CN1510088A - Nanometer kaolinite powder and preparing method thereof - Google Patents

Nanometer kaolinite powder and preparing method thereof Download PDF

Info

Publication number
CN1510088A
CN1510088A CNA021581924A CN02158192A CN1510088A CN 1510088 A CN1510088 A CN 1510088A CN A021581924 A CNA021581924 A CN A021581924A CN 02158192 A CN02158192 A CN 02158192A CN 1510088 A CN1510088 A CN 1510088A
Authority
CN
China
Prior art keywords
clay
rev
nano kaoline
mins
nanometers
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CNA021581924A
Other languages
Chinese (zh)
Other versions
CN1250654C (en
Inventor
刘钦甫
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
University China Mining
Original Assignee
University China Mining
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by University China Mining filed Critical University China Mining
Priority to CN 02158192 priority Critical patent/CN1250654C/en
Publication of CN1510088A publication Critical patent/CN1510088A/en
Application granted granted Critical
Publication of CN1250654C publication Critical patent/CN1250654C/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Silicates, Zeolites, And Molecular Sieves (AREA)
  • Pigments, Carbon Blacks, Or Wood Stains (AREA)

Abstract

A nano-class kaolinite powder with 0.3-0.9 g/cu.m of bulk density and 400-800 nm of average diameter is prepared from the natural fine-particle kaolinite through removing impurities (Fe, Ti, etc) by magnetic separation and chemical reduction, and unique surface treating to prevent aggregation. It can be used for rubber, plastics, paper, ink and ceramics.

