CN100434485C - Process for preparing titanium dioxide with dispersion sensitive property and high weatherability - Google Patents
Process for preparing titanium dioxide with dispersion sensitive property and high weatherability Download PDFInfo
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- CN100434485C CN100434485C CNB2006100397473A CN200610039747A CN100434485C CN 100434485 C CN100434485 C CN 100434485C CN B2006100397473 A CNB2006100397473 A CN B2006100397473A CN 200610039747 A CN200610039747 A CN 200610039747A CN 100434485 C CN100434485 C CN 100434485C
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Abstract
The present invention relates to a method for preparing titanium dioxide with easy dispersion and high weatherability. 0.1% to 0.5% of sodium hexametaphosphate and 0.1% to 0.3% of isopropanolamine or triethanolmine are used as a dispersing agent to disperse titanium dioxide slurry, and NaOH solution is used for regulating a pH value of 10 to 11. Sodium silicate solution and diluted sulfuric acid are added to coat the SiO2 at 91 to 95 DEG C, wherein the adding amount of sodium silicate, which is metered by the SiO2, is from 1 to 6%. The pH value is regulated to be from 6.5 to 8.5, and aluminium sulfate solution and NaOH solution are added. The adding amount of aluminium sulfate, which is metered by Al2O3, is from 2.0 to 3.5%. The mixture is slaked for 10 minutes, and the Al2O3 is coated. The product is washed by water and dried, and a certain quantity of organosilicon treated agent is added to be pulverized by vapor streams to obtain the titanium dioxide with high dispersion and high weatherability. The present invention has the advantages that the dispersion of the slurry before surface treatment can be effectively ensured, and inorganic surface treatment is used for coating the surface of the single particle of the titanium dioxide. In addition, the purpose of simultaneously improving the weatherability and the dispersivity of the titanium dioxide is achieved.
Description
Technical field
The present invention relates to the preparation method of a kind of easy dispersion and high weathering resistance titanium dioxide, refer in particular to titanium dioxide surface is carried out the sial coating, use simultaneously organic matter to process preparation has good dispersed and high weathering resistance titanium dioxide in organic media method.
Background technology
Titanium dioxide is a kind of white pigment of performance brilliance, can be widely used in fields such as coating, plastics, papermaking, printing ink, catalyzer and the cosmetics of super quality.But titanium dioxide has very strong photochemical activity, very easily cause organic medium molecule generation scission of link and degraded in the application system, thereby produce phenomenons such as efflorescence, loss of gloss, variable color, in addition, titanium dioxide itself is hydrophilic, and its degree of scatter in organic medium is also depended in giving full play to of its pigment performance.
Surface treatment can change the surface property of titanium dioxide, thereby improve the compatibility of itself and base material, improve dispersedly, cover simultaneously the photoactivation point of titanium dioxide surface, stop titanium dioxide organic matter direct and in the decentralized medium to contact, to improve its weatherability.Common sial compound coating method is to add about 0.2% calgon (based on TiO in tio_2 suspension
2Calculate), slurry is warming up to 75~90 ℃ then, later whole process keeps in this temperature, add then sodium silicate solution, insulation, slaking 15~20min, then for the second time fast with sulphur acid for adjusting pH to 2.9~3.2, add rapidly sodium aluminate, when pH rises to 5.5~6.5, sodium aluminate and acid add simultaneously, keep this pH value, in order to allow the hydrated alumina precipitating on the silica of compactness, last transfer to alkali lye again filter after neutral, washing, dry, the air-flow crushing titanium dioxide product after obtaining coating.Because the SiO of product surface
2The difficult control of the compactness extent of clad, and because the slurry that the variation of pH value causes in the surface treatment process disperses and the change of coagulation, the phenomenon that the titanium dioxide granule aggregation coats can take place, thereafter steam flow is pulverized will make the aggregation fragmentation, and cause thus that particle surface coats imperfect also affects weatherability and the dispersiveness of product.
Summary of the invention
The objective of the invention is to propose the preparation method of a kind of easy dispersion and high weathering resistance titanium dioxide, adopt a certain proportion of calgon and amine surfactant that titania slurry is disperseed, and under certain temperature and pH condition, distinguish coated Si O
2And Al
2O
3, washing, dry rear a certain amount of organosilicon drilling additives that adds carry out the steam flow pulverizing and obtain having excellent weather resistance and dispersed titanium dioxide.
