CN103449387A - Method for preparing TiCN powder by using TiOSO4 as titanium source and cane sugar as carbon source - Google Patents
Method for preparing TiCN powder by using TiOSO4 as titanium source and cane sugar as carbon source Download PDFInfo
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- CN103449387A CN103449387A CN2013103812209A CN201310381220A CN103449387A CN 103449387 A CN103449387 A CN 103449387A CN 2013103812209 A CN2013103812209 A CN 2013103812209A CN 201310381220 A CN201310381220 A CN 201310381220A CN 103449387 A CN103449387 A CN 103449387A
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- tioso4
- ticn powder
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- cane sugar
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Abstract
The invention discloses a method for preparing TiCN powder by using TiOSO4 as a titanium source and cane sugar as a carbon source. The method comprises the following steps of: weighing TiOSO4 and cane sugar according a mass ratio of 1:(8-12), separately dissolving the TiOSO4 and the cane sugar into deionized water so as to prepare saturated solutions, uniformly mixing the saturated solutions together, then drying the mixed solution for 36-48 hours at 100-150 DEG C, so as to prepare a precursor, heating the precursor to be 1,300-2,000 DEG C under the protection of nitrogen atmosphere or ammonia decomposition atmosphere, preserving the heat for 1-2 hours and carrying out carbon thermal reduction and oxidation so as to prepare the TiCN powder. The purities of chemical agents and raw materials are all analytically pure or greater; the composition of the powder is controlled according to the ratio of added raw materials, and the purity and the granularity are codetermined by the material addition order and the preparation process. The method has the characteristics that the raw materials can be uniformly mixed, the process is simple, the synthesis temperature is low, the synthesis time is short, the energy is saved and the environment is protected.
Description
Technical field
The invention belongs to TiCN Preparation Technique of Powders field, particularly a kind of with TiOSO
4be respectively with sucrose the method that titanium source and carbon source prepare the TiCN powder.
Background technology
TiCN has high-melting-point, high rigidity, high-wearing feature and the special characteristics such as functional, not only be widely used in the reinforcement of grinding tool, cutting tool and matrix material etc., also as energy and material, be used widely, and have a wide range of applications in new function material.
Superfine Ti CN powder is badly in need of in the modern energy industrial development.Tradition TiO
2with the synthetic TiCN powder of high temperature reduction after the carbon solid phase mixing, with low cost but powder preparation is thicker; At present mainly to take pure titanium, titanium organism or gaseous titanium compound be raw material to superfine Ti CN powder, and with the preparation of the techniques such as vapour deposition, plasma heating, raw material and process costs are high, make superfine Ti CN powder expensive.Research and the low-cost preparation of application superfine Ti CN new technology are highly significant.
The TiCN powder that large-scale industrialization is produced at present is mostly 2 ~ 5 μ m, along with the development of modernization industry, and the especially development of energy industry, increasing to the demand of ultrafine powder TiCN, superfine Ti CN has higher using value, has a extensive future.But the superfine Ti CN powder of existing market supply is because raw materials cost and preparation technology's cost are high and expensive.Therefore the research of carrying out low-cost preparation ultrafine powder TiCN has very large realistic meaning.
The preparation of superfine Ti CN powder is the focus of material supply section scholar research, existing raw material aspect, the aspect of research, process aspect is also arranged.But diverse ways has its relative merits for suitability for industrialized production.
Direct carborization is with simple substance carbon, metallic titanium powder (or TiH
2) be raw material, at high temperature, in nitrogen-based atmosphere, the direct contact reacts of reactant generates TiCN, and product purity is high, the carbon metering is than large, and technological process is simple.But titanium valve is expensive, the preparation of purification ultrafine titanium powder is more difficult; Reaction process is difficult to be controlled, and the TiCN synthesized needs further grinding fragmentation, causes the purity drop of product, also will further purify, and makes the standby superfine Ti CN powder of this legal system obtain large-scale promotion.
Carbothermic method is the traditional method of TiCN powder suitability for industrialized production.This technique is with TiO
2for the titanium source, take graphite, carbon black, activated carbon etc. is the C source, under high temperature, nitrogen group protecting atmosphere, and TiO
2generated the TiCN powder by the C reduction.Advantage is: raw materials cost is low; Technique is simple, and production efficiency is higher; The granularity of TiCN is micron order.But raw material is poor by the mechanically mixing homogeneity; TiCN is also easily oxidized.With regard to current production technology, the powder synthesized can not meet the requirement of fine ceramics fully on granularity and purity.
Also have some other method to prepare superfine Ti CN, but generally have the high organic compound as high pure metal titanium valve, titanium of ingredient requirement etc.; The synthesis technique complexity, as need heating plasma, microwave heating, vapour deposition etc., appointed condition requires the problems such as high, and preparation method or complex process or output are limited, cause cost high.Exploitation high-level efficiency, TiCN ultrafine powder technology cheaply, remain the emphasis of countries nowadays scientist and business circles research.