Description

A kind of nano kaoline powder and preparation method thereof
Technical field
The present invention relates to a kind of clay mineral of high dispersive, especially relate to a kind of nano kaoline powder and preparation method thereof.
Background technology
Kaolin is a kind of important nonmetalliferous ore raw material, and it is widely used in industrial circles such as pottery, papermaking, rubber, plastics, coating, catalyzer, printing ink because of raw material abundance, low price.Kaolin mainly is made up of kaolinite mineral, and kaolinite is a kind of moisture layer silicate mineral, and its structure is alternately to be formed mutually on vertical by one deck silicon-oxy tetrahedron and alumina octahedral.
Present kaolinic Application and Development develops towards high whiteness, ultra micro refinement, organic composite modified direction, and kaolinic ultra micro refinement technology mainly contains the superfine grinding of dry method and the stripping method of wet method.The principle that powder granule collides mutually under mechanical shock or the high velocity air is mainly adopted in the dry method superfine grinding, but because particle is thinner, its surface energy is higher, reunites easily, produces the secondary aggregated particles, thereby can not obtain very thin granularity.Industrially be used for the kaolinic granularity that the method superfine grinding obtains and be generally 1250 orders (10 microns).Wet method stripping is under the effect of grinding media, utilize the laminate structure and the little characteristics of interlayer gravitation thereof of kaolinite itself, peel off, it is laminar that bulk crystals aggregate or stacking material are separated into, utilize this kind method can peel off thin slice, therefore be widely used in the kaolinic production of papermaking less than 2 microns.In the kaolin powder product of suitability for industrialized production, the thinnest kaolin powder does not have the report of nano-kaoline product for the grade less than 2 microns accounts for the product of total amount more than 90% at present.
Nanoclay is a research focus in the world at present, and this respect relatively is typically institute of central authorities of Japanese Toyota and develops and industrialized nylon 6/ stratiform Nano composite material of montmorillonite.Mehrotra and Gianelis (Mehrotra V, Gianelis E P.Polymer based molecular composites, Edited by Shaefer D Wand Mark J E:Mater Res Soc Proc, 171, Pittsburgh, PA 1990) notion that the intercalation in-situ polymerization prepares polymer organic/inorganic nano composite material proposed, be that polymer monomer (object) is inserted in silicate clay (the being mainly montmorillonite) main body with laminate structure, in the polymerization of layered clay mineral interlayer, form the sequential 2 D nano composite material, this is the important method for preparing nano clay composite material at present.Though China also has many people to carry out the research of this respect, carries out theory and experimental study more, only Institute of Chemistry, Academia Sinica successfully prepares nano composite polymer-montmorillonoid material, and is used for the suitability for industrialized production of plastics.In application number 01109844.9 and application number 01109845.7, disclose polynite and handled, utilized the method for intercalation polymeric to prepare nano composite polymer-montmorillonoid material through cationite.
Research and production status from domestic and international nanoclay, mostly with the raw material of montmorillonite as the production nanoclay, but because intercalation, processing treatment technological method more complicated such as organise, thereby cause the production cost height, it is applied be restricted, this also is the present lower reason of nanoclay turnout in the world.
Because kaolin raw material abundance, low price, the kaolin that can select price advantage is as nanoclay material, the technology but superfine grinding of existing kaolin dry method and wet method super-fine are delaminated, mainly utilize the effect of mechanical force to reach the purpose of fine particlesization, because particle is more tiny, its surface energy is just high more, and surperficial scission of link is also many more, particle agglomeration turns into also just obvious more, therefore relies on the ultra micro refinement technology of mechanical force to be difficult to produce nano level kaolin.Utilizing interlayer polymeric method can produce nanoclay/polymer composites at present, is raw material yet raw material mostly is montmorillonitic clay, because the interlayer structure of kaolin own causes the interlamination region torpescence, interlayer expands little, is difficult to polymerization between complete layer; How to pass through certain art breading, making kaolin powder reach nanometer scale is present technical problem extremely to be solved, because the preparation of nano kaoline powder can be widened its Application Areas better, except that being applied to the organic high molecular polymer, can also be used for fields such as papermaking, printing ink, pottery, coating, therefore have more wide application value.
Because having the whiteness higher than montmorillonitic clay, crystal layer surface tool neutral charge (negative charge that montmorillonite crystal layer tool is higher) and kaolin clay mineral deposit, kaolin lacks than the montmorillonitic clay mineral deposit is impure usually, therefore utilize the former to produce nanoclay Billy and have bigger advantage with the latter, for example can be used for white or light-colour rubber and plastics, white and light-coloured coating better, and with low cost etc.
In addition, the method of utilizing the interlayer polymerization at present or peeling off, be actually in the organic compound polymerization process and make clay nanoization, it is a kind of composite nano materials, that is to say before the organic compound polymerization, not form the nanoclay powder therefore do not have the nanoclay powder strictly at present in the world.
Summary of the invention
The object of the present invention is to provide a kind of nano kaoline powder product, this product can reach nanometer scale, be easy to disperse, and the whiteness height, can be widely used in production fields such as rubber, plastics, papermaking, printing ink, pottery.
Another object of the present invention is to provide a kind of preparation method of nano kaoline powder, this method cost is low, is easy to suitability for industrialized production.
Clay mineral is because its natural particulate particle, therefore the clay particle particle diameter of some special genetic is positioned at nanometer scale, yet owing to contain some impurity in the clay, for example extremely fine iron content, titanium mineral etc., and the effect of particle surface electric charge make clay gall present face-face, or point-face or limit-face contact, form clay agglomerates, adopt method commonly used to be difficult to make it disperse, therefore natural fine particle shape clay mineral does not have the nano level effect.The present invention utilizes the kaolinic natural particulates of some special genetic, according to kaolinic plane of crystal characteristic (its surperficial tool neutral charge for example, lower etc. than montmorillonite cohesiveness), adopt special chemical treatment method, make the kaolinite wafer-separate become the nano level thin slice of high dispersing.