The technical scheme that realizes above-mentioned purpose is:
Use not surface treated sulfuric acid process rutile titanium dioxide, add deionized water and make concentration and be about slurry about 700g/l, add 0.1%~0.5% Sodium hexametaphosphate 99,0.1%~0.3% Yi Bingchunan or trolamine and make dispersion agent, high speed dispersion.Again scattered slurry is added deionized water and be diluted to 200~300g/l, get slurry, be warmed up to 91~95 ℃, regulate pH 10~11 with NaOH solution, slowly add sodium silicate solution and dilute sulphuric acid under this pH condition, the dosage of water glass is with SiO
2Meter 1%-6% is (based on TiO
2Calculate), in pH10~11 slakings.The cooling slurry is adjusted into 2.5~3.0 with dilute sulfuric acid with pH to 60~75 ℃ of temperature, keeps this pH value 5~10 minutes, adds NaOH solution the pH value is adjusted to 6.5~8.5, slowly adds aluminum sulfate solution and NaOH solution, and the dosage of aluminum sulfate is with Al
2O
3Meter 2.0%~3.5% is (based on TiO
2Calculate), slaking.Adding NaOH solution adjusting terminal point pH is 6.5~7.5.Wash then, drying, steam flow adds the silicone oil and the silane coupling agent of 0.2~1.0% organo-functional group modification when pulverizing, make required titanium dioxide product.
Wherein preferable technical scheme is the slurry that adopts about aforesaid 700g/l, and adding 0.2%~0.3% Sodium hexametaphosphate 99,0.1%~0.2% Yi Bingchunan are made dispersion agent, high speed dispersion.Again scattered slurry is added deionized water and be diluted to 200~300g/l, get slurry, be warmed up to 91~95 ℃, regulate pH10~11 with NaOH solution, slowly add sodium silicate solution and dilute sulphuric acid under this pH condition, the dosage of water glass is with SiO
2Meter 1%~3% is (based on TiO
2Calculate), in pH10~11 slakings.The cooling slurry is adjusted into 2.5 with dilute sulfuric acid with pH to 60~65 ℃ of temperature, keeps this pH value 5~10 minutes, adds NaOH solution the pH value is adjusted to 6.5~8.5, slowly adds aluminum sulfate solution and NaOH solution, and the dosage of aluminum sulfate is with Al
2O
3Meter 2.0%~3.5% is (based on TiO
2Calculate), slaking.Adding NaOH solution adjusting terminal point pH is 6.5~7.5.Wash then, drying, steam flow adds the silicone oil and the silane coupling agent of 0.2~0.5% organo-functional group modification when pulverizing, make required titanium dioxide product.
The silicone oil of wherein said organo-functional group modification is long chain alkyl modified silicon oil, hydroxyl modification silicone oil, epoxy group(ing) modified silicon oil, amino-modified silicone oil or containing hydrogen silicone oil; Silane coupling agent is vinyltrimethoxy silane or vinyltriethoxysilane.
The invention has the advantages that the dispersion that can effectively guarantee the front slurry of surface treatment, realize the inorganic surfaces processing in the coating on titanium dioxide individual particle surface, and reach the purpose of improving simultaneously titanium dioxide weatherability and dispersiveness.
Description of drawings
Fig. 1: the TEM photo of example 1 product
Fig. 2: the TEM photo of example 2 products
Fig. 3: the TEM photo of example 3 products
Fig. 4: the TEM photo of example 4 products
Fig. 5: the TEM photo of example 5 products
Fig. 6: the TEM photo of example 6 products
Fig. 7: the TEM photo of example 7 products
Fig. 8: the TEM photo of example 8 products
Fig. 9: the TEM photo of example 9 products
Figure 10: the TEM photo of example 10 products
Embodiment
Example 1
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 28ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.2%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 0.74ml isopropanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on the high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 300g/l, get 1000ml wherein, slurry is warmed up to 91 ℃, adding NaOH solution adjustment pH value is 10, and in 40 minutes, (concentration of sodium metasilicate is with SiO to add the 60ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 1%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 2.5, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 6.5, (aluminum sulfate concentration is with Al to add simultaneously the 105ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.5%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Adding NaOH solution adjusting terminal point pH is 7.0.Wash then, dry, add 0.2% long chain alkyl modified silicone oil when steam flow is pulverized, make required titanium dioxide product.
