JP2000348958A - Manufacture of resin-bonded magnet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable a resin-bonded magnet to be naturally decomposed even if it is thrown away as it is and to prevent dioxins from originating from the magnet even if it is incinerated, by a method wherein a thermoplastic resin such as a biodegradable plastic or a non-halogen resin is mixed as a binder into magnetic powder, and the mixture is heated, softened, molded into a rod, and magnetized through a kneader-rooter. SOLUTION: Thermoplastic resin such as a biodegradable plastic and/or a non-halogen resin which contains no chlorine is mixed as binder into magnetic powder such as ferrite magnetic powder. The weight ratio of thermoplastic resin to the total weight is set at about 45 or less: 100 in a stage where a resin- bonded magnet is molded. The biodegradable plastic formed by the use of natural products is used as a biodegradable plastic, and a polyolefin resin is used as a non-halogen resin. A mixture of thermoplastic resin and magnetic powder is heated, softened, molded into rods, pellets, and sheets, and magnetized through a kneader-rooter, by which a resin-bonded magnet can be obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin-bonded magnet that considers the global environment,
The present invention relates to molding of a resin-bonded magnet that does not decompose spontaneously or does not generate dioxin when incinerated.

[0002]

2. Description of the Related Art Resin-bonded magnets are effective as magnets which are flexible and have good workability because magnetic powder is mixed into a thermoplastic resin material and heat-softened for molding.

[0003] The range of use of the resin-bonded magnet is as follows: at home, a steel surface such as a refrigerator or a washing machine; and at a company, a magnetic button or magnet is used for a magnetic surface such as a whiteboard or a steel locker, a desk, or a wall surface. It is generally widely used as a magnet product such as a bar, or as a beginner's mark of a car or a magnet for a motor.

[0004]

As described above, a convenient resin-bonded magnet product that can be freely attached and detached on a magnetic surface in our daily lives such as a company or a home is discarded once its use is completed. The dioxin problem caused by incineration has become a major social phenomenon.

Accordingly, the present invention provides a resin-bonded magnet which does not generate dioxin because it does not decompose spontaneously when discarded as it is after being used as a magnet, or does not contain chlorine even when incinerated. The purpose is to do.

[0006]

In order to achieve the above-mentioned object, a method for producing a resin-bonded magnet according to the present invention is characterized in that a biodegradable plastic or a chlorine-free non-halogen resin is used as a thermoplastic resin. It is characterized in that the mixture in the powder is heated and softened by a kneader-ruder, formed into a rod shape or a granular shape and a sheet shape, and magnetized to form a resin-bonded magnet.

The thermoplastic resin mixed into the magnetic powder is
In order to improve the moldability, a biodegradable plastic and a non-halogen resin containing no chlorine may be appropriately mixed and used as a binder.

The magnetic powder mixed with the thermoplastic resin is:
Ferrite magnetic powder or samarium (S
m) A synthetic magnetic powder containing a rare earth element such as neodymium (Nd), cerium (Ce), or prasedium (Pr) is appropriately mixed, and B · Hma, which is a unit of magnetic force, depending on the purpose of use.
A resin-coupled magnet may be formed into a ferromagnetic material in a stepwise manner depending on the mixing ratio of x from 0.2.

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION The resin-bonded magnet of the present invention uses a biodegradable plastic, a chlorine-free non-halogen resin or a thermoplastic resin obtained by mixing these as a binder as a thermoplastic resin as a thermoplastic resin corresponding to environmental problems. Mixed in.

The mixing ratio of the thermoplastic resin and the magnetic powder is determined at least when the thermoplastic resin as a binder is used to form a resin-bonded magnet at the stage of molding B.Hmax 0.2 which is a unit of magnetic force.
In order to maintain the above, it is set to 45% or less of the total weight.

The biodegradable plastic, which is a thermoplastic resin mixed into the magnetic powder, is a natural product-based biodegradable plastic such as starch and cellulose, natural polymers such as chitin, chitosan, and marine polysaccharides, and microorganism-producing plastics. Biodegradable plastics such as biopolyesters, curdlan, pullulan, bacterial cellulose, polyamino acids, etc., and chemically synthesized biodegradable plastics such as aliphatic polyesters and copolymers, polyurethane resins,
There are synthetic polymers such as polyamide resin, polyvinyl alcohol, and polyether, and synthetic polymers or photodegradable plastics that combine these natural product utilization systems, microbial production systems, and chemical synthesis systems.

