CN1858309A - Titanium white for dry acrylic spinning delustering its preparing method - Google Patents

Abstract

The present invention discloses a kind of titanium white powder for extinction in dry spinning acrylic fiber and its preparation process. The titanium white powder is prepared with anatase type titanium white as material and through pulping, sanding milling, grading, purifying and other steps to eliminate coarse grains and impurity ions, coating with compact Al2O3 to obtain high weather resistance, water washing and coating with organic material. It has excellent dispersivity in spinning solution for dry spinning acrylic fiber and is used for extinction. It can result in excellent filtering performance and spinnability, low end breakage, high tow strength, high whiteness and high dyeability.

Description

A kind of titanium white for dry acrylic spinning delustering and preparation method thereof

Technical field

The invention belongs to the chemical fibre of titanium dioxide technical field, relate to a kind of titanium white for dry acrylic spinning delustering and preparation method thereof.

Background technology

Chemical fibre has high transparent and gloss, in the fiber production process, often adds a certain amount of titanium white, utilizes high scattering and the covering power of titanium white to light, makes fibre matting and obtains dyeability, opacity, outward appearance and feel etc. preferably.

Titanium dioxide, formal name used at school titanium dioxide (TiO ₂), be a kind of broad-spectrum Chinese white, rutile-type is arranged, anatase titanium dioxide and three kinds of crystal formations of plate titanium type.Chemical fibre delustring titanium white is called for short chemical fibre of titanium dioxide, generally all selects the lower anatase titanium dioxide of hardness for use.

Chemical fibre of titanium dioxide is the important fine chemical product of a class, and the production technology complexity requires high to product quality.Different chemical fibres is also different to the requirement of titanium white with different fiber manufacture process.Chemical fibre (synthetic fiber) principal item has terylene (polyester), acrylic fibers, polyamide fibre (nylon), polypropylene fibre (polypropylene), spandex (polyurethane), acetate fiber, viscose, polyvinyl chloride fibre, polyvinyl, aramid fiber etc.

The delustring titanium dioxide will add before polymerization sometimes, as terylene, polyamide fibre, need the harsh polymerization process of experience, in this process, to keep good dispersity, heat endurance and chemical inertness, polymerization result is not produced any side effect, sometimes then after polymerization, add, need very high light resistance sometimes, and can not reduce the intensity of fibre bundle.

The spinning slurry system has polymer body (melt spinning), the aqueous solution, organic solution, water/organic compound solution etc.Therefore chemical fibre of titanium dioxide must be the kind of specialization, seriation, to adapt to different fiber species and application scenario.

The chemical fibre delustring is to the requirement of titanium dioxide, see from application process and can be divided into three aspects, the one, in the stage of modulating of titanium white slurry and spinning slurry, leading indicator is the dispersiveness of titanium dioxide in system, comprise suspension (sedimentation) property, the coarse grain subnumber, filterability, storage stability reaches the suitability to milling apparatus and technology; The 2nd, in polymerization stage (polyester, nylon production), leading indicator is dispersed, and heat endurance and chemical inertness require titanium dioxide to keep good dispersion in whole polymerization process, itself do not change (as variable color), and polymerization process and polymerization result (product) are had no adverse effects; The 3rd, to spinning and tow Effect on Performance, leading indicator has spinning full-rolling rate (end breakage rate), to the degree of wear of spinning nozzle, and the whiteness of tow, gloss, form and aspect, intensity, dyeability, light resistance etc.Generally speaking, the main application performance of chemical fibre of titanium dioxide is whiteness and form and aspect, dispersion stabilization (with the compatibility of specific system), light, heat endurance and chemical stability.The factor that influences whiteness mainly contains the granular size and the distribution of titanium dioxide, and lattice is formed purity (impurity is formed and content), surface treatment; Influence dispersion stabilization, the factor of light, heat endurance and chemical stability mainly is the calcination processing (impurity) and the surface treatment of titanium dioxide, and the titanium dioxide surface characteristic comprises surface composition and structure, polarity, Acidity of Aikalinity, surface charge, amphipathic property, surface energy and blemish etc.

Acrylic fibers are the principal item of synthetic fiber, belong to and close one of fine five big synthetic fibres, dry acrylic fiber is to use solvent dimethylformamide preparation titanium white slurry, join again and carry out spinning in the dimethyl formamide solution of polyacrylonitrile, therefore require the delustring titanium dioxide in polyacrylonitrile/dimethyl formamide spinning solution, to have good dispersiveness.Acrylic fiber is mainly used in the manufacturing clothes, and light resistance is also had higher requirement.