Example 2
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 14ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.1%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 1.48ml isopropanolamine
2Meter 0.2%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 200g/l, get 1000ml wherein, slurry is warmed up to 92 ℃, slurry pH value is adjusted to 11, in 50 minutes, (concentration of sodium metasilicate is that dosage is with TiO in SiO2 50g/l to add the 40ml sodium metasilicate
2The meter 1%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to 65 ℃ of temperature, with dilute sulfuric acid pH is adjusted into 3.0, kept this pH value 10 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 8.0, (aluminum sulfate concentration is with Al to add simultaneously the 70ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 2.0%) and NaOH solution, slaking 10 minutes.Adding dilution heat of sulfuric acid adjusting terminal point PH is 6.5.Wash then, dry, steam flow adds 0.3% epoxy group(ing) modified silicon oil and vinyltrimethoxy silane when pulverizing compound, make required titanium dioxide product.
Example 3
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 28ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.2%), (content 80%, density: 1.140g/ml, dosage are with TiO to the 0.77ml triethanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 250g/l, get 1000ml wherein, slurry is warmed up to 92 ℃, adding NaOH solution adjustment pH value is 10, and in 40 minutes, (concentration of sodium metasilicate is with SiO to add the 50ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 1%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 2.5, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 6.5, (aluminum sulfate concentration is with Al to add simultaneously the 105ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.5%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Adding NaOH solution adjusting terminal point pH is 7.5.Wash then, dry, steam flow adds 0.5% hydroxyl modification silicone oil and vinyltrimethoxy silane when pulverizing compound, make required titanium dioxide product.
Example 4
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 42ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.3%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 0.74ml isopropanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 300g/l, get 1000ml wherein, slurry is warmed up to 95 ℃, adding NaOH solution adjustment pH value is 10.5, and in 50 minutes, (concentration of sodium metasilicate is with SiO to add the 120ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 2%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 3.0, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 8.5, (aluminum sulfate concentration is with Al to add simultaneously the 90ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.0%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Adding dilution heat of sulfuric acid adjusting terminal point pH is 6.5.Wash then, dry, add 0.3% the CH that consists of when steam flow is pulverized
3-[Si (CH
3)
2-O-]
2-(C
2H
5)
3Organosilicon, make required titanium dioxide product.
Example 5
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 70ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.5%), (content 80%, density: 1.140g/ml, dosage are with TiO to the 0.77ml triethanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 200g/l, get 1000ml wherein, slurry is warmed up to 93 ℃, slurry pH value is adjusted to 11, in 50 minutes, (concentration of sodium metasilicate is with SiO to add the 240ml sodium metasilicate
2Meter 50g/l, dosage is with TiO
2The meter 5%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to 65 ℃ of temperature, with dilute sulfuric acid pH is adjusted into 3.0, kept this pH value 8 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 8.0, (aluminum sulfate concentration is with Al to add simultaneously the 50ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 2.5%) and NaOH solution, slaking 10 minutes.Adding dilution heat of sulfuric acid adjusting terminal point pH is 7.0.Wash then, dry, steam flow adds 1.0% hydroxyl modification silicone oil and vinyltriethoxysilane when pulverizing compound, make required titanium dioxide product.
Example 6
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 42ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.3%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 1.48ml isopropanolamine
2Meter 0.2%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 300g/l, get 1000ml wherein, slurry is warmed up to 92 ℃, adding NaOH solution adjustment pH value is 10.5, and in 50 minutes, (concentration of sodium metasilicate is with SiO to add the 180ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 3%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 2.5, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 8.5, (aluminum sulfate concentration is with Al to add simultaneously the 60ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 2.0%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Adding dilution heat of sulfuric acid adjusting terminal point pH is 6.5.Wash then, dry, steam flow adds 0.2% long chain alkyl modified silicon oil and vinyltrimethoxy silane when pulverizing compound, make required titanium dioxide product.
