JPS61238810A - Grafted composite - Google Patents

Abstract

PURPOSE:A grafted composite excellent in dispersibility in a solvent, a resin or the like and suitable for use in the field of, e.g., a magnetic recording material, obtained by graft-polymerizing a monomer containing an N-vinylcarbazole compound on a barium ferrite powder. CONSTITUTION:About several - 100mol% N-vinylcarbazole compound (e.g., N-vinylcarbazole) is mixed with a monomer copolymerizable therewith (e.g., methyl methacrylate or acrylonitrile). The resulting monomer mixture containing the N-vinylcarbazole compound is polymerized in the presence of a barium ferrite powder to obtain the purpose grafted composite composed of the barium ferrite powder grafted with the monomer containing the N-vinylcarbazole compound. This composite can be easily and uniformly mixed with a resin or the like and can be easily formed into a film or sheet excellent in mechanical strength.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] This invention relates to a graft composite obtained by graft polymerizing a monomer containing an N-vinylcarbazole compound to barium ferrite.

[Conventional technology]

Conventionally, Valitum 7 Elite has been used in various materials that utilize its properties as a ferromagnetic material, such as magnetic materials, magnetic recording materials,
It is used for many purposes such as microwave materials.

Molding barium ferrite, for example into a film,
When used in the form of a sheet or block, it is usually used as a mixture of barium ferrite and resin and coated on a substrate.

[Problem that the invention seeks to solve]

When trying to mix resin to mold barium ferrite, it has poor dispersibility in a solvent and is difficult to mix uniformly with the resin. Furthermore, there was a problem in that the mechanical strength of the molded product was also weak.

This invention was made to solve these problems, and it has good dispersibility in solvents and can be easily molded.
Therefore, the object of the present invention is to obtain a grafted composite of barium ferrite that can be used to obtain a molded product with strong mechanical strength.

[Means for solving problems]

The graft composite according to the present invention is obtained by graft-polymerizing a monomer containing an N-vinylcarbazole compound onto barium ferrite.

[Effect]

In this invention, when an N-vinylcarbazole compound is coagulated with barium ferrite in a solution, the N-vinylcarbazole compound polymerizes and forms a graft complex with barium ferrite.

In addition, when other vinyl monomers are present at the same time as the N-vinylcarbazole compound, a composite in which the copolymer is grafted can be obtained. These grafted composites are easy to mold and exhibit good dispersibility in solvents. , the mechanical strength of the molded product is strong.

〔Example〕

The barium ferrite used in this invention is usually used as a powder, and preferably has a particle size of μm.
Use the powder below.

The monomer containing an N-vinylcarbazole compound used in this invention is an N-vinylcarbazole compound? : Contains several moles to 100 moles, preferably 30 to 100 moles, and other monomer components such as methyl methacrylate, ethyl methacrylate, methyl acrylate, acrylonitrile, metacyclonitrile, vinyl acetate, styrene, etc. , contains a component that can be copolymerized with an N-vinylcarbazole compound.

Specific examples of N-vinylcarbazole compounds include N-vinylcarbazole, N-vinylk f2 A
/, p<9N-vinylcarbazole derivatives in which one or more hydrogen atoms in the benzene ring part of the sol skeleton are substituted with a chlorine atom, a bromine atom, a fluorine atom, etc. can be mentioned.

The graft polymer of this invention is
- Obtained by graft polymerization of a monomer containing a vinylcarbazole compound.

Note that the graft complex referred to in this specification refers to a monomer containing an N-vinylcarbazole compound in barium ferrite that is produced when a monomer containing an N-vinylcarbazole compound is polymerized in the presence of barium ferrite. This is a concept that refers to a complex in which polymers are grafted.

This graft complex is usually produced by contacting a monomer containing an N-vinylcarbazole compound with baritum 7 elite in a solvent.

Once the graft polymerization of the N-vinylcarbazole compound onto the barium ferrite begins, it has the ability to initiate the polymerization of other monomers that do not unite in the presence of the barium ferrite. Therefore, when other monomers such as vinyl monomers are included and polymerization is desired, and when it is desired to polymerize mainly the monomer, add a small amount of N-vinylcarbazole compounds, such as other monomers. The polymerization may be started in the presence of barium ferrite using about 20 moles of the monomer, and then other monomers other than the N-vinylcarbazole compound may be continuously polymerized.