Titanium dioxide has higher photolytic activity, absorb ultraviolet ray easily electron transition takes place, promote the oxidative degradation and the bad change of polymer, while titanium dioxide granularity very little (0.1-0.5 μ m), surface energy is very big, has higher surface polarity and hydrophilic oil extraction, reunites easily, be difficult for disperseing, therefore must handle titanium dioxide.

The titanium white modification comprises two aspects, the one, pre-treatment, in hydrolysis titanium liquid or metatitanic acid, add some metal such as calcium halophosphate activated by antimony andmanganese, zinc, aluminium, titanyl compound or phosphate, form with the lattice that changes titanium white through calcining, reduce lattice defect, suppress photochemical activity, this method is called impurity, focuses on the weatherability that improves titanium white; The 2nd, surface treatment, claim the surface to coat again or the face coat processing, the research of this respect is very active, is divided into inorganic coating, organic coating and inorganic/organic compound coating, by at the titanium dioxide surface grafting or adsorb some specific inorganic matters, organic matter or macromolecular compound are eliminated blemish, sealing photochemical activity point, change the powder surface characteristic, improve the weatherability of titanium dioxide, dispersed and other application performance.

Aspect inorganic coating, that relatively more commonly used is aluminium (Al ₂O ₃) coat and silicon (SiO ₂) coat; the purpose of inorganic coating is the diaphragm that coats one deck inertia on the titanium dioxide granule surface; make and set up barrier together between titanium dioxide surface and the surrounding medium; thereby reduce the photochemical activity of titanium dioxide, improve dispersiveness, light resistance, weatherability and the resistance to chalking of titanium dioxide.

Aspect organic coating, comprise many types, as various organic compounds, organosiloxane, titanate coupling agent, aluminate coupling agent, surfactant and organic high molecular polymer etc., the purpose of organic coating then mainly are the polarity that changes the titanium dioxide surface, Acidity of Aikalinity, surface charge, amphipathic property, surface energy makes titanium dioxide have good wetting and dispersive property in specific application system.

About titanium dioxide surface-treated patent and research property article have a lot, for example BP 1589070 has been described a kind of production method of weather resistant titanium dioxide, to the effect that in short man-hour, fine and close silicon and fine and close aluminium coating are carried out in the titanium dioxide surface, thereby enhance productivity and the weatherability and the durability of titanium dioxide.

United States Patent (USP) 2885366 has been described the method for carrying out the amorphous silicon coating on the titanium dioxide surface improving acid resistance, but process is very loaded down with trivial details and tediously long.

BP 1179171 has been described the industrial process of a kind of durability and the easy titanium dioxide that disperses, and coats the amorphous silica of one deck densification earlier, deposit one deck pellumina then, but this method is consuming time also very long.

United States Patent (USP) 3437502 has described that carry out fine and close silicon and aluminium oxide on the titanium dioxide surface composite coated to improve the covering power and the dispersiveness of titanium dioxide.

United States Patent (USP) 3928057 has been described and has been carried out porous silicon or aluminium coating on the titanium dioxide surface earlier, thereby carries out the method that fine and close silicon coating improves durability and covering power again.

United States Patent (USP) 4125412 has been described employing sodium metasilicate/hydrochloric acid or sulfuric acid and sodium metaaluminate/hydrochloric acid or sulfuric acid, and carry out aluminium silicon on the titanium dioxide surface composite coated to improve the method for durability.

Thereby United States Patent (USP) 4416699 has been described the method for carrying out fine and close aluminium and loose aluminium composite coated raising resistance to chalking and coating gloss on the titanium dioxide surface.

United States Patent (USP) 4061503 has been described with organosilicon titanium dioxide has been carried out surface treatment to improve the method for the suitability of titanium dioxide in coating and plastic applications.

United States Patent (USP) 6528568 has been described on the titanium dioxide surface and has been carried out fine and close silicon coating to improve the method for weatherability and covering power.

The content that above-mentioned patent relates to only is that inorganic coating or organic coated is carried out on the titanium dioxide surface, rather than inorganic/organic composite coated, prepared titanium dioxide also mainly is to be applied to coatings industry or plastics industry, rather than chemical fibre industry.

Chinese patent notification number CN1213659 has described superfine titanium white surface cladding tech and reactor thereof, adopts sial composite coated to improve the resistance to chalking and the weatherability of titanium dioxide.