Example 7
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 28ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.2%), (content 80%, density: 1.140g/ml, dosage are with TiO to the 1.54ml triethanolamine
2Meter 0.2%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 250g/l, get 1000ml wherein, slurry is warmed up to 93 ℃, adding NaOH solution adjustment pH value is 10, and in 40 minutes, (concentration of sodium metasilicate is with SiO to add the 100ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 2%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 2.5, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 6.5, (aluminum sulfate concentration is with Al to add simultaneously the 90ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.0%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Adding NaOH solution adjusting terminal point pH is 7.5.Wash then, dry, add 0.5% the compound that consists of amino-modified silicone oil and vinyltriethoxysilane when steam flow is pulverized, make required titanium dioxide product.
Example 8
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 28ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.2%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 0.74ml isopropanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 300g/l, get 1000ml wherein, slurry is warmed up to 91 ℃, adding NaOH solution adjustment pH value is 10, and in 40 minutes, (concentration of sodium metasilicate is with SiO to add the 180ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 3%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 3.0, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 7.0, (aluminum sulfate concentration is with Al to add simultaneously the 70ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 2.0%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Wash then, dry, steam flow adds 0.3% hydroxyl modification silicone oil and vinyltrimethoxy silane when pulverizing compound, make required titanium dioxide product.
Example 9
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 28ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.2%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 0.74ml isopropanolamine
2Meter 0.1%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 300g/l, get 1000ml wherein, slurry is warmed up to 92 ℃, adding NaOH solution adjustment pH value is 10, and in 40 minutes, (concentration of sodium metasilicate is with SiO to add the 120ml sodium silicate solution
2Meter 50g/l, dosage is with TiO
2The meter 2%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to temperature 60 C, with dilute sulfuric acid pH is adjusted into 3.0, kept this pH value 5 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 7.0, (aluminum sulfate concentration is with Al to add simultaneously the 105ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.0%) and NaOH solution (concentration is about 100g/l), slaking 10 minutes.Wash then, dry, steam flow adds 0.3% hydroxyl modification silicone oil and vinyltriethoxysilane when pulverizing compound, make required titanium dioxide product.
Example 10
Get the not surface treated sulfuric acid process rutile titanium dioxide of 700g, add deionized water and make concentration and be about slurry about 700g/l, (concentration is with P to add the 14ml sodium hexametaphosphate solution
2O
5Meter 50g/l, dosage is with TiO
2Meter 0.1%), (content 98%, density: 0.9650g/ml, dosage are with TiO to the 1.48ml isopropanolamine
2Meter 0.2%) make dispersant, the rotating speed with 3000rpm on high speed dispersor disperses 60min.Again scattered slurry is added deionized water and be diluted to 200g/l, get 1000ml wherein, slurry is warmed up to 92 ℃, slurry pH value is adjusted to 11, in 50 minutes, (concentration of sodium metasilicate is with SiO to add the 40ml sodium metasilicate
2Meter 50g/l, dosage is with TiO
2The meter 1%) and dilute sulfuric acid (concentration is 10%, w/w), added slaking 20 minutes, the cooling slurry is to 65 ℃ of temperature, with dilute sulfuric acid pH is adjusted into 2.5, kept this pH value 10 minutes, and added NaOH solution (concentration is about 100g/l) the pH value is adjusted to 8.0, (aluminum sulfate concentration is with Al to add simultaneously the 105ml aluminum sulfate solution with about 20 minutes times
2O
3Meter 100g/l, dosage is with TiO
2Count 3.5%) and NaOH solution, slaking 10 minutes.Adding dilution heat of sulfuric acid adjusting terminal point PH is 6.5.Wash then, dry, steam flow adds 0.3% containing hydrogen silicone oil and vinyltrimethoxy silane when pulverizing compound, make required titanium dioxide product.