Further, chlorine-free non-halogen resin which is a thermoplastic resin mixed into the magnetic powder includes synthetic resins such as polyolefin resin, polyamide resin, polyester resin, styrene resin, urethane resin and the like. There is a synthetic resin obtained by copolymerizing

Further, as magnetic powder, ferrite magnetic powder, alloy magnetic powder containing a rare earth element such as samarium (Sm), neodymium (Nd), cerium (Ce), prasedium (Pr), and magnetic powder obtained by mixing these magnetic powders There is.

The magnetic powder can be made into a ferromagnetic material stepwise from B.Hmax 0.2, which is a unit of magnetic force, depending on the purpose of use, depending on the mixing ratio.

A mixture of the thermoplastic resin and the magnetic powder is heated and softened by a kneader-ruder, formed into a rod shape, a granular shape and a sheet shape, and magnetized to obtain a resin-bonded magnet.

The molded resin-bonded magnet is made in consideration of the global environment, and when discarded after use, a resin-bonded magnet that does not decompose spontaneously or does not generate dioxin when incinerated can be obtained.

[0017]

As described in detail above, according to the method of manufacturing a resin-bonded magnet of the present invention, a resin-bonded magnet that can be freely attached to and detached from a magnetic material surface when used normally can be formed and used. It is extremely effective in consideration of the environment where dioxin is not generated even if it is later disposed of by natural decomposition or incineration.

Further, biofertilizer can also be obtained by mixing tourmaline or a fertilizer component and a soil activator in the production stage with the magnetic force of the magnet utilizing natural decomposition.

Ferrite magnetic powder, samarium (Sm), neodymium (Nd), cerium (Ce), and prasedium (Pr) may be used as magnetic powder mixed in the thermoplastic resin.
By mixing alloy magnetic powder containing rare earth elements such as
Depending on the purpose of use, the ferromagnetic material can be made into a ferromagnetic material stepwise from B.Hmax 0.2, which is the unit of magnetic force, according to its blending ratio.

Claims (10)

[Claims] 1. A biodegradable plastic which naturally decomposes as a thermoplastic resin is used as a binder, and a mixture mixed with a magnetic powder is heated and softened by a kneader-ruder to form a bar, a granule, and a sheet and magnetized. A method of manufacturing a resin-bonded magnet. 2. A non-halogen resin containing no chlorine as a thermoplastic resin is used as a binder, and the mixture mixed with the magnetic powder is heated and softened by a kneader-ruder to be shaped into a rod shape or a granular shape and a sheet shape and magnetized. A method of manufacturing a resin-bonded magnet. 3. A biodegradable plastic which naturally decomposes as a thermoplastic resin and a non-halogen resin containing no chlorine are mixed and used as a binder. A method for producing a resin-bonded magnet, which is formed into a granular shape and a sheet shape and magnetized. 4. A centrifugal separator or a Henschel mixer and a vibrating device are used to shape the molded resin-bonded magnet, and the magnet is formed into a spherical shape.
4. The production method according to 3. 5. The manufacturing method according to claim 1, wherein in a manufacturing stage, the magnet is formed into a rod shape, a granular shape and a sheet shape without magnetizing, and the shape is shaped and then magnetized. 6. The biodegradable plastic is a natural polymer based on a natural product such as starch, cellulose, chitin, chitosan, and marine polysaccharide, which are biodegradable plastics based on natural products.
Polymers such as biopolyester, curdlan, pullulan, bacterial cellulose, and polyamino acids, which are microbial biodegradable plastics; aliphatic polyesters and copolymers, polyurethane resins, and polyamide resins, which are biosynthetic plastics that are chemically synthesized 2. A synthetic polymer, such as polyvinyl alcohol or polyether, or a synthetic polymer obtained by combining these natural products, a microorganism producing system, or a chemically synthesized system, or a photo-degradable plastic. 3. The production method according to 3. 7. A non-halogen resin containing no chlorine as a thermoplastic synthetic resin is a polyolefin resin, a polyamide resin, a polyester resin, a styrene resin, or the like.
4. The method according to claim 2, wherein a synthetic resin such as a urethane resin and a synthetic resin obtained by copolymerizing the synthetic resin are used. 8. Ferrite magnetic powder, samarium (Sm), neodymium (Nd), cerium (C)
4. The method according to claim 1, wherein e) an alloy magnetic powder containing a rare earth element such as prasedium (Pr) and a magnetic powder obtained by mixing these magnetic powders are used. 9. The weight ratio of the resin-bonded magnet is at least 45% or less of the total weight of the thermoplastic powder as a binder with respect to the magnetic powder at the stage of molding the resin-bonded magnet. The method according to claim 1, wherein: 10. The production method according to claim 1, wherein tourmaline or a fertilizer component and a soil activator are mixed in the production stage, and the mixture is formed into a rod shape, a granular shape, and a sheet shape.