JPH05125402A - Metal powder injection-molding composition - Google Patents

Abstract

PURPOSE:To obtain a metal powder injection-molding composition capable of forming a sound and high-precision sintered body by specifying the composition of the composition consisting of a sintering powder and a binder consisting of a specified dispersant, wax and a thermoplastic resin. CONSTITUTION:A metal powder injection-molding composition is formed from the sintering powder of an elemental metal or alloy and a binder. In this case, the amt. of the sintering powder to be mixed is controlled to 35-70vol.% of the whole. The binder is formed with 0.5-15% of a dispersant consisting of polybutene having a functional group of iminium ion in its skeletal structure, the wax having 50-90 deg.C softening point and a thermoplastic resin having 100-300g/10min melt flow rate (ASTM D1236, 230 deg.C). The weight ratio of the wax to the thermoplastic resin is preferably controlled to 4:1 to 1:4. The composition is injection-molded and sintered, and a sintered body without any defect of deformation, etc., and excellent in dimensional precision is obtained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a composition for metal powder injection molding, more specifically, after injection molding of metal powder,
The present invention relates to a metal powder injection molding composition used for producing precision machine parts having a complicated shape by sintering.
The applicable metal is not particularly limited,
For example, powders of elemental metals and alloys such as iron-based, nickel-based, and copper-based materials can be given.

[0002]

2. Description of the Related Art Conventionally, a sintered product manufactured by a powder metallurgy method has been manufactured by a method in which a metal powder or a ceramic powder as a molding composition is simply press-molded and then sintered. However, with this method, it is difficult to manufacture a product having a three-dimensionally complicated shape and a product having a thin portion such as a knife edge portion. As a manufacturing method for solving such a difficulty, for example, there are methods disclosed in JP-A-57-16103 and JP-A-57-26105. These methods are roughly described as follows: An injection molding composition composed of a metal powder and a binder is injection molded into a mold having a predetermined shape, and the obtained molded body is heated to remove the binder and then sintered. It is a method for producing a sintered product of metal by applying a treatment. Usually, the composition required for an injection molding composition prepared by mixing a metal powder and a binder is a composition in which the metal powder is uniformly dispersed, and the metal powder and the thermoplastic resin are separated during the molding process. Do not do is an important characteristic. If this condition is not satisfied, various defects such as deformation, swelling, depression, and cracks due to non-uniform dispersion occur during binder removal or sintering.
However, the composition for metal powder injection molding disclosed in the above publication is not particularly satisfactory in dispersibility of metal, and tends to cause defects such as deformation during the binder removal treatment.

[0003]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and in the injection molding of precision parts using metal powder as a raw material, a metal powder injection molding composition By improving the dispersibility of the metal powder, it is possible to eliminate the occurrence of defects during binder removal processing and the deformation during sintering, and to obtain a sintered body that is sound and has excellent dimensional accuracy. It was made to provide a molding composition.

[0004]

Means for Solving the Problems As a result of intensive studies, the present inventor has found that a dispersant having an iminium ion as a functional group in a skeletal structure made of polybutene as a binder of a metal powder injection molding composition, It was found that the above problems can be solved by selecting waxes and thermoplastic resins. That is, the present invention is a composition for metal powder injection molding comprising a sintering powder composed of a single metal or an alloy and a binder, wherein the binder is an iminium ion as a functional group in a skeleton structure composed of polybutene. Wax containing 0.5 to 15% by volume with respect to the total amount of the binder and the sintering powder and having a softening point of 50 to 90 ° C. and melt flow rate (ASTM). D 1236, 230 ° C.) is 100 to 300 g / 10 min of a thermoplastic resin, and the total amount of the sintering powder is 35 to 70% by volume of the whole, a composition for metal powder injection molding. And
Also,

The waxes and the thermoplastic resin are metal powder injection molding compositions, characterized in that they are used in a ratio of 4: 1 to 1: 4 on a weight basis, and the waxes are paraffin. A metal powder injection molding composition comprising one or more of wax, microcrystalline wax, low molecular weight polyethylene wax, and modified wax,
In the composition for metal powder injection molding, any one of polyethylene, polypropylene, ethylene-vinyl acetate copolymer, ethylene-acrylate copolymer, polystyrene is used as the thermoplastic resin. is there.