Sample after getting 4g and pulverizing and 6g Synolac grind on the plain grinding instrument disperse 300 to change after, use the dispersiveness of Hegman grind gage test sample, the sample of example 1~10 is as follows in the grind dispersity index of Synolac:
The densification of titanium dioxide surface coated silica and integrated degree can be estimated by the solubility in acid of test sample, can indirectly reflect the weatherability of sample simultaneously.Detection method leaches not molten titanium dioxide for to place the concentrated sulfuric acid to dissolve titanium dioxide behind the certain hour under 170 ℃ of temperature, detect by the titanium dioxide amount of acid dissolving, calculates sour molten rate.The sour molten rate index of the product of example 1~10 is as follows:
This shows, adopt the inventive method that titanium dioxide is carried out surface treatment, can improve simultaneously dispersiveness and the weatherability of titanium dioxide.
Claims (3)
1. one kind is easily disperseed and the preparation method of high weathering resistance titanium dioxide, it is characterized in that using not surface treated sulfuric acid process rutile titanium dioxide, adding deionized water makes concentration and is about slurry about 700g/l, add a kind of dispersant of doing in 0.1%~0.5% calgon and 0.1%~0.3% isopropanolamine or the triethanolamine, high speed dispersion; Again scattered slurry is added deionized water and be diluted to 200~300g/l, get slurry, be warmed up to 91~95 ℃, regulate pH10~11 with NaOH solution, slowly add sodium silicate solution and dilute sulfuric acid under this pH condition, the dosage of sodium metasilicate is based on TiO
2Calculating is with SiO
2Meter 1%-6% is in pH10~11 slakings; The cooling slurry is adjusted into 2.5~3.0 with dilute sulfuric acid with pH to 60~75 ℃ of temperature, keeps this pH value 5~10 minutes, adds NaOH solution the pH value is adjusted to 6.5~8.5, slowly adds aluminum sulfate solution and NaOH solution, and the dosage of aluminum sulfate is based on TiO
2Calculating is with Al
2O
3Meter 2.0%~3.5%, slaking; Adding NaOH solution adjusting terminal point pH is 6.5~7.5; Wash then, drying, add silicone oil and the silane coupler of 0.2~1.0% organo-functional group modification when steam flow is pulverized, make required titanium dioxide product.
2. the preparation method of a kind of easy dispersion according to claim 1 and high weathering resistance titanium dioxide, it is characterized in that adopting the slurry about aforesaid 700g/l, adding 0.2%~0.3% calgon, 0.1%~0.2% isopropanolamine are made dispersant, high speed dispersion, again scattered slurry is added deionized water and be diluted to 200~300g/l, get slurry, be warmed up to 91~95 ℃, regulate pH10~11 with NaOH solution, slowly add sodium silicate solution and dilute sulfuric acid under this pH condition, the dosage of sodium metasilicate is based on TiO
2Calculating is with SiO
2Meter 1%~3% is in pH10~11 slakings; The cooling slurry is adjusted into 2.5 with dilute sulfuric acid with pH to 60~65 ℃ of temperature, keeps this pH value 5~10 minutes, adds NaOH solution the pH value is adjusted to 6.5~8.5, slowly adds aluminum sulfate solution and NaOH solution, and the dosage of aluminum sulfate is based on TiO
2Calculating is with Al
2O
3Meter 2.0%~3.5%, slaking; Adding NaOH solution, to regulate terminal point pH be 6.5~7.5, washes then, drying, adds silicone oil and the silane coupler of 0.2~0.5% organo-functional group modification when steam flow is pulverized, and makes required titanium dioxide product.
3. the preparation method of a kind of easy dispersion according to claim 2 and high weathering resistance titanium dioxide, the silicone oil that it is characterized in that described organo-functional group modification is long chain alkyl modified silicon oil, hydroxyl modification silicone oil, epoxy group(ing) modified silicon oil, amino-modified silicone oil or containing hydrogen silicone oil; Silane coupling agent is vinyltrimethoxy silane or vinyltriethoxysilane.
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| CN101367548B (en) * | 2008-09-12 | 2011-06-29 | 江苏工业学院 | Method of preparing hydrophobic nano-titanium dioxide powder |
| DE102008058351A1 (en) * | 2008-11-20 | 2010-06-02 | Kronos International, Inc. | Surface treated titanium dioxide pigments for plastics and method of manufacture |
| CN102190910B (en) * | 2010-03-05 | 2013-09-04 | 安徽安纳达钛业股份有限公司 | Surface treatment method for titanium white powder with dense composite film |
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