For realizing the object of the invention, the invention provides a kind of nano kaoline powder product, the aerated density that it is characterized in that nano kaoline is 0.03g/cm 3~0.09g/cm 3, the mean thickness of nano kaoline clay gall is 20 nanometers~70 nanometers, mean diameter is 400 nanometers~800 nanometers.
The aerated density of the preferred nano kaoline of the present invention is 0.03g/cm 3~0.06g/cm 3, the mean thickness of nano kaoline clay gall is 20 nanometers~50 nanometers, mean diameter is 400 nanometers~600 nanometers.
Described aerated density is meant is piling up loose condition (of surface) (no compacting or the stocky effect) quality of unit volume powder down naturally, and the mean thickness of nano kaoline clay gall and mean diameter can be tested under perspective Electronic Speculum or scanning electron microscope.
According to the definition of nano material, nano material is meant the material that has at least one dimension to be in nanoscale scope (1 nanometer~100 nanometers) or to be made of as elementary cell them in three-dimensional space.Can be divided into (1) zero-dimension nano material by dimension, refer to that spatially three dimension scale is all at nanoscale; (2) monodimension nanometer material, referring to has bidimensional to be in nanoscale in the space; (3) two-dimensional nano material, referring to has one dimension in nanoscale (Zhang Lide and Mu Jimei, 2002, nano material and nanostructure, the 6th page, Science Press) at three-dimensional space.Because the thickness of product kaolinite sheet of the present invention is positioned at nanometer scale, therefore this product is called the nano kaoline powder, be the two-dimensional layer nano material.
The present invention is a raw material with a kind of leptomere point-like kaolinite clay of special genetic, at first makes certain density mud, adds suitable dispersion agent, makes it abundant dispersion; By high-gradient magnetic separation, remove impurity such as de-iron, titanium; Utilize the method for chemical reduction to improve its whiteness; Add at last suitable tensio-active agent change kaolinite clay sheet surface electrically, make it the surface and present equably and identical electrically be separated from each other thereby make its leptomere point-like clay gall reach single, the formation aggregate does not reassociate.Because it is neutral that kaolinite crystal layer surface charge is, add this invention its surface properties is modified and processing uniformly, thereby adopt the nano kaoline powder that method of the present invention can the production high dispersing.
For realizing another goal of the invention, the invention provides a kind of preparation method of nano kaoline powder product, it is characterized in that, comprise the following step:
1) phanerocrystalline-adiagnostic kaolinite clay raw material adds entry and dispersion agent stirs, and makes mud;
2) mud carries out magnetic separation by high gradient magnetic separator;
3) mud after the magnetic separation is adjusted pH value to 2~5, is added reductive agent again and sequestrant stirs, reaction finish after dewater, wash filter cake;
4) filter cake after the above-mentioned washing is added water and make slurry, stir the adding tensio-active agent then;
5) last drying is broken up, and obtaining aerated density is 0.03g/cm 3~0.09g/cm 3, the mean thickness of nano kaoline clay gall is 20 nanometers~70 nanometers, mean diameter is the nano kaoline powder product of 400 nanometers~800 nanometers.
The raw material that the present invention uses is the particulate kaolinite clay that forms in a kind of low energy hydrostatic environment, belongs to the phanerocrystalline-adiagnostic kaolinite clay, comprises the soft leptomere point-like kaolin and the hard flint clay of appositional pattern.For hard flint clay,, make mud because the raw material hard and compact is difficult for disperseing, thereby can utilizes general disintegrating machine that it is delaminated earlier.
When the present invention is raw materials used when being hard flint clay, step 1) also can be: add entry in the hard flint clay and dispersion agent stirs, with disintegrating machine it is delaminated, add water again and stir, make mud; Described stirring velocity is 400 rev/mins~600 rev/mins, and the described disintegrating machine mill stripping time is 1 hour~1.5 hours, and the concentration of mud is controlled between 40%~60% during the mill stripping.
The preparation method of a kind of nano kaoline powder product of the present invention, wherein, the add-on of the dispersion agent described in the step 1) is 0.1%~0.6% of a clay weight, its preferred add-on is 0.1%~0.5% of a clay weight, described dispersion agent is a kind of in tripoly phosphate sodium STPP, Sodium hexametaphosphate 99, water glass, polyacrylamide sodium or the acryloyl sodium etc., and it is a kind of in Sodium hexametaphosphate 99, water glass and the polyacrylamide sodium preferably; Stirring velocity is 500 rev/mins~1000 rev/mins, and churning time is 10 minutes~40 minutes, and described concentration of hydraulic mixture is 15%~30%;
The magneticstrength of the high gradient magnetic separator step 2) is 1.5 teslas~2 teslas, and magnetizing time is 90 seconds~240 seconds;
Selecting concentration in the step 3) for use is that 30%~40% acidic substance are adjusted the pH value, and described acidic substance are a kind of in sulfuric acid, citric acid, oxalic acid or the acetate, and available acidometer is measured the pH value at any time in the adition process, up to reaching required numerical value; Described reductive agent is a V-Brite B, zinc dithionite, a kind of in the S-WAT etc., it is V-Brite B preferably, add-on is 0.02%~3% of a clay weight, described sequestrant is an acetate, citric acid, Citrate trianion, aminocarboxylate, a kind of in the tripoly phosphate sodium STPP etc., it is aminocarboxylate preferably, tripoly phosphate sodium STPP, a kind of in the Citrate trianion, described Citrate trianion is a Trisodium Citrate, a kind of in zinc citrate and the citrate of lime, described aminocarboxylate is an aminocarboxylic acid sodium, a kind of in aminocarboxylic acid zinc and the aminocarboxylic acid calcium, add-on is 1%~5% of a clay weight, sequestrant can add simultaneously with reductive agent, also can after adding 10 minutes~50 minutes, reductive agent add, stirring velocity is 300 rev/mins~800 rev/mins, reaction times is 0.5 hour~3 hours, described dehydration and washing can be carried out on plate-and-frame filter press or vacuum filter, wash to filtering solution pH6.5-7.5.
The concentration of the slurry described in the step 4) is 20%~60%, the add-on of described tensio-active agent is 0.1%~3% of a clay weight, and tensio-active agent is at least a in organic carboxyl acid material, hydrocarbon compound, silane coupling agent or the titanate coupling agent etc.; The organic carboxyl acid material is a kind of in Palmiticacid, stearic acid, calcium stearate, Zinic stearas, the linolenic acid etc., its consumption is 0.1%~3% of a clay weight, hydrocarbons is a kind of in whiteruss, clorafin and the hydrochloric ether etc., and its consumption is 0.1%~3% of a clay weight; Silane coupling agent is a kind of in 3-(2-aminoethyl)-aminopropyl methyl dimethoxysilane, 3-(2-aminoethyl)-aminopropyl triethoxysilane, vinyltriethoxysilane, vinyltrimethoxy silane, 3-mercaptopropyl trimethoxysilane, the methacryloxypropyl trimethoxy silane, and it is a kind of in vinyltrimethoxy silane, 3-mercaptopropyl trimethoxysilane or the methacryloxypropyl trimethoxy silane preferably.Titanate coupling agent is a kind of in sec.-propyl trimethylammonium acryl metatitanic acid fat, sec.-propyl triacryl metatitanic acid fat, the sec.-propyl three iso stearate base metatitanic acid fat etc., and stirring velocity is 300 rev/mins~800 rev/mins, and churning time is 0.5 hour~2 hours;
