CN1915564A - Method for preparing ferrous powder dispersed by alumina in Nano level - Google Patents

Abstract

A process for preparing the iron powder reinforced by diffused aluminum oxide nanoparticles includes such steps as preparing the mixed solution of iron nitrate and aluminum nitrate, calculating the quantity of ammonia water needed by full deposition, adding the ammonia water, depositing, washing, drying, heating for decomposing the residual nitrate and transforming the iron hydroxide and aluminum hydroxide to iron oxide and aluminum oxide, reducing in H2 stream, die pressing and sintering.

Description

The method for preparing ferrous powder dispersed by alumina in Nano level

Technical field

The invention belongs to metal dispersion-strengtherning technical field, a kind of method that nano aluminum oxide dispersion is strengthened iron powder for preparing is provided.Adopt co-precipitation one drying one to add the technology of thermal decomposition one hydrogen reducing, combine relevant knowledges such as colloid chemistry inorganic chemistry and powder metallurgy, belong to the category of liquid phase system mixed metal powder.Be applicable to the production of the iron-based powder goods of each generic request good high-temperature performance or mechanical property.

Technical background

Dispersion-strengtherning particularly has high heat endurance and high hard high-strength oxide dispersion intensifying is the good method that metal improves high-temperature behavior and mechanical property.Oxide particle is tiny more, and the disperse more that distributes makes the performance of material improve obvious more.Oxide dispersion intensifying is at high property copper alloy, and there is extremely successful application in fields such as high temperature alloy.

At present, main mechanical alloying, interior oxidation, the technologies such as Ageing Treatment of adopting on preparation dispersed oxide material.And main employing Ageing Treatment and mechanical alloying in the production of iron-based disperse material.These two kinds of methods respectively have characteristics.But for low cost, easy to control, these require high-performance, then all are difficult to reach.

Technology contents

The object of the present invention is to provide a kind of method that nano aluminum oxide dispersion is strengthened iron powder for preparing, realized low cost, manageable preparation aluminum oxide dispersion strengthening iron powder.Prepare that the aluminium oxide even dispersion distributes, particle diameter is at the iron powder of 10-50nm.

Principle of the present invention is: the nano level size of utilizing ferric hydroxide colloid and alumine hydroxide colloid to have is charged electrical different at certain following of pH value with them, reaches the even mixing of their nano-scale.Generate nano level iron hydroxide and aluminium hydroxide micelle after ferric nitrate and the aluminum nitrate hydrolysis because they have positive electricity, thereby guaranteed initial reaction stage aluminium hydroxide particle size and evenly distribute.When reaction proceeded to pH value and reaches the isoelectric point of iron hydroxide, electrically becoming of two kinds of micelles was opposite, thereby attracts each other, and had guaranteed the size of aluminum hydroxide particles in subsequent technique is handled and evenly distributed.

The present invention disposes the mixed solution of ferric nitrate and aluminum nitrate at first as requested, calculates the amount that precipitates needed ammoniacal liquor fully.Add ammoniacal liquor and obtain precipitation, heating makes that iron hydroxide and aluminium hydroxide were transformed into iron oxide and aluminium oxide when remaining nitrate decomposed behind the cleaning-drying.The mixture of gained reduced in hydrogen stream promptly obtain ferrous powder dispersed by alumina in Nano level.Concrete processing step is as follows:

A, with ferric nitrate, aluminum nitrate and ammoniacal liquor are raw material.Earlier ferric nitrate and aluminum nitrate are configured to certain density solution, iron nitrate concentration is at 0.5-2.5mol/L; When raw material was amounted to into the quality of aluminium oxide and iron, the mass fraction that aluminium oxide accounts for was at 0%-5%;

B, will join that (this speed is when the solution that disposes is 1L in the mixed solution with 5-15ml/s speed in the ammoniacal liquor that calculates of ratio of precipitation fully, volume is not simultaneously by this ratiometric conversion), and then dropping ammonia is regulated pH value to 5-10, in the process that adds, stir, and after finishing, continue to stir 1-3 minute;

C, mixed precipitation adopted to clean earlier afterwards add thermal decomposition; Wash number is 3-6 time, and the temperature that adds thermal decomposition is 150-300 ℃.

The reduction of d, mixed oxide is carried out at 400-900 ℃, and the recovery time is 30-60min;

The invention has the advantages that:

1, technology is simple, without any need for main equipment, does not also have complicated operations in the whole process of production.

2, controllability is good.The control of a lot of conditions all has very large interval.Uniformity in product performance is good.

3, cost is lower, and is also relatively more friendly to environment.

4, since in process of production aluminium hydroxide surrounded by iron hydroxide, so the aluminium oxide on the iron powder surface that obtains is seldom, the powder of relative mechanical alloying has improved its processability greatly.

5, owing to operational characteristic, relative additive method, the probability that the above oxide particle of the alumina particle of larger particles, particularly micron occurs reduces greatly, thereby has effectively reduced the defective of material, has improved the performance of material.

