JPH0360101A - Resin bonded permanent magnet - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

Detailed Description of the Invention [Industrial Application Field 1] The present invention relates to a resin-bonded permanent magnet, and more specifically, a resin-bonded permanent magnet made by uniformly dispersing ferromagnetic powder in a matrix made of a thermoplastic resin. In type permanent magnets,
The present invention relates to a resin-bonded permanent magnet that has improved characteristics without impairing its excellent magnetism by using a specific resin-bound material as the matrix.

[Problem to be solved by the prior art and the invention 1 Resin bonded permanent magnet, so-called plastic magnet (hereinafter referred to as "
It is abbreviated as "Pramag". ) is obtained by mixing ferromagnetic powder and resin as a matrix and then molding it, and has the following characteristics compared to sintered magnets.

(+) 91 Excellent workability in the manufacturing process, with less occurrence of chips and cracks.

(ii) The product (+i-shaped product) has good dimensional accuracy and high strength.

In recent years, plastic mags have been used in large quantities because of their excellent characteristics, but along with this, it is desired to further improve the mechanical strength of the layer, especially the impact strength.

[Means for solving the problem] In view of the above-mentioned circumstances, the inventors of the present invention have made extensive studies and found that, although polyamide is generally used as a matrix in plastic mags, a specific amount of a specific 04WI is blended into this. The inventors have discovered that when used as plastic magnets, the impact characteristics can be improved without any damage to the plastic magnets, and the present invention has been achieved.

That is, the gist of the present invention is to provide a material made of thermoplastic resin.
A resin-bonded permanent magnet formed by uniformly dispersing ferromagnetic powder in a 77-magnet, comprising 1 to 35% by weight of a polyolefin polymer having an IJ Fuchs polar group and 99 to 65% by weight of polyamide. The present invention resides in a resin-bonded permanent magnet characterized by the following.

The present invention will be explained in detail below.

The ferromagnetic powder used in the tHM bonded permanent magnet of the present invention is not particularly limited, and any known ferromagnetic powder commonly used in plastic magnets can be used.

Specifically, for example, 7elai), 5s2(Co, Fe
, Cu, Zr)+t, 3+*Cos, etc.
o Nd-Fe- such as 1i earth magnet, NdzFezB, etc.
Examples include B-based rare earth magnets. These ferromagnetic materials are usually used after being crushed to a size of 100 μm or less.

The matrix made of a thermoplastic resin used in the resin-bonded permanent magnet of the present invention is made of polyamide and a polyolein polymer having a polar group.

As polyamide, polyamide I/6, polyamide V6-
6. Various polyamides such as polyamide 6-10 and polyamide 12 can be used, but polyamide 12 is usually used.
is preferably used.

In the present invention, a so-called activated polyolefin is suitably used as the polyolefin polymer having a polar group. Activated polyolefin is a polymer of a-olefin such as ethylene, propylene, butene, or a copolymer thereof. Random copolymerization, alternating copolymerization, pro-olefin polymer, etc. - Obtained by introducing a compound having a polar group such as maleic anhydride by copolymerization means such as polycopolymerization and graft copolymerization. As such activated polyolefin, usually 0.1 to 5% by weight of a compound having a polar group such as an acid anhydride group, an organic acid group, an epoxy group, an oxazoline group, or an ester group is introduced into the polyolefin polymer molecule. Activated polyolefins are preferably used.

By having a polar group in the polyolefin polymer molecule, it has good compatibility with polyamide. It is also possible to use an elastomer obtained by hydrogenating a synthetic rubber synthesized using EIIl&min as a monomer.

In the present invention, it is preferable to use a relatively soft polyolefin polymer, and it is particularly preferable to use an elastomer having a crystallinity of 30% or less.

The amount of the polyolefin polymer having a polar group used is 1 to 35% by weight, preferably 2% by weight of the total matrix (total of polyamide and polyolefin polymer having a polar group).
It is preferable to select from the range of 0 to 30% by weight. The larger the amount of the polyolefin polymer having a polar group used, the greater the effect of improving impact properties, which is preferable, but if it exceeds 35% by weight, magnetic +! It is not preferable because the I(B H)ma decreases by 1, and if it is less than 1% by weight, it is not preferable because the impact properties are not significantly improved.

In the present invention, the larger the amount of ferromagnetic powder used, the better the magnet. However, if too much is used, molding becomes difficult and the W1 mechanical strength tends to decrease. 98% by weight or less, preferably 80-98% by weight of
The content is preferably in the range of 95% by weight.

The permanent magnet of the present invention can be manufactured according to the same method as conventionally known plastic magnets. For example, a matrix made of polyamide and a polyolefin polymer having a polar group and ferromagnetic powder are melted and mixed to uniformly disperse the ferromagnetic powder in a wide width of 7) l/γ, and then extruded into a predetermined shape. Alternatively, it can be manufactured by injection molding. The temperature for melting and forming is usually 250 to 3
The temperature is appropriately selected from the range of 00°C.

When ferromagnetic powder with large magnetic anisotropy is used, orientation treatment is performed by applying a magnetic field to the molten resin during molding, similar to conventionally known powders. This orientation treatment can also be carried out according to a conventionally known method.

[Example 1] Hereinafter, the present invention will be explained in more detail with reference to Examples.
The present invention is not limited to the examples unless it goes beyond the gist thereof.

In the examples, the crystallinity is J, Poly, Sci
,.

The Mooney viscosity is ML1□.
Measured at 100°C according to ASTM D-15.

Example 1 Ethylene (83wt 1%)-propylene (17wt%) copolymer [crystallinity 5%, melt index 1.0, Mooney viscosity 20] grafted with maleic anhydride (0.7wt%) 20% by weight of polymer and 1280% by weight of polyamide
After mixing the ferromagnetic powder, S@ with a particle size of 20 μ-
2(Coe, @s*F Coe 2@I Cua+,
I Z row os) + t was blended at 94% by weight based on the total amount, melted and kneaded using an extruder at 270°C, and then injection molded while applying a magnetic field of 10 KOe to obtain anisotropic properties. Obtained a permanent magnet. The magnetism and impact strength of the obtained permanent magnet were measured, and the results are shown in Table 1.

Example 2 As a polyolefin polymer having a polar group, maleic anhydride (0,7 (wt%) graft copolymer 201i11%
A permanent magnet was prepared in the same manner as in Example 1 except that g1
Built. The results are shown in Table 1.

Comparative Example 1 A permanent magnet was produced in the same manner as in Example 1 except that 100% by weight of polyamide 12 was used instead of using a polyolefin polymer having a polar group.

The results are shown in Table 1.

Table 1 [Effect of the Invention 1 According to the present invention, a resin-bonded permanent magnet can be obtained which has excellent magnetism, excellent workability in the manufacturing process, good dimensional accuracy of molded products, and excellent impact strength. It is industrially useful.

Claims (1)

[Claims] (1) A resin-bonded permanent magnet formed by uniformly dispersing ferromagnetic powder in a matrix made of thermoplastic resin,
A resin-bonded permanent magnet characterized in that the matrix is comprised of 1 to 35% by weight of a polyolefin polymer having a polar group and 99 to 65% by weight of polyamide.