Bake out temperature described in the step 5) is 100 ℃~200 ℃, and the time is 5 hours~10 hours, breaks up in 1000 rev/mins~3000 rev/mins homogenizers, beater or high speed machine impact mill, and the time is 1 minute~5 minutes.
The purpose of carrying out magnetic separation by high gradient magnetic separator step 2 among the present invention) is in order to remove impurity such as de-iron, titanium.
The effect that adds reductive agent among the present invention in the step 3) is ferric iron to be reduced into ferrous iron enter solution, adding sequestrant is to form organic composite metal after making iron and sequestrant effect, have bigger solubleness and transfer ability, thereby make iron in the process of washing, break away from surface of clay, slough to a greater degree.
The purpose that adds tensio-active agent among the present invention in the step 4) is that its surface is electrically handled and organic modification.
Equipment of the present invention, as disintegrating machine, high gradient magnetic separator, homogenizer, beater, high speed machine impact mill, plate-and-frame filter press or vacuum filter, for known in those skilled in the art, common equipment.
A kind of nano kaoline powder product of the present invention is the two-dimensional layer nano material, can make composite products have high intensity, glossiness, stability and dispersed, compare with existing nano clay composite material production technology, the nanoclay cost that utilizes this technology to produce is low, but and large-scale industrial production; The nano kaoline powder product is of many uses simultaneously, does the enhancement except that high molecular polymer materials such as being used for rubber and plastics, can also be used for glazed paper coating soil.Be used for printing ink, make it have high dispersing and stability.Be used for ceramic glaze, have high dispersion and suspension, and have good gloss and organoleptic properties.
Embodiment
Below be embodiments of the invention, the embodiment that the present invention provides is in order to further specify the specific embodiments of the invention scheme, rather than is used for limiting protection scope of the present invention.The detection method of whiteness is undertaken by the GB5950 standard.
Embodiment 1
Selection is a raw material with the leptomere point-like soft kaolin that forms in the lake environment, and its natural whiteness is 79%; At first the particulate soft kaolin raw material with 500g weight adds the stirring of 2000 ml waters, adds 1 gram Sodium hexametaphosphate 99 dispersion agent simultaneously, and stirring velocity is 800 rev/mins, and churning time is 10 minutes, makes the mud of 20% concentration; Be the high gradient magnetic separator of 2 teslas again by magneticstrength, the magnetization time is 120 seconds; Add concentration then and be the pH value to 2 that 30% sulfuric acid is regulated mud, stir with 300 rev/mins speed on the limit, the limit adds sodium hyposulfate, add-on is 0.05% of a clay weight, add aminocarboxylic acid sodium simultaneously, add-on is 2% of a clay weight, reacts 50 minutes, constantly stir in the reaction process, stirring velocity is 300 rev/mins.Reaction finishes the back filters on vacuum filter, dewaters, and the water washing that adds 20 times is to filtrate pH=7.And then filter cake is added water, and to make concentration be 40% mud, adds the stearic acid of clay weight 1% and the whiteruss of clay weight 0.3%, and stirring velocity is 600 rev/mins, stirs 30 minutes.Then 120 ℃ of oven dry 5 hours.Be to pulverize on 3000 rev/mins the high speed disintegrator to break up in speed, can obtain aerated density after 1.5 minutes is 0.063g/cm 3, the mean thickness of sheet is 50 nanometers, and mean diameter is 500 nanometers, and whiteness is 85% nano kaoline clay product.Along with the growth of the time of pulverizing, aerated density is basicly stable at 0.063g/cm later on 3~0.065g/cm 3Between, illustrate that this product does not have coacervation substantially.
Comparative Examples
Adopting embodiment 1 raw materials used 100g, is on 24000 rev/mins the high speed disintegrator it to be pulverized at rotating speed, and pulverizing and obtaining aerated density after 5 minutes is 0.3g/cm 3Powder, continue afterwards it was pulverized 5 minutes, then aerated density increases to 0.41g/cm 3, to pulverize 10 minutes, aerated density increases to 0.53g/cm 3, this explanation utilizes conventional mechanical crushing method still to produce a large amount of aggregates.
Embodiment 2
Select 20 kilogram of 325 purpose flint raw clay, its natural whiteness is 73%.Add water and make the mud of 50% concentration in agitated pool, add 100 gram (0.5% clay weight) polyacrylamide sodium dispersion agents, constantly stir, stirring velocity is 600 rev/mins, utilizes general disintegrating machine that raw material is delaminated, the 1 hour stripping time of mill.With the mud of 50% concentration after delaminating, add the mud of entry furnishing 25% concentration again, constantly stir with 1000 rev/mins speed, churning time is 20 minutes; Be the high gradient magnetic separator of 1.5 teslas again by magneticstrength, the magnetization time is 240 seconds; Adding concentration then and be 35% citric acid, to regulate the pH value of mud be 4.5, add 300 gram (1.5% clay weight) S-WAT reductive agents then earlier, the tripoly phosphate sodium STPP sequestrant that adds 400 grams (2% clay weight) after 25 minutes, and constantly stir, stirring velocity can be controlled in 300 rev/mins, avoids violent stirring to produce too much bubble; React after 80 minutes, wash into pH=6.8 through the plate-and-frame filter press dewatering and filtering and with clear water.Then filter cake is made 20% mud again, stirred, and add 0.5% linolenic acid, 1% vinyltrimethoxy silane and 0.3% clorafin with 500 rev/mins stirring velocitys; React after 2 hours, 150 ℃ of temperature oven dry 8 hours.Break up on rotating speed is 2000 rev/mins beater at last, can obtain aerated density after 3 minutes is 0.09g/cm 3, the mean thickness of sheet is 70 nanometers, and mean diameter is 800 nanometers, and whiteness is 81% nano kaoline clay product.
Embodiment 3
The selection soft kaolin is a raw material, and its natural whiteness is 75%.At first 3 kilogram weights kaolin raw material is added 0.3% tripoly phosphate sodium STPP dispersion agent, add water, stir, stirring velocity is 500 rev/mins, and churning time is 40 minutes, makes the mud of 15% concentration; Be the high gradient magnetic separator of 1.8 teslas again by magneticstrength, the magnetization time is 1.5 minutes; The pH value that adds the oxalic acid adjusting mud of 40% concentration then is 3, the zinc dithionite reductive agent that adds 15 grams (0.5% clay weight) then earlier, the acetic acid chelating agent that adds 30 grams (1% clay weight) after 10 minutes, and constantly stir, stirring velocity is 800 rev/mins, avoids violent stirring to produce too much bubble.React after 150 minutes, dewatering and filtering also washs into pH=7.2 with clear water.Filter cake is made 50% mud more then; add 0.2% Zinic stearas, 1.5% sec.-propyl trimethylammonium acryl metatitanic acid fat and 0.3% 3-mercaptopropyl trimethoxysilane then; stir with 300 rev/mins stirring velocitys; stirred 1 hour; then 200 ℃ of oven dry 10 hours; break up on high speed disintegrator at last, rotating speed is 3000 rev/mins, and can obtain aerated density after 4 minutes is 0.03g/cm 3, the mean thickness of sheet is 30 nanometers, and mean diameter is 300 nanometers, and whiteness is 82% nano kaoline clay product.