Chinese patent (application is open) publication number CN1271746 has described a kind of process for treating surface and production method thereof of chemical fibre of titanium dioxide, adopts organic coated a kind of titanium dioxide that can be used for terylene, wet spinning acrylic fiber and viscose delustring that obtains.

Although have a large amount of patents and research article to relate to the surface treatment of titanium dioxide, but at the preparation method of chemical fibre delustring with titanium dioxide, but seldom be seen in patent, be particularly useful for titanium dioxide of dry acrylic fiber delustring and preparation method thereof, still find no patent report.

Summary of the invention

It is raw material that the present invention adopts anatase titanium dioxide, because the anatase titanium dioxide raw material generally all has more corase particles and foreign ion, and reunite easily, so earlier through processes such as making beating, sand milling and grading purifications removing corase particles and the foreign ion in the anatase titanium dioxide raw material, and then carry out fine and close Al ₂O ₃Coating obtains better weather, carries out the organic coated of special formulation after the washing, to obtain to have titanium dioxide good dispersion, that use as the delustring of dry acrylic fiber tow in polyacrylonitrile/dimethyl formamide (dry acrylic fiber) spinning solution.

An object of the present invention is to provide a kind of good dispersion in polyacrylonitrile/dimethyl formamide (dry acrylic fiber) spinning solution, be used as the titanium dioxide that the delustring of dry acrylic fiber tow is used.

Another object of the present invention provides the preparation method of the titanium dioxide that a kind of dry acrylic spinning delustering uses, and this method can make the titanium dioxide that obtains have good dispersiveness in polyacrylonitrile/dimethyl formamide (dry acrylic fiber) spinning solution.

Purpose of the present invention can be achieved through the following technical solutions.

The invention provides a kind of titanium dioxide of using as dry acrylic spinning delustering, it has the aluminium coating and that a titanium dioxide core and is coated on the described titanium dioxide core and is coated on the outer organic film of described aluminium coating.

The present invention also provides a kind of preparation method of the titanium dioxide of using as dry acrylic spinning delustering, and this method comprises following technological process:

Technological process: the making beating of raw material titanium dioxide is ground, and------the aluminium coating---is washed---organic coating---drying, is pulverized in the dilution classification.

Its main technique step is as follows:

1) purifying of anatase titanium dioxide powder raw material:

The anatase titanium dioxide powder raw material is spent ionized water making beating, grind then, be diluted to certain concentration, carry out grading, remove＞coarse granule and the mechanical admixture of 3 μ m with deionized water;

2) fine and close aluminium coating:

A) above-mentioned purified titanium dioxide slurry is joined reactor, add a kind of inorganic acid salt and a kind of alkali of aluminium at a certain temperature; Add back insulation ageing, the intact back of ageing is adjusted to 6.0～8.0 with acid or alkali with the pH value of slurry; Or carry out fine and close aluminium coating as follows:

B) above-mentioned purified titanium dioxide slurry is joined reactor, add a kind of meta-aluminate and a kind of acid at a certain temperature; Add back insulation ageing, the intact back of ageing is adjusted to 6.0～8.0 with acid or alkali with the pH value of slurry;

3) washing:

With deionized water the above-mentioned titanium dioxide slurry that obtains is washed, the titanium dioxide aqueous dispersions resistance value until 10% is at 2000～15000 Ω .cm;

4) organic coated:

Meet the requirements of the titanium dioxide slurry through washing and spend ionized water and adjust to certain concentration above-mentioned, add a kind of organic surface conditioning agent of or several mixing at a certain temperature, add the back and stir;

5) dry, pulverizing:

Titanium dioxide slurry drying after organic surface treatment, pulverizing get final product.

In a better example of the present invention, the anatase titanium dioxide powder raw material is spent the ionized water making beating to 200～800g/l, grind the back and be diluted to 100～500g/l with deionized water, adopt settling methods or centrifugal classifying to carry out grading.

In a better example of the present invention, when fine and close aluminium coating, throw in the inorganic acid salt of aluminium and the temperature of a kind of alkali or meta-aluminate and a kind of acid is 20～95 ℃ to reactor.Reasonable temperature is controlled between 50～85 ℃, and temperature preferably is controlled at 65～80 ℃.

In a better example of the present invention, when fine and close aluminium coating, when reactor is thrown in the inorganic acid salt of aluminium and a kind of alkali or meta-aluminate and a kind of acid, adopt the mode that drips to feed intake, reasonable is to adopt even dropping mode to feed intake, the whole dropping time was controlled at 0.5～12 hour, was preferably in 3～8 hours.