Summary of the invention
The objective of the invention is to overcome the deficiencies in the prior art, provide a kind of with TiOSO
4be respectively with sucrose the method that titanium source and carbon source prepare the TiCN powder.
Concrete steps are:
(1) take TiOSO according to mass ratio 1:8 ~ 12
4with sucrose, be dissolved in respectively in deionized water and make saturated solution.
(2) two kinds of saturated solutions that step (1) made evenly mix, and then, by the mixing solutions that obtains under 100 ~ 150 ℃ dry 36 ~ 48 hours, make presoma.
(3) presoma step (2) made is heated to 1300 ~ 2000 ℃ under nitrogen atmosphere or ammonia dissolving atmosphere protection, is incubated 1 ~ 2 hour and carries out carbothermic reduction and nitrogenize, makes the TiCN powder.
The purity of described chemical reagent and raw material is analytical pure and above purity.
The composition of the prepared TiCN powder of the present invention is controlled by the proportioning that adds raw material, and the purity of powder and granularity are determined jointly by order of addition(of ingredients) and preparation technology.
The advantage of the inventive method:
(1) take sucrose as carbon source, with TiOSO
4for the titanium source, through carbothermic reduction and nitrogenize, high-purity, the superfine Ti CN of low-cost preparation.
(2) method for preparing TiCN with tradition is compared, and has that raw material mixes, technique is simple, synthesis temperature is low, generated time is short and the characteristics such as energy-conserving and environment-protective.
embodiment
embodiment:
(1) take 1 gram TiOSO
4with 10 gram sucrose, be dissolved in respectively in deionized water and make saturated solution.
(2) two kinds of saturated solutions that step (1) made evenly mix, and then, by the mixing solutions that obtains under 125 ℃ dry 42 hours, make presoma.
(3) presoma step (2) made is heated to 1650 ℃ under nitrogen atmosphere protection; be incubated and within 1.5 hours, carry out carbothermic reduction and nitrogenize; make the TiCN powder, gained TiCN powder is the superfine Ti CN powder that particle diameter is 150 ~ 300 nanometers through the testing graininess analysis.
The purity of described chemical reagent and raw material is analytical pure.
Claims (2)
1. a method for preparing the TiCN powder is characterized in that concrete steps are:
(1) take TiOSO according to mass ratio 1:8 ~ 12
4with sucrose, be dissolved in respectively in deionized water and make saturated solution;
(2) two kinds of saturated solutions that step (1) made evenly mix, and then, by the mixing solutions that obtains under 100 ~ 150 ℃ dry 36 ~ 48 hours, make presoma;
(3) presoma step (2) made is heated to 1300 ~ 2000 ℃ under nitrogen atmosphere or ammonia dissolving atmosphere protection, is incubated 1 ~ 2 hour and carries out carbothermic reduction and nitrogenize, makes the TiCN powder;
The purity of described chemical reagent and raw material is analytical pure and above purity.
2. the method for preparing the TiCN powder according to claim 1 is characterized in that: the composition of prepared TiCN powder is controlled by the proportioning that adds raw material, and the purity of powder and granularity are determined jointly by order of addition(of ingredients) and preparation technology.
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CN2013103812209A CN103449387A (en) | 2013-08-28 | 2013-08-28 | Method for preparing TiCN powder by using TiOSO4 as titanium source and cane sugar as carbon source |
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CN2013103812209A CN103449387A (en) | 2013-08-28 | 2013-08-28 | Method for preparing TiCN powder by using TiOSO4 as titanium source and cane sugar as carbon source |
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Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1559912A (en) * | 2004-03-02 | 2005-01-05 | 山东大学 | Preparation process for three elemental compound powder material of titanium carbonitride |
CN103130506A (en) * | 2013-03-15 | 2013-06-05 | 长沙伟徽高科技新材料股份有限公司 | Method for preparing superfine titanium carbonitride |
-
2013
- 2013-08-28 CN CN2013103812209A patent/CN103449387A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1559912A (en) * | 2004-03-02 | 2005-01-05 | 山东大学 | Preparation process for three elemental compound powder material of titanium carbonitride |
CN103130506A (en) * | 2013-03-15 | 2013-06-05 | 长沙伟徽高科技新材料股份有限公司 | Method for preparing superfine titanium carbonitride |
Non-Patent Citations (1)
Title |
---|
向军辉等: "溶胶-凝胶工艺合成Ti(C,N)超细粉末", 《无机材料学报》, vol. 13, no. 5, 31 October 1998 (1998-10-31), pages 739 - 744 * |
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Application publication date: 20131218 |