CN1683276A - Process for hydro-thermally synthesizing strontium-barium titanate ceramic powder at normal atmosphere - Google Patents
Process for hydro-thermally synthesizing strontium-barium titanate ceramic powder at normal atmosphere Download PDFInfo
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- CN1683276A CN1683276A CN 200510041841 CN200510041841A CN1683276A CN 1683276 A CN1683276 A CN 1683276A CN 200510041841 CN200510041841 CN 200510041841 CN 200510041841 A CN200510041841 A CN 200510041841A CN 1683276 A CN1683276 A CN 1683276A
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- strontium
- tio
- barium titanate
- compound
- barium
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Abstract
The present invention relates to normal pressure hydrothermally synthesizing process of strontium-barium titanate ceramic powder. The process includes hydrolyzing, separating and washing titanium compound in water solution of sodium hydroxide to obtain hydrated titanium oxide; mixing the hydrated titanium oxide, barium compound and strontium compound in the stoichiometric ratio inside alkali solution; normal pressure reflux reaction in protective inert gas atmosphere; and separating the reacted solution, washing and drying to obtain the strontium-barium titanate ceramic powder. The prepared strontium-barium titanate ceramic powder has homogeneous granularity and less impurity, and the present invention has simple technological process and low cost, and is suitable for industrial production.
Description
Technical field
The present invention relates to the multifunction electronic stupalith---the preparation method of titanate ceramic powder relates in particular to a kind of method of hydro-thermally synthesizing strontium-barium titanate ceramic powder at normal atmosphere.
Technical background
The perovskite typed titanate (is mainly: BaTiO
3, SrTiO
3, PbTiO
3, CaTiO
3) be a kind of dielectric substance, photoelectric material with high dielectric constant, have the characteristics of heavy body, high dispersion frequency, low dielectric consume, low-temperature coefficient.Single titanate material has mixed electronic and ionic conductance, makes it be widely used at aspects such as high-temperature superconducting thin film, catalysis, high temperature solid oxide fuel cell electrode materials, electrochemical sensor, multiple sull substrate material, special optical window and high-quality sputtering target materials.Doping or compound titanate stupalith have multi-functional characteristic, the product of making can have piezoelectricity, ferroelectric, conduction, semi-conductor, magnetic etc. respectively or have high-strength, high-ductility, characteristics such as high hard, wear-resisting, corrosion-resistant, high temperature resistant, high thermal conductance, thermal insulation or good biocompatibility are a class advanced person multifunctional ceramic materials.
Titanate is of many uses aspect electronic devices and components, is described as " pillar of electronic industry ".As be used to make ceramic insulating material, ceramic substrate material, the ceramic packaging material of chip and be used to make condenser ceramics, piezoelectric ceramics, ferrite magnetic material of electron device etc.Titanate is mixed and compoundly can also obtain being used to make dielectric resonator, the microwave ceramics of microwave integrated circuit substrate, element etc.Metatitanic acid alkali pottery also can be used for making the susceptibility stupalith to temperature, pressure, humidity, atmosphere, light etc.Titanate is carried out oxide-doped, can obtain temperature-sensitive, pressure-sensitive, humidity-sensitive material.The doping of lead titanate ceramics and composite modified then can the good piezoelectric ceramics of obtained performance.Difunctional doped titanate stupalith then has the quick characteristic of electric capacity and voltage simultaneously, can be used for surge and absorbs and overvoltage protection.The beginning of the eighties, company of Japanese TAIYO YUDAN and TDK company, U.S.'s Bell Laboratory and Dutch Fei Lipu company develop titanium oxide respectively, as SrTiO
3And TiO
2Capacitance-voltage sensitive resistor, its function are equivalent to the effect of an electrical condenser and a piezoresistor parallel connection.Therefore be called as the quick bifunctional material of capacitance-voltage.