In the said method,, guarantee the compactness and the weatherability of fine and close aluminium coating by the control of temperature and time when feeding intake.

When fine and close aluminium coating, addition from meta-aluminate to reactor that throw in the inorganic acid salt of aluminium or is the 0.05wt～2.5wt% of titanium dioxide weight for the amount of the alundum (Al of its generation, preferably at 0.2wt～1.5wt%; And inorganic acid salt or the meta-aluminate equivalent that is respectively with added aluminium measured in alkali number or acid.

The inorganic acid salt of above-mentioned aluminium is mainly selected the inorganic acid salt of some water-soluble reasonable aluminium for use, as selects a kind of of aluminum sulfate or aluminum nitrate or aluminium chloride for use.

It is above-mentioned that cooperate the alkali of throwing in the inorganic acid salt of aluminium be select NaOH or potassium hydroxide or ammoniacal liquor for use a kind of better.

Above-mentioned meta-aluminate is mainly selected some water-soluble reasonable meta-aluminates for use, as selects sodium metaaluminate, potassium metaaluminate for use.

It is above-mentioned that cooperate the acid of throwing in meta-aluminate be select sulfuric acid or hydrochloric acid or nitric acid for use a kind of better.

In a better example of the present invention, the time of insulation ageing is 0.5～10 hour, and reasonable is 1～3 hour.

In a better example of the present invention, when regulating the pH value of slurry with a kind of acid or alkali after the ageing, a kind of of sulfuric acid or hydrochloric acid selected in acid for use, and alkali is selected a kind of of NaOH or potassium hydroxide for use.

In a better example of the present invention, when organic coated, will meet the requirements of the titanium dioxide slurry through washing and spend ionized water and adjust to concentration 100～800g/l.In this example, when adding organic surface conditioning agent, the temperature of titanium dioxide slurry is controlled at 10～70 ℃, and reasonable temperature is controlled between 20～50 ℃, and temperature preferably is controlled at 25～40 ℃.Organic surface conditioning agent addition is the 0.02wt～1.5wt% of titanium dioxide weight, preferably at 0.1wt～1.2wt%.It is 0.2～5 hour that organic surface conditioning agent adds the time of stirring the back.

Above-mentioned organic surface conditioning agent comprises hydroxy-containing compounds, organic acid and salt thereof, organic amine, organic ester, alkane, silane coupler, titanate coupling agent, aluminate coupling agent, surfactant, the high molecular polymer of hydroxyl or carboxyl and salt thereof.

Hydroxy-containing compounds comprises one or more in ethylene glycol, diglycol, triethylene-glycol, glycerine, trimethylolethane, trimethylolpropane, pentaerythrite, minashi sugar alcohol, lauric alcohol, the octadecanol.

That organic acid and salt thereof comprise is sad, in laurate, citric acid, P-hydroxybenzoic acid, undecenoic acid, stearic acid, oleic acid, palmitic acid and their salt one or more.

Organic amine comprises one or more in diethanol amine, triethanolamine, the dimethylethanolamine.

Organic ester comprises one or more in n-butyl phthalate, diisobutyl phthalate, diisooctyl phthalate, the n-butyl sebacate.

Alkane comprises one or more in 7# white oil, 15# white oil, the paraffin oil.

Silane coupler comprises one or more in vinyltrimethoxy silane, vinyltriethoxysilane, γ-methacryloxypropyl trimethoxy silane, two-[Y-(triethoxysilicane) propyl group] tetrasulfide, 3-glycidoxypropyltrime,hoxysilane, the gamma-amino propyl trimethoxy silicane.

Titanate coupling agent comprises one or more in three (dodecyl benzenesulfonyl) isopropyl titanate, hydramine two phosphorus acyloxy oxyacetate titanates, isopropyl tri(dioctylpyrophosphato)titanate, the three stearic ester group isopropyl titanates.

Aluminate coupling agent comprises one or more in aluminium isopropoxide, aluminium acetylacetonate, isopropoxy distearyl aluminium, the diisopropoxy stearoyl aluminium.

Surfactant comprises non-ionic surface active agent such as Nonyl pheno (10) ether, Nonyl pheno (15) ether, lauryl alcohol polyoxyethylene (10) ether, lauryl alcohol polyoxyethylene (20) ether, Tween20, Tween40, Span60, Span80; In anion surfactant such as lauryl sodium sulfate, neopelex, dodecyl polyoxyethylene (3) the sulfuric ester sodium salt one or more.