Description of drawings

Fig. 1 is the secondary electron photo of mixed oxide powder of the present invention;

Fig. 2 suppresses the powder of gained at 800Mpa pressure, behind 1200 ℃ of sintering, and the distribution of alumina particle in the iron-based body.

Embodiment

Embodiment 1:1.0% aluminum oxide dispersion strengthened iron base

(1) takes by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 2.1 grams are configured to the 250ml mixed solution;

(2) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 8 finishing after with the speed of 10ml/s;

(3) precipitation that will obtain adds water to 1L, centrifugation, and triplicate;

(4) being deposited in 60 ℃ of baking ovens of will cleaning for the last time dried, and ℃ makes its decomposition in electric furnace adjusted temperature to 200;

(5) oxide after will decomposing reduces 45min in 600 ℃ hydrogen stream, obtains the iron powder that nano aluminum oxide dispersion is strengthened.

(6) the gained iron powder is suppressed at 800Mpa pressure, it is good to obtain properties of product behind 1200 ℃ of sintering.

Embodiment 2:2.0% aluminum oxide dispersion strengthened iron base

(1) takes by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 4.2 grams are configured to the 250ml mixed solution;

(2) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 6 finishing after with the speed of 5ml/s;

(3) with example 1;

(4) being deposited in 60 ℃ of baking ovens of will cleaning for the last time dried, and ℃ makes its decomposition in electric furnace adjusted temperature to 180;

(5) oxide after will decomposing reduces 30min in 700 ℃ hydrogen stream, obtains the iron powder that nano aluminum oxide dispersion is strengthened.(6) with example 1.

Embodiment 3:2.0% aluminum oxide dispersion strengthened iron base

A) take by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 4.2 grams are configured to the 250ml mixed solution;

B) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 8 finishing after with the speed of 5ml/s;

C) with example 1;

D) being deposited in 60 ℃ of baking ovens of will cleaning for the last time dried, and ℃ makes its decomposition in electric furnace adjusted temperature to 180;

E) oxide after will decomposing reduces 30min in 700 ℃ hydrogen stream, obtains the iron powder that nano aluminum oxide dispersion is strengthened.

(7) with example 1.

Embodiment 4:2.0% aluminum oxide dispersion strengthened iron base

A) take by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 4.2 grams are configured to the 250ml mixed solution;

B) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 10 finishing after with the speed of 5ml/s;

C) with example 1;

D) being deposited in 60 ℃ of baking ovens of will cleaning for the last time dried, and ℃ makes its decomposition in electric furnace adjusted temperature to 180;

E) oxide after will decomposing reduces 30min in 700 ℃ hydrogen stream, obtains the iron powder that nano aluminum oxide dispersion is strengthened.

(6) with example 1.

Embodiment 5:0.5% aluminum oxide dispersion strengthened iron base

(1) takes by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 1.05 grams are configured to the 250ml mixed solution;

(2) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 9 finishing after with the speed of 10ml/s;

(3) with example 1;

(4) being deposited in 60 ℃ of baking ovens of will cleaning for the last time dried, and ℃ makes its decomposition in electric furnace adjusted temperature to 250;

(5) with example 1.

(6) with example 1.

Embodiment 6:0.25% aluminum oxide dispersion strengthened iron base

(1) takes by weighing the pure Fe (NO of analysis ₃) ₃.9H ₂O 202 grams, Al (NO ₃) ₃.9H ₂O 0.5 gram is configured to the 250ml mixed solution;

(2) take by weighing ammoniacal liquor 100 gram of 25% mass fraction, add while stirring, continue dropping ammonia adjusting pH value to 9 finishing after with the speed of 7ml/s;

(3) with example 1;

The precipitation nature airing that (4) will clean for the last time ℃ makes its decomposition in electric furnace adjusted temperature to 200;

(5) oxide after will decomposing reduces 60min in 500 ℃ hydrogen stream, obtains the iron powder that nano aluminum oxide dispersion is strengthened.

(6) with example 1.

The aluminum oxide dispersion strengthened iron base part that last example is prepared, technology is simple, and control has excellent high and higher intensity hardness and wearability easily.

Claims (1)

1, a kind of method for preparing nano aluminum oxide dispersion reinforcement iron powder, it is characterized in that: processing step is:

A, with ferric nitrate, aluminum nitrate and ammoniacal liquor are raw material, earlier ferric nitrate and aluminum nitrate are configured to certain density solution, iron nitrate concentration is at 0.5-2.5mol/L, when raw material was amounted to into the quality of aluminium oxide and iron, the mass fraction that aluminium oxide accounts for was at 0%-5%;

B, will be in the ammoniacal liquor that calculates of ratio of precipitation fully with 5-15ml/s speed, this speed is when the solution of configuration is 1L, volume is not simultaneously by this ratiometric conversion, join in the mixed solution, and then dropping ammonia is regulated pH value to 5-10, in the process that adds, stir always, and after finishing, continue to stir 1-3 minute;

C, mixed precipitation adopted to clean earlier afterwards add thermal decomposition; Wash number is 3-6 time, and the temperature that adds thermal decomposition is 150-300 ℃;

The reduction of d, mixed oxide is carried out at 400-900 ℃, and the recovery time is 30-60min.