The preparation method of titanate mainly contains: methods such as high-temperature solid phase reaction method, hydrothermal method, chemical coprecipitation, sol-gel.The solid phase calcination method is difficult to guarantee material homogeneity, high-temperature thermal oxidation process in the technology easily makes diffusant run off, diffusing capacity is wayward, the powder foreign matter content height that makes, chemical constitution has fluctuation, and size of particles is big, and size-grade distribution is wide, the sintering temperature height must adopt fusing assistant for reducing sintering temperature.Though improved method report is arranged, and the gained powder still can not satisfy the requirement that the high-performance electronic element is produced.In the liquid phase method, oxalic acid coprecipitation gained powder purity height, particle diameter are little, but complex process, production cost is higher; Carbonate precipitation method still needs the high-temperature calcination process; Urea-sodium hydroxide precipitator method are easily introduced alkali metal impurity.Organic method gained powder purity height, particle diameter are little, be evenly distributed, but the production cost height.Hydrothermal method can reduce temperature of reaction, and product purity height, particle diameter are little, are evenly distributed, cost is relatively low, and has accomplished advantages of nontoxic raw materials, harmless, and process is not polluted, the result does not produce the characteristics of Green Chemistry such as refuse, but has temperature of reaction height, big, the discontinuous shortcoming of pressure yet.
Summary of the invention
The method of the hydro-thermally synthesizing strontium-barium titanate ceramic powder at normal atmosphere that the object of the present invention is to provide that a kind of cost is low, technology is simple, is easy to realize that large-scale industrial is produced; the strontium-barium titanate ceramic powder purity height, the particle diameter that utilize this method to make are little, and epigranular, impurity are few.
Purpose of the present invention can realize by following measure:
A kind of preparation strontium-barium titanate Ba
0.6Sr
0.4TiO
3Method, comprise the processing step of following order: 1. under violent stirring, titanium-containing compound is added in the aqueous sodium hydroxide solution, hydrolysis, separation, washing obtain hydrated titanium oxide compound TiO
2NH
2O; 2. with hydrated titanium oxide compound TiO
2NH
2O, containing barium compound, contain strontium compound and in alkaline solution, mix, stir also heating; 3. under protection of inert gas, constant pressure hydro-thermal back flow reaction 1-10 hour; 4. separate mixed solution, and washing, dry isolate gets barium-strontium titanate powder.
Described titanium-containing compound is titanium sulfate Ti (SO
4)
2
Described containing barium compound is barium acetate Ba (AC)
2
The described strontium compound that contains is strontium acetate Sr (AC)
2
Described alkaline solution is a sodium hydroxide solution.
Described each raw material matches well ratio by the metering of designed chemical formula.
Described rare gas element is nitrogen or argon gas, and the rare gas element feeding is measured, and per minute is no less than 10 milliliters in per 500 ml solns.
The present invention compared with prior art has following advantage:
1, the present invention adopts the constant pressure hydro-thermal method to synthesize strontium titanate ceramic powder, and be reflected between ionic liquid phase and carry out, thereby sufficient reacting, product purity height, epigranular.
2, the present invention adopts the constant pressure hydro-thermal synthesis method, has overcome temperature height in the high pressure water thermal synthesis, big, the discontinuous shortcoming of pressure.
3, the present invention adopts the constant pressure hydro-thermal synthesis method, need not additive, catalyzer, has reduced the introducing of impurity, constant product quality and favorable reproducibility.
4, technology of the present invention simple, be easy to control, preparation cycle is short, production cost is low, energy consumption is little, non-environmental-pollution, production serialization, be easy to realize large-scale industrial production.