Embodiment 4
Select 1 kilogram of 325 order flint raw clay, its natural whiteness is 71%.At first add water and make the mud of 50% concentration, add 4 gram (0.4% clay weight) silicate dispersant, constantly stir, stirring velocity is 400 rev/mins.Utilize disintegrating machine to delaminate, make the kaolinite aggregate in the raw material separate the 1.5 hours stripping time of mill.Add the mud of entry furnishing 30% concentration after the mill stripping again, constantly stir with 600 rev/mins speed, churning time is 30 minutes; Be the high gradient magnetic separator of 1.6 teslas again by magneticstrength, the magnetization time is 120 seconds; Adding concentration then and be 30% acetate, to regulate the pH value of mud be 5, the S-WAT reductive agent that adds 30 grams (3% clay weight) then earlier, the Trisodium Citrate sequestrant that adds 20 grams (2% clay weight) after 50 minutes, and constantly stir, stirring velocity can be controlled in 600 rev/mins, react after 180 minutes, dewatering and filtering also washs into pH=6.5 with clear water.Filter cake is made 60% mud more then, stirs with 800 rev/mins stirring velocitys, and adds 3% calcium stearate, react after 1.5 hours, dries 6 hours 180 ℃ of temperature.Break up on rotating speed is 3000 rev/mins beater at last, can obtain aerated density after 5 minutes is 0.05g/cm 3, the mean thickness of sheet is 20 nanometers, and mean diameter is 400 nanometers, and whiteness is 85% nano kaoline clay product.
Embodiment 5-10
With the form of tabulation, describe the preparation process of the described nano kaoline clay product of embodiment 5-10 in detail below, the indication add-on is the clay weight percentage in the table.
The preparation of table 1 nano kaoline clay product
Condition Embodiment 5 Embodiment 6 Embodiment 7 Embodiment 8 Embodiment 9 Embodiment 10
Step 1) Raw material 900 gram soft kaolins, natural whiteness 78% 1000 grams, 325 order flint clays, natural whiteness 70% 1000 grams, 325 order flint clays, natural whiteness 75% 900 gram soft kaolins, natural whiteness 74% 900 gram soft kaolins, natural whiteness 72% 1100 gram soft kaolins, natural whiteness 76%
Water (milliliter) ??5100 ??3000 ??4000 ??2100 ??5100 ??3900
Dispersion agent 0.2% acryloyl sodium 0.3% Sodium hexametaphosphate 99 0.1% water glass 0.2% acryloyl sodium 0.4% polyacrylamide sodium 0.5% tripoly phosphate sodium STPP
Stirring velocity (rev/min) ??600 ??500 ??750 ??800 ??900 ??1000
Churning time (minute) ??15 ??35 ??20 ??18 ??25 ??20
Concentration of hydraulic mixture (%) ??15 ??25 ??20 ??30 ??15 ??22
Step 2) Magneticstrength tesla ??1.5 ??1.5 ??1.8 ??1.8 ??2 ??2
Magnetizing time second ??100 ??90 ??150 ??200 ??120 ??240
Step 3) Acid 30% concentration oxalic acid 35% strength acetic acid 35% concentration sulfuric acid 30% concentration citric acid 35% concentration oxalic acid 40% strength acetic acid
PH value ??5 ??2 ??4.5 ??2.5 ??5 ??3.5
Reductive agent 0.02% V-Brite B 0.1% S-WAT 1% zinc dithionite 1.5% zinc dithionite 2% V-Brite B 3% S-WAT
Sequestrant Add 1% citric acid after 20 minutes 1.5% acetate Add 2% aminocarboxylic acid sodium after 30 minutes 3% tripoly phosphate sodium STPP 5% Trisodium Citrate Add 2.5% aminocarboxylic acid zinc after 40 minutes
Stirring velocity (rev/min) ??400 ??300 ??600 ??800 ??600 ??500
Time (minute) ??60 ??30 ??180 ??150 ??50 ??120
Washing back pH value ??6.8 ??7 ??7 ??7.2 ??7.5 ??6.5
Step 4) Slurry concentration (%) ??35 ??30 ??50 ??45 ??60 ??55
Tensio-active agent 0.5% stearic acid and 1%3-(2-aminoethyl)-aminopropyl methyl dimethoxysilane 1.5% Palmiticacid and 1% chloric ethane 2% calcium stearate and 0.5%3-(2-aminoethyl)-aminopropyl triethoxysilane 1.5% sec.-propyl trimethylammonium acryl metatitanic acid fat 3% vinyltrimethoxy silane 0.1% methacryloxypropyl trimethoxy silane
Stirring velocity (rev/min) ??300 ??600 ??500 ??400 ??700 ??800
Churning time (minute) ??60 ??90 ??30 ??120 ??100 ??80
Step Bake out temperature (℃) ??200 ??150 ??120 ??160 ??100 ??180
5) Drying time (hour) ????5 ????8 ????10 ????7 ????10 ????6
Break up equipment Homogenizer Beater The high speed machine impact mill Homogenizer Beater The high speed machine impact mill
Break up speed (rev/min) ????1000 ????2500 ????2500 ????3000 ????2000 ????3000
Break up the time (minute) ????3 ????1.5 ????2 ????2 ????1.5 ????3
Nano-powder Aerated density (g/cm 3) ????0.05 ????0.03 ????0.09 ????0.06 ????0.04 ????0.07
Mean thickness (nanometer) ????20 ????50 ????35 ????70 ????45 ????30
Mean diameter (nanometer) ????400 ????500 ????800 ????600 ????450 ????650
Whiteness (%) ????86 ????81 ????82 ????80 ????84 ????85
Wherein raw material adds water and dispersion agent earlier and stirs and delaminate with disintegrating machine among embodiment 6, the embodiment 7, embodiment 6: stirring velocity is 500 rev/mins, the mill stripping time is 1 hour, adding water, to make concentration be 60%, embodiment 7: stirring velocity is 500 rev/mins, mill is 80 minutes the stripping time, and adding water, to make concentration be 40%.
Application Example
The nano kaoline product that utilizes the present invention to develop carries out filled styrene butadiene rubber reinforcing property experiment, and compares with kaolin product that Comparative Examples is made.The rubber experimental formula is: 300 parts of SBR1500, S 5-25 part, 3 parts of SA, 9 parts of ZnO, 150 parts of fillers (embodiment 1-4, Comparative Examples kaolin), 3 parts of NS.Experiment is carried out in physical chemistry inspection center of Beijing Research ﹠ Design Institute of Rubber Industry.No rotor vulkameter, 153 ℃ of curing temperatures, curing time 25 minutes are adopted in test.Test-results is as follows:
Table 2 filled styrene butadiene rubber comparative test result
Test subject Tensile yield Tensile strength 300% tensile modulus 500% tensile modulus Setafter break Tear strength Elasticity Abrasion
Unit ??% ???MPa ??MPa ??MPa ???% ???KN/m ??% ?cm 3/1.61km
Testing method ???????????????????????GB/T531-92 ???GB/T52 ???9-91 ??GB/T16 ??81-91 ??GB1689-89
Comparative Examples ??312 ???3.6 ??3.4 ??- ???3 ???22.8 ??2.46
Embodiment 1 ??808.8 ???12.80 ??2.28 ??3.28 ???27 ???27.80 ??50 ??0.6447
Embodiment 2 ??750.3 ???11.4 ??2.16 ??3.01 ???28 ???25.3 ??47 ??0.6627
Embodiment 3 ??823.7 ???14.7 ??3.12 ??4.58 ???26 ???29.7 ??55 ??0.6534
Embodiment 4 ??822.1 ???13.6 ??2.98 ??4.04 ???27 ???30.5 ??54 ??0.6504
The result shows (seeing Table 2), to rubber when filling-modified, nano kaoline powder product of the present invention has tangible reinforcing property than the ultrafine kaolin powder filler in the Comparative Examples aspect the mechanical and physical performances such as tensile yield, tensile strength, tear strength and abrasion, demonstrate the mutation effect of nano material, therefore have great using value and market outlook.
Although the present invention has been done detailed explanation and has quoted some specific exampless as proof, for a person skilled in the art, only otherwise leave that the spirit and scope of the present invention can be done various variations or correction is obvious.

