or different, and are H, C ₁ to C ₈ alkyl, vinyl, propenyl, butenyl, hydroxyethyl, hydroxypropyl one or more of The anion is one of Cl ^- , Br ^- , CH ₃ COO ^- . 6. The method according to claim 4 or 5, characterized in that the chitin has a molecular weight of 150,000-500,000 and a deacetylation degree of 0-95%. 7. The method according to claim 4, wherein said dissolving comprises dissolving at a temperature of 50-150° C. for 1-50 hours to form a uniform and stable solution with a concentration of 3-25%. 8 . The method according to claim 4 , wherein the ratio of the delivery volume of the cortical inlet metering pump to the delivery volume of the core layer inlet metering pump is 1/9˜8/2. 9. The method according to claim 4, characterized in that said solidification and molding comprises wet spinning or dry-wet spinning molding. 10. The method according to claim 4, characterized in that, the stretching ratio is 3-20 times.