[0006]

In the present invention, the moldability is controlled based on the factors for improving the binder removal property in injection molding and the defects such as deformation during sintering, based on the composition and the compounding ratio of the metal powder injection molding composition. It is the one. As the dispersant, a dispersant having an iminium ion as a functional group in a skeleton structure made of polybutene is used. This has the structure shown in Chemical formula 1 and has an iminium ion as a functional group,
This forms a weak bond (secondary bond) with the metal powder, thereby bridging the metal powder and the thermoplastic resin, preventing sedimentation of the metal powder due to gravity or separation from the binder, and dispersion of the metal powder. It improves the quality. Furthermore, since the compatibility with the thermoplastic resin is good, an extremely uniform composition for metal powder injection molding can be obtained. In the chemical formula 1, M is a functional group having an iminium ion.

[0007]

[Chemical 1]

The reason for limiting the compounding ratio of the dispersant to 0.5 to 15% by volume is as follows. That is, if the compounding ratio of the dispersant is less than 0.5% by volume, the effect of improving the dispersibility of the metal powder cannot be sufficiently obtained, resulting in a non-uniform injection-molded product, which tends to cause defects during binder removal and sintering. .. On the other hand, if it exceeds 15% by volume, the strength of the molded product is lowered and the molded product is easily broken when the molded product is taken out from the mold after the injection molding, and the injection molding work becomes very difficult. The dispersant preferably has a molecular weight of 10,000 or less. Molecular weight is 10,0
If it exceeds 00, the viscosity coefficient of the dispersant becomes high, the injection moldability of the kneaded product deteriorates, and molding becomes difficult.

The waxes contribute to improving the fluidity during injection molding, and examples of such waxes include paraffin wax, microcrystalline wax, low molecular weight polyethylene wax, and modified wax. When the softening point of the waxes is less than 50 ° C., the cycle time of the injection molding work becomes long, and the wax is easily softened, so that the workability at the time of injection molding is significantly reduced. Further, when the softening point of the waxes exceeds 90 ° C., the fluidity is lowered, and the thermal decomposition point is further raised, so that the binder removal property is lowered. The thermoplastic resin contributes to shape retention of the molded product after injection molding, and examples thereof include polyethylene, polypropylene, ethylene-vinyl acetate copolymer, ethylene-acrylate copolymer, and polystyrene. You can Melt flow rate (hereinafter abbreviated as MFR) of thermoplastic resin is 100 g / 1
When it is less than 0 minutes, the injection moldability becomes unsatisfactory, while when it exceeds 300 g / 10 minutes, the strength and shape retention of the injection molded product deteriorate.

The reason for setting the mixing ratio of the sintering powder made of a single metal or alloy in the metal powder injection molding composition to 35 to 70% by volume is as follows. That is, when the mixing ratio of the powder for sintering a single metal or alloy in the composition for metal powder injection molding is less than 35% by volume, it becomes difficult to secure the fluidity of the composition for metal powder injection molding, and the injection molding work is difficult. In addition to that, it becomes difficult to increase the density of the final sintered part because the filling degree of the metal powder in the injection molded body becomes low. On the other hand, when the compounding ratio of the powder for sintering a single metal or alloy in the composition for metal powder injection molding exceeds 70% by volume, the strength of the injection molded body is lowered, or the flow of the composition for metal powder injection molding is reduced. And the injection molding work becomes difficult. The mixing ratio of the waxes in the binder and the thermoplastic resin is limited to the range of 4: 1 to 1: 4 by weight. A particularly preferred range is a weight ratio of 3: 1 to 1: 3.
When the amount of waxes is more than 4: 1, the strength of the injection-molded product is reduced and it becomes impossible to maintain the shape of the molded product. On the contrary, when the thermoplastic resin is more than 1: 4, the viscosity coefficient of the composition for metal powder injection molding becomes high, which makes the injection molding work difficult and the binder removal treatment extremely difficult.

When carrying out an injection molding operation using the composition for metal powder injection molding of the present invention, equipment usually used,
The device can be used as it is. The heating temperature of the molded body at that time is 80 to 200 ° C., and the injection pressure is 500.
It is about 2000 kg / cm ² . The binder contained in the injection-molded article is then debindered in various atmospheres. The product rate of the injection-molded body during normal injection-molding work is about 25 to 85% by volume,
Therefore, the remaining 75 to 15% (mainly sprue part,
The runner part) is used again in the injection molding operation, and the product is produced in the same ratio, and the rest is recycled again. Such recycling is usually repeated several times. Further, when a precision molded article using the composition for metal powder injection molding of the present invention is subjected to binder removal treatment, in the case of a metal that is easily oxidized, it is difficult to be oxidized under an atmosphere of an inert gas or a reducing gas. In the case of a metal, the binder removal treatment can be performed by heating to 250 to 300 ° C. at a temperature rising rate of about 12 to 30 ° C./h in the atmosphere or an atmosphere of an inert gas.