Claims (10)

1. nano kaoline powder product, the aerated density that it is characterized in that nano kaoline is 0.03g/cm 3~0.09g/cm 3, the mean thickness of nano kaoline clay gall is 20 nanometers~70 nanometers, mean diameter is 400 nanometers~800 nanometers.
2. a kind of nano kaoline powder product according to claim 1, the aerated density that it is characterized in that nano kaoline is 0.03g/cm 3~0.06g/cm 3, the mean thickness of nano kaoline clay gall is 20 nanometers~50 nanometers, mean diameter is 400 nanometers~600 nanometers.
3. the preparation method of the described a kind of nano kaoline powder product of claim 1 is characterized in that, comprises the following step:
1) gets phanerocrystalline-adiagnostic kaolinite clay raw material, add entry and dispersion agent stirs, make mud;
2) mud carries out magnetic separation by high gradient magnetic separator;
3) mud after the magnetic separation is adjusted pH value to 2~5, is added reductive agent again and sequestrant stirs, reaction finish after dewater, wash filter cake;
4) filter cake after the above-mentioned washing is added water and make slurry, stir the adding tensio-active agent then;
5) last drying is broken up, and obtaining aerated density is 0.03g/cm 3~0.09g/cm 3, the mean thickness of nano kaoline clay gall is 20~70 nanometers, mean diameter is the nano kaoline powder product of 400~800 nanometers.
4. the preparation method of a kind of nano kaoline powder product according to claim 3 is characterized in that, described phanerocrystalline-adiagnostic kaolinite clay raw material comprises the soft leptomere point-like kaolin and the hard flint clay of appositional pattern.
5. the preparation method of a kind of nano kaoline powder product according to claim 4, it is characterized in that, when raw materials used when being hard flint clay, step 1) also can be: add entry in the hard flint clay and dispersion agent stirs, with disintegrating machine it is delaminated, add water again and stir, make mud; Described stirring velocity is 400 rev/mins~600 rev/mins, and the described disintegrating machine mill stripping time is 1 hour~1.5 hours, and the concentration of mud is controlled between 40%~60% during the mill stripping.
6. according to the preparation method of claim 3 or 5 described a kind of nano kaoline powder products, it is characterized in that, the add-on of the dispersion agent described in the step 1) is 0.1%~0.6% of a clay weight, its preferred add-on is 0.1%~0.5% of a clay weight, described dispersion agent is a kind of in tripoly phosphate sodium STPP, Sodium hexametaphosphate 99, water glass, polyacrylamide sodium or the acryloyl sodium, and it is a kind of in Sodium hexametaphosphate 99, water glass or the polyacrylamide sodium preferably; Stirring velocity is 500 rev/mins~1000 rev/mins, and churning time is 10 minutes~40 minutes, and described concentration of hydraulic mixture is 15%~30%.
7. the preparation method of a kind of nano kaoline powder product according to claim 3 is characterized in that step 2) described in the magneticstrength of high gradient magnetic separator be 1.5 teslas~2 teslas, magnetizing time is 90 seconds~240 seconds.
8. the preparation method of a kind of nano kaoline powder product according to claim 3, it is characterized in that, selecting concentration in the step 3) for use is that 30%~40% acidic substance are adjusted the pH value, described acidic substance are sulfuric acid, citric acid, a kind of in oxalic acid or the acetate, described reductive agent is a V-Brite B, zinc dithionite, a kind of in the S-WAT, it is V-Brite B preferably, add-on is 0.02%~3% of a clay weight, described sequestrant is an acetate, citric acid, Citrate trianion, aminocarboxylate, a kind of in the tripoly phosphate sodium STPP, it is aminocarboxylate preferably, tripoly phosphate sodium STPP, a kind of in the Citrate trianion, described Citrate trianion is a Trisodium Citrate, zinc citrate, a kind of in the citrate of lime, described aminocarboxylate is an aminocarboxylic acid sodium, a kind of in aminocarboxylic acid zinc and the aminocarboxylic acid calcium, add-on is 1%~5% of a clay weight, sequestrant can add simultaneously with reductive agent, also can after adding 10 minutes~50 minutes, reductive agent add, stirring velocity is 300 rev/mins~800 rev/mins, reaction times is 0.5 hour~3 hours, described dehydration and washing can be carried out on plate-and-frame filter press or vacuum filter, wash to filtering solution PH6.5-7.5.
9. the preparation method of a kind of nano kaoline powder product according to claim 3, it is characterized in that, the concentration of the slurry described in the step 4) is 20%~60%, the add-on of described tensio-active agent is 0.1%~3% of a clay weight, and tensio-active agent is at least a in organic carboxyl acid material, hydrocarbon compound, silane coupling agent or the titanate coupling agent; The organic carboxyl acid material is a Palmiticacid; stearic acid; calcium stearate; Zinic stearas; a kind of in the linolenic acid; its consumption is 0.1%~3% of a clay weight; hydrocarbons is a whiteruss; a kind of in clorafin and the hydrochloric ether; its consumption is 0.1%~3% of a clay weight; silane coupling agent is 3-(2-aminoethyl)-aminopropyl methyl dimethoxysilane; 3-(2-aminoethyl)-aminopropyl triethoxysilane; vinyltriethoxysilane; vinyltrimethoxy silane; the 3-mercaptopropyl trimethoxysilane; a kind of in the methacryloxypropyl trimethoxy silane; it is vinyltrimethoxy silane preferably; 3-mercaptopropyl trimethoxysilane or methacryloxypropyl trimethoxy silane; titanate coupling agent is a sec.-propyl trimethylammonium acryl metatitanic acid fat; a kind of in sec.-propyl triacryl metatitanic acid fat or the sec.-propyl three iso stearate base metatitanic acid fat; stirring velocity is 300 rev/mins~800 rev/mins, and churning time is 0.5 hour~2 hours.
10. the preparation method of a kind of nano kaoline powder product according to claim 3, it is characterized in that, bake out temperature described in the step 5) is 100 ℃~200 ℃, time is 5 hours~10 hours, break up in 1000 rev/mins~3000 rev/mins homogenizers, beater or high speed machine impact mill, the time is 1 minute~5 minutes.
CN 02158192 2002-12-24 2002-12-24 Nanometer kaolinite powder and preparing method thereof Expired - Fee Related CN1250654C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 02158192 CN1250654C (en) 2002-12-24 2002-12-24 Nanometer kaolinite powder and preparing method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 02158192 CN1250654C (en) 2002-12-24 2002-12-24 Nanometer kaolinite powder and preparing method thereof