The high molecular polymer of hydroxyl or carboxyl and salt thereof comprise one or more in polyethylene glycol, polyvinyl alcohol, polymethylacrylic acid and sodium salt thereof, ammonium salt or sylvite, polyacrylic acid and sodium salt thereof, ammonium salt or sylvite, poly-maleic anhydride and sodium salt thereof or the sylvite.

When the present invention pulverizes with drying, can adopt baking oven, band drier, spray dryer or spin flash dryer etc. to carry out drying.Can adopt beater grinder or airslide disintegrating mill to pulverize.

Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Description of drawings

Fig. 1 is the structural representation of titanium dioxide of the present invention.

The specific embodiment

A kind of titanium dioxide of using as dry acrylic spinning delustering, it has a titanium dioxide core 1 and and is coated on aluminium coating 2 and on the described titanium dioxide core 1 and is coated on the outer organic film 3 of described aluminium coating 2.

In the titanium dioxide of using as dry acrylic spinning delustering of the present invention, carry out fine and close Al ₂O ₃Coating can obtain better weather, carries out the organic coated of special formulation after the washing, can be to obtain the good dispersion in polyacrylonitrile/dimethyl formamide (dry acrylic fiber) spinning solution.

The titanium dioxide of using as dry acrylic spinning delustering of the present invention adopts said method to make, and its technical process is simple, the relatively good control of technological parameter.

In preparation method of the present invention, the inorganic acid salt of the aluminium of employing and alkali or meta-aluminate and acid; As long as the inorganic acid salt of the aluminium of selecting and alkali or meta-aluminate and acid can be water-soluble, can not have a negative impact to the performance of anatase thpe white powder gets final product, and this is accomplished than being easier to for a person skilled in the art.

In preparation method of the present invention, pulverizing and dry technology are well known to those skilled in the art.Further specify the present invention by the following examples, but should be understood that these embodiment are exemplary, the present invention does not limit to this.

Embodiment 1:

In the 5L glass beaker, add deionized water 3500g, anatase titanium dioxide TiO ₂2500g disperseed 30 minutes with mechanical agitation making beating, again sand milling 2 hours in the sand mill that is filled with the zirconium oxide abrasive pearl, the gained slurry dilutes with the 5L deionized water, carry out classification of sedimentation in gravitational settler, remove the bottom and contain the coarse granule slurry, it is standby to get upper strata (90%) slurry.

In the 10L jacket reactor that is equipped with agitator, reflux condenser, high-order charging spout and temperature to show, add above-mentioned upper strata slurry 5L, be heated to 65 ℃.Simultaneously in reactor, at the uniform velocity drip 15% aluminum sulfate solution 335g and 10% sodium hydroxide solution 300g, added in 7 hours, insulation ageing 4 hours.Be cooled to below 35 ℃, the pH value of slurry be adjusted to 7.0 with 5% sulfuric acid solution and 5% sodium hydroxide solution.

With deionized water above-mentioned slurry is carried out cyclic washing, filtration, the titanium dioxide aqueous dispersions resistance value until 10% is 10000 Ω .cm.Then with deionized water with slurry pulping to 550g/l, be heated to 70 ℃, add 5g trimethylolethane, 0.2g Nonyl pheno (10) ether, 0.15g15# white oil, 1g gamma-amino propyl trimethoxy silicane successively, stirred 2 hours.Pulverize with airslide disintegrating mill the oven dry back in baking oven.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 40 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 60 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 2:

At 5m ³Add deionized water 3500L, anatase titanium dioxide TiO in the stainless steel cylindrical groove ₂2500kg disperseed 2 hours with mechanical agitation making beating, sand milling 3 hours in the sand mill that is filled with the zirconium oxide abrasive pearl again, gained slurry 5m ³Classification is carried out in the deionized water dilution in spiral centrifugal classifying, remove to contain coarse granule underflow material, and the grout of getting dispersion is standby.

At the 10m that is equipped with agitator, reflux condenser, high-order charging spout and temperature to show ³In the reactor, add above-mentioned classification slurry 7m ³, be heated to 95 ℃.Simultaneously in reactor, at the uniform velocity drip 10% sodium aluminate solution 470kg and 10% sulfuric acid solution 270kg, added in 5 hours, insulation ageing 2 hours.Be cooled to below 35 ℃, the pH value of slurry be adjusted to 6.0 with 5% sulfuric acid solution and 5% sodium hydroxide solution.