When these other monomers are N-vinylcarbazole-based compounds, they may be polymerized without a solvent. The solvent used for polymerization may be any solvent that dissolves N-vinylcarbazole and does not interfere with the electrolytic alloy. Bayo<, 7'l-,
! Examples of solvents include aromatic hydrocarbon solvents such as toluene and benzene, alicyclic hydrocarbon solvents such as cyclohexane, and ether solvents such as tetrahydrofuran.

The polymerization is preferably carried out in the presence of barium ferrite by raising a 100% Makichi-100% monolid solution containing an N-vinylcarbazole compound to a predetermined reaction humidity, for example, 60 to 110°C. In this way, a graft complex of barium ferrite and a monomer containing an N-vinylcarbazole compound is obtained.

The filtering and reaction can be stopped by adding something that stops ionic polymerization, such as ethanol.

The resulting graft composite has good dispersibility in solvents such as toluene, and by using such a composite, it can be mixed uniformly with resin to create uniform coatings, sheets, and block molded products. be able to. In addition, by appropriately selecting copolymerization components, a thermoplastic graft composite can be obtained, so that bulk molded products can also be obtained.

The films, sheets, or molded products obtained in this way have high mechanical strength and have the properties of barium ferrite, so they can be used for many purposes such as magnetic materials, magnetic recording materials, and microphone e2 wave materials. .

Next, a description will be given based on one embodiment of the graft composite of the present invention.

Example 1 Barium ferrite powder 6 with an average particle size of about 0.08 μm
g was placed in a 200 rnt Erlenmeyer flask and dried for 8 hours at 80'C in a vacuum dryer. To this, 20 toluene
Add rnt and Baliwam 7 Elite Powder 11: JI! !
Made it muddy.

6 g of H-vinylcarbachy, A', was disintegrated into this, and the mixture was heated to 90°C and polymerized for 6 hours with stirring.

After adding methanol/I/100I11t to this to stop the polymerization, Soxhlet extraction was performed with methanol for 24 hours, and the polymerization yield was determined to be 8 seconds.

The obtained product was subjected to Soxhlet extraction with benzene for 24 hours to determine the grafting rate, which was found to be 2%. FTI of the obtained composite surface
When analyzed using R, 1483 am'' and 14
Absorption based on 52 cm K polymerized N-vinylcarbazole was observed. In addition, some of the complexes exhibited stable colloidal dispersion. It is thought that only the fine particles of the barium ferrite used exhibit such characteristics, and that large particles do not exhibit stable colloidal dispersion.

When the obtained composite is mixed with a polymethyl methacrylate solution and a polystyrene solution so that the solid content polymerization ratio is 171, and is uniformly dispersed to produce a film with a thickness of 3/Jm, barium ferrite that is not a composite is produced. Example 2 N-vinylcarbazole in Example 1 was replaced with N-vinylcarbazole.
- A graft polymer was obtained in the same manner as in Example 1 except that a 9N-vinylcarbazole derivative was used in which one hydrogen atom of the benzene ring moiety in the t-position of vinylcarbazole was replaced with a chlorine atom. .

Example 3 Substitution of toluene as a solvent in Example 1, DKN
- A graft composite 't- was obtained in the same manner as in Example 1 except that methyl methacrylate was used as the vinyl monomer other than the vinylcarbazole compound.

The polymerization yield of the grafted composites obtained in these five cases was 15%, and the grafting rate was 3%.

[Effects of the Invention] The graft complex of this invention contains barium 7 etite,
Monomers containing N-vinylcarbazole compounds are not graft-polymerized, and have good dispersibility in solvents69, and Resin Roru b is stably dispersed in resin solutions, and can be used to produce resins, etc. can be mixed easily and uniformly to obtain a dispersion with uniformly dispersed particles, resulting in a coating with strong mechanical strength! A+ sheet can be easily obtained.

In addition, molded products can be obtained, which can be advantageously used in fields such as magnetic materials, magnetic recording materials, and microwave materials.

Masuo Oiwa Procedural amendment iF (voluntary) July 8, 1985

Claims (1)

[Claims] A graft composite obtained by graft polymerizing a monomer containing an N-vinylcarbazole compound onto barium ferrite.