Publications (2)

Publication Number Publication Date
CN1510088A true CN1510088A (en) 2004-07-07
CN1250654C CN1250654C (en) 2006-04-12

Family

ID=34236903

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 02158192 Expired - Fee Related CN1250654C (en) 2002-12-24 2002-12-24 Nanometer kaolinite powder and preparing method thereof

Country Status (1)

Country Link
CN (1) CN1250654C (en)

Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101844776A (en) * 2010-05-26 2010-09-29 郑州大学 Kaolinite lamellar crystal and preparation method thereof
CN101880480A (en) * 2010-05-12 2010-11-10 广西象州联壮化工有限公司 Preparation method of calcinated argil
CN102205971A (en) * 2010-03-31 2011-10-05 中国科学院过程工程研究所 Method for preparing ammonium illite sheets, alumina silicate sheets, and nano-sized kaolinite
CN102602950A (en) * 2012-03-14 2012-07-25 华南理工大学 Method for preparing activated nano-kaolin
CN103146026A (en) * 2013-03-21 2013-06-12 枣庄市三兴高新材料有限公司 Clay powder for improving vulcanization processability of rubber and preparation method for same
CN103589005A (en) * 2013-10-17 2014-02-19 中科纳达控股有限公司 Preparation method of illite/montmorillonite mixed-layer clay/natural rubber compounded rubber
CN103709794A (en) * 2014-01-15 2014-04-09 郭凯 Method for preparing modified calcined coal kaolin for rubber by employing solution method
CN104395229A (en) * 2012-06-01 2015-03-04 P·鲁登科 Nanostructure with functionally different sides
CN104844831A (en) * 2015-05-14 2015-08-19 江苏玖川纳米材料科技有限公司 Method for producing special smell-controlling mineral reinforced material for regenerated rubber
CN105176143A (en) * 2015-08-18 2015-12-23 苏州润佳工程塑料股份有限公司 Surface modification method for inorganic powder used for thermoplastic
CN106830780A (en) * 2016-12-27 2017-06-13 高州市兆翔新材料有限公司 A kind of novel nano kaolin
CN106883451A (en) * 2016-12-29 2017-06-23 高州市兆翔新材料有限公司 A kind of nano kaoline
CN107510624A (en) * 2017-08-24 2017-12-26 广州聚注通用技术研究院有限公司 A kind of adsorbed film
CN108779388A (en) * 2016-03-22 2018-11-09 沙特阿拉伯石油公司 The in-situ preparation of nanoclay drilling fluid
CN108824090A (en) * 2018-08-07 2018-11-16 苏州华龙化工有限公司 A kind of filter paper and preparation method thereof for ultra-clean baking oven
CN114572991A (en) * 2022-03-17 2022-06-03 南方科技大学 Nano kaolin powder and preparation method thereof