With deionized water above-mentioned slurry is carried out cyclic washing, filtration, the titanium dioxide aqueous dispersions resistance value until 10% is 8000 Ω .cm.Then with deionized water with slurry pulping to 500g/l, be heated to 40 ℃, add 2kg trimethylolpropane, 0.4kg diisooctyl phthalate, 3kg γ-methacryloxypropyl trimethoxy silane successively, stirred 2 hours.With pulverizing with beater grinder after the spray dryer drying.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 40 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 30 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 3:

Previous action is with embodiment 1.Organic agent is changed into: 2g pentaerythrite, 1g isopropyl tri(dioctylpyrophosphato)titanate, 0.3g diisobutyl phthalate, 5g sodium polymethacrylate.Stirred 1 hour down at 10 ℃, pulverize with airslide disintegrating mill the oven dry back in baking oven.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 50 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 80 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 4:

Previous action changes aluminium coating temperature into 95 ℃ with embodiment 1, and drip to add the time be 5 hours, digestion time is 30 minutes.Organic coated temperature is 50 ℃, and organic agent is: 2g lauryl alcohol polyoxyethylene (20) ether, 0.4g odium stearate, 0.3g paraffin oil.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 50 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 150 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 5:

Previous action changes aluminium coating temperature into 20 ℃ with embodiment 1.Organic agent is changed into: 2.7g trimethylolpropane, 0.8g diisopropoxy stearoyl aluminium, 0.2g dimethylethanolamine, 2g Sodium Polyacrylate.Stirred 1.5 hours down at 25 ℃, pulverize with airslide disintegrating mill the oven dry back in baking oven.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 50 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 50 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 6

Previous action is with embodiment 1.

In the 10L jacket reactor that is equipped with agitator, reflux condenser, high-order charging spout and temperature to show, add above-mentioned upper strata slurry 5L, be heated to 35 ℃.Simultaneously in reactor, at the uniform velocity drip 15% aluminum sulfate solution 20g and 10% sodium hydroxide solution 18g, added in 0.5 hour, insulation ageing 30 minutes.Be cooled to below 35 ℃, the pH value of slurry be adjusted to 6.5 with 5% sulfuric acid solution and 5% sodium hydroxide solution.

With deionized water above-mentioned slurry is carried out cyclic washing, filtration, the titanium dioxide aqueous dispersions resistance value until 10% is 15000 Ω .cm.Then with deionized water with slurry pulping to 350g/l, be heated to 30 ℃, add 5g trimethylolethane, 0.4g aluminium isopropoxide, 0.05g15# white oil, 0.8 TSL 8330 successively, stirred 3 hours.Pulverize with airslide disintegrating mill the oven dry back in baking oven.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 40 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 56 seconds.Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Embodiment 7

Previous action is with embodiment 2.

At the 10m that is equipped with agitator, reflux condenser, high-order charging spout and temperature to show ³In the reactor, add above-mentioned classification slurry 7m ³, be heated to 75 ℃.Simultaneously in reactor, at the uniform velocity drip 10% sodium aluminate solution 940kg and 10% sulfuric acid solution 540kg, added in 12 hours, insulation ageing 10 hours.Be cooled to below 35 ℃, the pH value of slurry be adjusted to 8.0 with 5% sulfuric acid solution and 5% sodium hydroxide solution.

With deionized water above-mentioned slurry is carried out cyclic washing, filtration, the titanium dioxide aqueous dispersions resistance value until 10% is 2000 Ω .cm.Then with deionized water with slurry pulping to 380g/l, be heated to 35 ℃, add 2kg pentaerythrite, 3kg vinyltriethoxysilane successively, stirred 3 hours.With pulverizing with beater grinder after the spray dryer drying.The gained titanium dioxide has good whiteness and light resistance, and its 10%DMF dispersion liquid is through sand milling after 40 minutes, with time of 9cm qualitative filter paper vacuum filtration 50ml be 80 seconds.

Be applied to the delustring of dry acrylic fiber system by the titanium dioxide of method for preparing, have good strainability and spinnability, end breakage rate is low, and gained tow intensity height, whiteness height, stainability are good.

Claims (37)

1, a kind of titanium dioxide of using as dry acrylic spinning delustering, it has the aluminium coating and that a titanium dioxide core and is coated on the described titanium dioxide core and is coated on the outer organic film of described aluminium coating.

2, a kind of preparation method who prepares the described titanium dioxide of using as dry acrylic spinning delustering of claim 1,---dilution classification---aluminium coatings---dry, the pulverizing of washing---organic coating---that this method comprises that following technological process is: the making beating of raw material titanium dioxide is ground.