[0012]

EXAMPLE Carbonyl iron powder having an average particle size of about 5 μm,
After mixing and kneading with the binders having the compounding ratios of Examples 1 to 6 shown in Table 1, injection molded bodies and sintered products having a gear shape with a pitch circle diameter of 20 mm, a thickness of 5 mm and a number of teeth of 18 were manufactured. .. The binder was compounded as follows. That is, as a dispersant having an iminium ion as a functional group, Zeofine AT-02 (trade name) (molecular weight 1000) manufactured by Nippon Zeon was used. As waxes, paraffin wax, microcrystalline wax,
Low molecular weight polyethylene wax and modified wax were used. The modified wax used had a softening point of 70 ° C. As the thermoplastic resin, polyethylene, polypropylene, ethylene-vinyl acetate copolymer, ethylene-acrylate copolymer, or polystyrene was used. The polypropylene used had an MFR of 200 g / 10 minutes. The mold used was a pinpoint gate type mold as shown in FIG. That is, a mold having a shape corresponding to the gear 1, the pinpoint gate portion 2, the runner portion 3 and the sprue portion 4 was used. The injection speed of injection molding was 100 mm / sec.

The injection moldability was evaluated by the presence or absence of defective filling in the mold, cracks in the molded product, and breakage of the molded product when taken out from the mold. The survey results are summarized in Table 1 together with the comparative examples. Further, the injection-molded body is heated in the air stream to remove the binder, and the binder remaining amount is 1% of that of the molded body.
After the binder removal treatment was performed until the content became less than or equal to wt%, the appearance of the binder removal treated molding was observed. Next, these binder-removed bodies were subjected to a sintering treatment in vacuum at 1350 ° C. for 2 hours. The presence or absence of deformation of the sintered body obtained as described above was measured. The target size in this case is 20 mm which is the diameter of the pitch circle.

Next, the same applies when the dispersant of the present invention is not used (Comparative Example 1) and when the same dispersant as in the Examples of the present invention is blended in excess of the upper limit (Comparative Example 2). A binder removal treatment and a sintering treatment were performed. further,
Carnauba wax was used as before without using the dispersant of the present invention (Comparative Example 3) and (Comparative Example 4). It was also written in 1. As is clear from Table 1, when the composition for metal powder injection molding according to the present invention is used, the injection molding property is good and there are no defects during binder removal processing and sintering, and the obtained sintered body is obtained. The variation width of the dimension of 1
It was able to be greatly reduced to / 3 to 1/10.

[0015]

[Table 1]

[0016]

As described above, by using the composition for metal powder injection molding according to the present invention, a final sintered product having no defects can be manufactured with high dimensional accuracy.

[Brief description of drawings]

FIG. 1 is a perspective view showing a gear immediately after being molded in a mold using the composition for metal powder injection molding of the present invention.

[Explanation of symbols]

 1 gear 2 pin point gate part 3 runner part 4 sprue part

Claims (4)

[Claims] 1. A metal powder injection molding composition comprising a sintering powder composed of a single metal or an alloy and a binder, wherein the binder comprises an iminium ion as a functional group in a skeleton structure composed of polybutene. With a dispersant,
0.5 to 1 relative to the total amount of binder and sintering powder
Waxes containing 5% by volume and having a softening point of 50 to 90 ° C. and a melt flow rate (ASTM D 123
6,230 ° C.) is 100 to 300 g / 10 min of the thermoplastic resin, and the total amount of the sintering powder is 35% of the total.
A composition for metal powder injection molding, characterized in that the composition comprises from 70% by volume. 2. The wax and the thermoplastic resin are
The composition for metal powder injection molding according to claim 1, which is used in a ratio of 4: 1 to 1: 4 on a weight basis. 3. The metal powder injection molding according to claim 1, wherein one or more of paraffin wax, microcrystalline wax, low molecular weight polyethylene wax and modified wax is used as the wax. Composition. 4. The thermoplastic resin, polyethylene, polypropylene, ethylene-vinyl acetate copolymer,
2. The composition for metal powder injection molding according to claim 1, wherein one of ethylene-acrylate copolymer and polystyrene is used.