Cited By (23)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102205971A (en) * 2010-03-31 2011-10-05 中国科学院过程工程研究所 Method for preparing ammonium illite sheets, alumina silicate sheets, and nano-sized kaolinite
CN102205971B (en) * 2010-03-31 2013-05-01 中国科学院过程工程研究所 Method for preparing nano-sized kaolinite
CN101880480A (en) * 2010-05-12 2010-11-10 广西象州联壮化工有限公司 Preparation method of calcinated argil
CN101844776A (en) * 2010-05-26 2010-09-29 郑州大学 Kaolinite lamellar crystal and preparation method thereof
CN101844776B (en) * 2010-05-26 2012-01-25 郑州大学 Kaolinite lamellar crystal and preparation method thereof
CN102602950A (en) * 2012-03-14 2012-07-25 华南理工大学 Method for preparing activated nano-kaolin
US10501327B2 (en) 2012-06-01 2019-12-10 Pavlo Rudenko Nanostructures with functionally different surfaces
CN104395229A (en) * 2012-06-01 2015-03-04 P·鲁登科 Nanostructure with functionally different sides
CN103146026A (en) * 2013-03-21 2013-06-12 枣庄市三兴高新材料有限公司 Clay powder for improving vulcanization processability of rubber and preparation method for same
CN103146026B (en) * 2013-03-21 2014-05-21 枣庄市三兴高新材料有限公司 Clay powder for improving vulcanization processability of rubber and preparation method for same
CN103589005B (en) * 2013-10-17 2014-09-03 中科纳达控股有限公司 Preparation method of illite/montmorillonite mixed-layer clay/natural rubber compounded rubber
CN103589005A (en) * 2013-10-17 2014-02-19 中科纳达控股有限公司 Preparation method of illite/montmorillonite mixed-layer clay/natural rubber compounded rubber
CN103709794A (en) * 2014-01-15 2014-04-09 郭凯 Method for preparing modified calcined coal kaolin for rubber by employing solution method
CN104844831A (en) * 2015-05-14 2015-08-19 江苏玖川纳米材料科技有限公司 Method for producing special smell-controlling mineral reinforced material for regenerated rubber
CN104844831B (en) * 2015-05-14 2017-10-27 江苏玖川纳米材料科技有限公司 A kind of production method of the special control taste mineral supporting material of reclaimed rubber
CN105176143A (en) * 2015-08-18 2015-12-23 苏州润佳工程塑料股份有限公司 Surface modification method for inorganic powder used for thermoplastic
CN108779388A (en) * 2016-03-22 2018-11-09 沙特阿拉伯石油公司 The in-situ preparation of nanoclay drilling fluid
CN106830780A (en) * 2016-12-27 2017-06-13 高州市兆翔新材料有限公司 A kind of novel nano kaolin
CN106883451A (en) * 2016-12-29 2017-06-23 高州市兆翔新材料有限公司 A kind of nano kaoline
CN107510624A (en) * 2017-08-24 2017-12-26 广州聚注通用技术研究院有限公司 A kind of adsorbed film
CN108824090A (en) * 2018-08-07 2018-11-16 苏州华龙化工有限公司 A kind of filter paper and preparation method thereof for ultra-clean baking oven
CN114572991A (en) * 2022-03-17 2022-06-03 南方科技大学 Nano kaolin powder and preparation method thereof
CN114572991B (en) * 2022-03-17 2023-12-19 南方科技大学 Nano kaolin powder and preparation method thereof

Also Published As

Publication number Publication date
CN1250654C (en) 2006-04-12

Similar Documents

Publication Publication Date Title
CN1250654C (en) Nanometer kaolinite powder and preparing method thereof
EP0461768B1 (en) Defined and delaminated kaolin product
CN100500563C (en) Method for purifying superfine montmorillonite
AU642244B2 (en) High opacity defined kaolin product and method of producing same
Zhou et al. Purification and defibering of a Chinese sepiolite
CN101230210B (en) Method for preparing organic modified silicate mineral clay
CN109810294B (en) Preparation method of high-end nano calcium carbonate for butyl rubber products
CN103012850B (en) One-step process for preparing surface organic modified nanometer mineral fiber
CN111269606B (en) High-purity high-thickening easy-to-disperse nano montmorillonite used in water-based paint field and preparation method thereof
CN107082434A (en) A kind of sepiolite purification and organically-modified one-step technology
CN113213501B (en) Kaolin rich in potassium and sodium and preparation method thereof
US6514333B1 (en) Preparation and use of high brightness kaolin pigments
CN1278987C (en) Natural alta-mud modification method
CN113122023A (en) Method for preparing pigment and filler for composite material by using black talc
CN103146026B (en) Clay powder for improving vulcanization processability of rubber and preparation method for same
WO2007092421A2 (en) A method of treating an aqueous suspension of kaolin
CN1506305A (en) Production process of nano rod-like active silica with attapulgite and clay
CN113307280B (en) Method for normalizing quality of attapulgite product
CN114481697A (en) Brucite composite material and preparation method and application thereof
Buntin Ceramics Based on Nano-Modified Alumino-Silicates
CN1566219A (en) Illite mineral composition and preparation method and application thereof
CN1704374A (en) Process for preparing high-purity superthin high-whiteness kaolin
CN1398925A (en) Mechanical and chemical stripping process for preparing superfine kaolin
CN1255346C (en) Preparation method of superfine high-purity high-whiteness quartz powder
CN113666381B (en) Preparation method of clay mineral for molecular sieve

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20060412

Termination date: 20141224

EXPY Termination of patent right or utility model