3, preparation method as claimed in claim 2, the main technique step of this method is as follows:

1) purifying of anatase titanium dioxide powder raw material:

The anatase titanium dioxide powder raw material is spent ionized water making beating, grind then, be diluted to certain concentration, carry out grading, remove＞coarse granule and the mechanical admixture of 3 μ m with deionized water;

2) fine and close aluminium coating:

A) above-mentioned purified titanium dioxide slurry is joined reactor, add a kind of inorganic acid salt and a kind of alkali of aluminium at a certain temperature; Add back insulation ageing, the intact back of ageing is adjusted to 6.0～8.0 with acid or alkali with the pH value of slurry; Or carry out fine and close aluminium coating as follows:

B) above-mentioned purified titanium dioxide slurry is joined reactor, add a kind of meta-aluminate and a kind of acid at a certain temperature; Add back insulation ageing, the intact back of ageing is adjusted to 6.0～8.0 with acid or alkali with the pH value of slurry;

3) washing:

With deionized water the above-mentioned titanium dioxide slurry that obtains is washed, the titanium dioxide aqueous dispersions resistance value until 10% is at 2000～15000 Ω .cm;

4) organic coated:

Meet the requirements of the titanium dioxide slurry through washing and spend ionized water and adjust to certain concentration above-mentioned, add a kind of organic surface conditioning agent of or several mixing at a certain temperature, add the back and stir;

5) dry, pulverizing:

Titanium dioxide slurry drying after organic surface treatment, pulverizing get final product.

4, preparation method as claimed in claim 3 wherein spends the anatase titanium dioxide powder raw material ionized water making beating to 200～800g/l, grinds the back and is diluted to 100～500g/l with deionized water, adopts settling methods or centrifugal classifying to carry out grading.

5, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, throws in the inorganic acid salt of aluminium and the temperature of a kind of alkali or meta-aluminate and a kind of acid is 20～95 ℃ to reactor.

6, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, throws in the inorganic acid salt of aluminium and the temperature of a kind of alkali or meta-aluminate and a kind of acid is between 50～85 ℃ to reactor.

7, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, throws in the inorganic acid salt of aluminium and the temperature of a kind of alkali or meta-aluminate and a kind of acid is 65～80 ℃ to reactor.

8, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, when reactor is thrown in the inorganic acid salt of aluminium and a kind of alkali or meta-aluminate and a kind of acid, adopts even dropping mode to feed intake, and the whole dropping time was controlled at 0.5～12 hour.

9, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, when reactor is thrown in the inorganic acid salt of aluminium and a kind of alkali or meta-aluminate and a kind of acid, adopts even dropping mode to feed intake, and the whole dropping time was controlled at 3～8 hours.

10, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, addition from meta-aluminate to reactor that throw in the inorganic acid salt of aluminium or is the 0.05wt～2.5wt% of titanium dioxide weight for the amount of the alundum (Al of its generation, and alkali number or acid amount are respectively inorganic acid salt or the meta-aluminate equivalent with added aluminium.

11, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, addition from meta-aluminate to reactor that throw in the inorganic acid salt of aluminium or is the 0.2wt～1.5wt% of titanium dioxide weight for the amount of the alundum (Al of its generation; Alkali number or acid amount are respectively inorganic acid salt or the meta-aluminate equivalent with added aluminium.

12, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, inorganic acid salt from aluminium to reactor that throw in is a kind of of aluminum sulfate or aluminum nitrate or aluminium chloride.

13, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, throws in to reactor that to cooperate the alkali of input with the inorganic acid salt of aluminium be a kind of of NaOH or potassium hydroxide or ammoniacal liquor.

14, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, throwing in meta-aluminate to reactor is a kind of of sodium metaaluminate or potassium metaaluminate or meta-aluminate.

15, preparation method as claimed in claim 3 wherein when fine and close aluminium coating, throws in to reactor that to cooperate the acid of input with meta-aluminate be a kind of of sulfuric acid or hydrochloric acid or nitric acid.

16, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, the time of insulation ageing is 0.5～10 hour.

17, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, the time of insulation ageing is 1～3 hour.

18, preparation method as claimed in claim 3, wherein when fine and close aluminium coating, when regulating the pH value of slurry with a kind of acid or alkali after the ageing, a kind of of sulfuric acid or hydrochloric acid selected in acid for use, and alkali is selected a kind of of NaOH or potassium hydroxide for use.