Embodiment
A kind of preparation strontium-barium titanate (Ba
0.6Sr
0.4TiO
3) method, be earlier with 97mL (0.5mol, the titanium sulfate (Ti (SO of ρ=1.234g/cm)
4)
2), under violent stirring, slowly drop in the 2mol/LNaOH solution of capacity, after hydrolysis is finished, separate, wash hydrated titanium oxide compound TiO
2NH
2O; Again with gained hydrated titanium oxide compound TiO
2NH
2O is transferred in many necks of 500mL bottle with 300mL distilled water, adds the barium acetate Ba (AC) of 76.5g (0.3mol) again in many necks bottle
2, 41.2g (0.2mol) barium acetate Sr (AC)
2And the NaOH solution of 60g (1.5mol), stir and feed nitrogen or argon gas with the flow of 20mL/min, be heated to boiling, back flow reaction 4 hours after reaction is finished, derives mixing solutions, separation, washing, dry strontium-barium titanate ceramic powder.Getting products obtained therefrom through x-ray diffraction pattern and chemical analysis side is pure phase strontium-barium titanate Ba
0.6Sr
0.4TiO
3
Claims (7)
1, a kind of preparation strontium-barium titanate Ba
0.6Sr
0.4TiO
3Method, comprise the processing step of following order: 1. under violent stirring, titanium-containing compound is added in the sodium hydroxide solution, hydrolysis, separation, washing obtain hydrated titanium oxide compound TiO
2NH
2O; 2. with hydrated titanium oxide compound TiO
2NH
2O, containing barium compound, contain strontium compound and in alkaline solution, mix, stir also heating; 3. under protection of inert gas, constant pressure hydro-thermal back flow reaction 1-10 hour; 4. separate mixed solution, and washing, dry isolate gets barium-strontium titanate powder.
2, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: described titanium-containing compound is titanium sulfate Ti (SO
4)
2
3, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: described containing barium compound is barium acetate Ba (AC)
2
4, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: the described strontium compound that contains is strontium acetate Sr (AC)
2
5, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: described alkaline solution is a sodium hydroxide solution.
6, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: described each raw material matches well ratio by the metering of designed chemical formula.
7, preparation strontium-barium titanate Ba as claimed in claim 1
0.6Sr
0.4TiO
3Method, it is characterized in that: described rare gas element is nitrogen or argon gas, and rare gas element feeds, and per minute is no less than 10 milliliters in per 500 ml solns.
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100404458C (en) * | 2005-11-23 | 2008-07-23 | 中国科学院上海硅酸盐研究所 | Zirconium dioxide mixed modified barium strontium phthalate-magnesium oxide base composite and preparation process thereof |
CN101786887A (en) * | 2010-03-11 | 2010-07-28 | 西北工业大学 | Method for preparing nano barium-strontium titanate powder by adopting hydrothermal method |
CN101786654A (en) * | 2010-03-04 | 2010-07-28 | 西北工业大学 | Method for preparing nanometer barium-strontium titanate powder |
CN102515263A (en) * | 2011-12-29 | 2012-06-27 | 洛阳理工学院 | Preparation method of barium strontium titanate stellar crystal |
CN109721354A (en) * | 2019-02-22 | 2019-05-07 | 广东工业大学 | A kind of barium strontium titanate (BST) thick film ceramic material and the preparation method and application thereof |
CN110451953A (en) * | 2019-09-02 | 2019-11-15 | 宝鸡文理学院 | A kind of controllable method for preparing of orientation barium strontium nano-multicrystal |
-
2005
- 2005-03-13 CN CN 200510041841 patent/CN1683276A/en active Pending
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100404458C (en) * | 2005-11-23 | 2008-07-23 | 中国科学院上海硅酸盐研究所 | Zirconium dioxide mixed modified barium strontium phthalate-magnesium oxide base composite and preparation process thereof |
CN101786654A (en) * | 2010-03-04 | 2010-07-28 | 西北工业大学 | Method for preparing nanometer barium-strontium titanate powder |
CN101786887A (en) * | 2010-03-11 | 2010-07-28 | 西北工业大学 | Method for preparing nano barium-strontium titanate powder by adopting hydrothermal method |
CN102515263A (en) * | 2011-12-29 | 2012-06-27 | 洛阳理工学院 | Preparation method of barium strontium titanate stellar crystal |
CN102515263B (en) * | 2011-12-29 | 2014-05-07 | 洛阳理工学院 | Preparation method of barium strontium titanate stellar crystal |
CN109721354A (en) * | 2019-02-22 | 2019-05-07 | 广东工业大学 | A kind of barium strontium titanate (BST) thick film ceramic material and the preparation method and application thereof |
CN110451953A (en) * | 2019-09-02 | 2019-11-15 | 宝鸡文理学院 | A kind of controllable method for preparing of orientation barium strontium nano-multicrystal |
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