20, preparation method as claimed in claim 3 wherein when organic coated, will meet the requirements of the titanium dioxide slurry through washing and spend ionized water and adjust to concentration 100～800g/l.

21, preparation method as claimed in claim 3, wherein in organic coated process, when adding organic surface conditioning agent, the temperature of titanium dioxide slurry is controlled at 10～70 ℃.

22, preparation method as claimed in claim 3, wherein in organic coated process, when adding organic surface conditioning agent, the temperature of titanium dioxide slurry is controlled at 20～50 ℃.

23, preparation method as claimed in claim 3, wherein in organic coated process, when adding organic surface conditioning agent, the temperature of titanium dioxide slurry is controlled at 25～40 ℃.

24, preparation method as claimed in claim 3, wherein in organic coated process, organic surface conditioning agent addition is the 0.02wt～1.5wt% of titanium dioxide weight.

25, preparation method as claimed in claim 3, wherein in organic coated process, organic surface conditioning agent addition is the 0.1wt～1.2wt% of titanium dioxide weight.

26, preparation method as claimed in claim 3, wherein in organic coated process, it is 0.2～5 hour that organic surface conditioning agent adds the time of stirring the back.

27, preparation method as claimed in claim 3, wherein in organic coated process, organic surface conditioning agent comprises hydroxy-containing compounds, organic acid and salt thereof, organic amine, organic ester, alkane, silane coupler, titanate coupling agent, aluminate coupling agent, surfactant, the high molecular polymer of hydroxyl or carboxyl and salt thereof.

28, preparation method as claimed in claim 27, wherein hydroxy-containing compounds comprises one or more in ethylene glycol, diglycol, triethylene-glycol, glycerine, trimethylolethane, trimethylolpropane, pentaerythrite, minashi sugar alcohol, lauric alcohol, the octadecanol.

29, preparation method as claimed in claim 27, wherein organic acid and salt thereof comprise one or more in sad, laurate, citric acid, P-hydroxybenzoic acid, undecenoic acid, stearic acid, oleic acid, palmitic acid and their salt.

30, preparation method as claimed in claim 27, wherein organic amine comprises one or more in diethanol amine, triethanolamine, the dimethylethanolamine.

31, preparation method as claimed in claim 27, wherein organic ester comprises one or more in n-butyl phthalate, diisobutyl phthalate, diisooctyl phthalate, the n-butyl sebacate.

32, preparation method as claimed in claim 27, wherein alkane comprises one or more in 7# white oil, 15# white oil, the paraffin oil.

33, preparation method as claimed in claim 27, wherein silane coupler comprises one or more in vinyltrimethoxy silane, vinyltriethoxysilane, γ-methacryloxypropyl trimethoxy silane, two-[Y-(triethoxysilicane) propyl group] tetrasulfide, 3-glycidoxypropyltrime,hoxysilane, the gamma-amino propyl trimethoxy silicane.

34, preparation method as claimed in claim 27, wherein titanate coupling agent comprises one or more in three (dodecyl benzenesulfonyl) isopropyl titanate, hydramine two phosphorus acyloxy oxyacetate titanates, isopropyl tri(dioctylpyrophosphato)titanate, the three stearic ester group isopropyl titanates.

35, preparation method as claimed in claim 27, wherein aluminate coupling agent comprises one or more in aluminium isopropoxide, aluminium acetylacetonate, isopropoxy distearyl aluminium, the diisopropoxy stearoyl aluminium.

36, preparation method as claimed in claim 27, wherein surfactant comprises non-ionic surface active agent such as Nonyl pheno (10) ether, Nonyl pheno (15) ether, lauryl alcohol polyoxyethylene (10) ether, lauryl alcohol polyoxyethylene (20) ether, Tween20, Tween40, Span60, Span80; In anion surfactant such as lauryl sodium sulfate, neopelex, dodecyl polyoxyethylene (3) the sulfuric ester sodium salt one or more.

37, preparation method as claimed in claim 27, wherein the high molecular polymer of hydroxyl or carboxyl and salt thereof comprise one or more in polyethylene glycol, polyvinyl alcohol, polymethylacrylic acid and sodium salt thereof, ammonium salt or sylvite, polyacrylic acid and sodium salt thereof, ammonium salt or sylvite, poly-maleic anhydride and sodium salt thereof or the sylvite.

38, preparation method as claimed in claim 3 when wherein pulverizing with drying, adopts baking oven, band drier, spray dryer or spin flash dryer etc. to carry out drying; Adopt beater grinder or airslide disintegrating mill to pulverize.

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