KR20010038677A - Fibre with Magnetic Property - Google Patents

Abstract

PURPOSE: Fibers having magnetic characteristics obtained by incorporating a magnetic body which has electromagnetic absorbing performance, antibacterial materials and far infrared radiation radioactive materials into fiber are provided, which help human being to maintain healthy. CONSTITUTION: Fibers having a magnetic body are prepared by mixing 0.3 to 10% by weight of magnetic body powder having electromagnetic absorbing performance and high magnetic permeability with synthetic resin such as polyester, nylon, acrylic resin, urethane, polypropylene by a polymerization method, a master batch method or a slurry method and spinning. And antibacterial materials and far infrared radiation radioactive materials are mixed with the magnetic body in a ratio of 1:2 to 2:1 to produce the title fiber.

Description

Fiber with Magnetic Properties {Fibre with Magnetic Property}

Recently, various functional fiber products have appeared, among them, functional fiber products with far-infrared rays, antibacterial, deodorant, and deodorant functions related to health are the mainstream. Is being studied.

The present invention is to produce a functional fiber product having magnetic properties by adding a magnetic powder to a fiber yarn when manufacturing various fibers, the fine magnetic field present in the human body is disturbed from external magnetic waves by using the fiber product of the present invention By helping to alleviate the nervous system, immune system and hormonal system controlled by the fine magnetic field is to help to maintain a healthy state. Indeed, as the progress of information society accelerates, the use of electronic devices around us is increasing rapidly, and the harmfulness of electromagnetic waves is a problem. Excessive exposure to these harmful electromagnetic waves can cause cancer, leukemia, obscurity, and many studies have been published.

The present invention is to take advantage of the magnetic properties of the magnetic powder to create a product that is beneficial to keep the human body in a healthy and comfortable state to give a magnetic property that can absorb the electromagnetic waves by using the fiber products that are always used around us will be.

In other words, the manufacture of the fiber product is to produce a fiber product by mixing a magnetic material with excellent electromagnetic wave absorption ability in the fiber bundle. As a magnetic material having excellent electromagnetic wave absorption ability, a magnetic material having a high permeability is advantageous. A magnetic material having a high permeability is added to the fiber resin by precisely controlling the particle size so that the magnetic material having a high permeability is easily mixed with the fiber resin and spun. To manufacture products such as fibers or plastics by adding functional powders with antimicrobial and far-infrared radiation characteristics, such as Korean Patent Application No. 1989-005447, 1996-026502, 1996-061989, 1996-069458, 1996-082511, 1997- 003258, 1997-012986, 1997-017803, 1997-051911, 1997-042177, 1998-009463, 1999-0042694 and the like.

Existing functional textile products are far infrared, antibacterial and deodorant, and deodorant related products, and most of them are beneficial to the human body with their respective functions. In the present invention, the following are contemplated.

All living things, including human beings, live under the magnetic field formed by the giant magnets of the earth, and microscopic magnetic fields are formed in living bodies. Such a micro magnetic field of the living body can be considered to maintain the living body by harmonizing the dominant nervous system, immune system and hormone system. Of course, there is a magnetite in the human brain is known to have the ability to detect magnetic fields.

When the micro magnetic field of the living body is disturbed by the influence of the external magnetic field, when the micro magnetic field of the living body is disturbed by the external magnetic field, the control of the nervous system, immune system, and hormonal system that controls the living body is smoothly performed. Unsupported and inconsistent conditions result in living organisms becoming sick and promoting aging. Therefore, if the micro magnetic field of the living body can be prevented from being affected by such external magnetic waves, it will have a very beneficial result in maintaining the health of the living body.

Functional products using magnetic materials include products such as magnet yo, which are commercialized by attaching flat magnets at regular intervals in various places of the product, and there is a difference in local magnetic force. Disturbance may adversely affect the nervous system, immune system, and hormonal system described above, which may damage the health of the living body.

Another example of using a magnetic material is Korean Patent Application No. 1995-021596 for a method of using a magnetic material by heat treatment at high temperature with a bioceramic to form a ceramic molded body and use it as a bucket, a food storage container, a bed or a vase. .

What is to be achieved in the present invention is to prepare a fiber product controlled by the desired magnetic content and magnetic properties by adding the magnetic powder to the fiber manufacturing process, the fiber produced by the present invention is a uniformly distributed magnetic material when using a variety of products produced By reducing the magnetic waves that can disturb the magnetic field of the living body from the outside to maintain the nervous system, immune system and hormonal system of the living body.

In addition, humans, as can be seen in the classification of ideological constitution, each individual has a different constitution or health status. Therefore, it would be the most effective way if each individual could use the product with the magnetic characteristics suitable for each person.

In order to make such fibers, it is necessary to use a magnetic material with strictly controlled magnetic properties and particle size. As a magnetic material having such characteristics, it is preferable to use a soft magnetic material having a high permeability that is easy to magnetize in a magnetic field. Such soft magnetic materials having high magnetic permeability include ferromagnetic metal powders such as iron, nickel, and cobalt, or iron group transition metals such as titanium, vanadium, chromium, manganese, and copper, and silicon, aluminum, silver, tungsten, molybdenum, and niobium. Alloys added thereto, or ferrites such as manganese, iron, nickel, cobalt, copper, and magnesium to which nonmagnetic zinc ferrite is added as an oxide.

The present invention relates to a magnetic body-containing fiber manufactured by adding magnetic fine powders having high electromagnetic wave absorption ability of which magnetic properties and particle size are strictly controlled in a fiber manufacturing process to be uniformly distributed in the fiber.

The magnetic material of the present invention may be a ferrite made of a solid solution by mixing an excessive iron component or mixing zinc ferrite in a single ferrite such as oxide manganese, iron, cobalt, nickel, copper, magnesium. In addition, fine powder of metal iron powder or iron alloy, fine powder of metal cobalt powder or cobalt alloy, fine powder of metal nickel powder or nickel alloy may be used. In particular, when the metal-based fine powder is used, the surface is easily oxidized and there is a fear of magnetic loss. Therefore, it is recommended to use a fine metal powder which has been treated to prevent surface oxidation well by making a protective film on the surface in advance. The coercivity of these oxide-based magnetic materials is generally in the range of 100 A / m or less, the initial specific permeability is 400-1,500 and the maximum specific permeability is about 1,000-5,000. The coercive force of the metal-based magnetic material is generally 10 A / m or less, and the initial specific permeability is 1,000 to 100,000 and the maximum specific permeability is about 10,000 to 1,000,000.

In addition, it is preferable to select a magnetic material that does not contain harmful ingredients because the fiber products are in direct contact with the human body.The particle size of the fiber product must be strictly controlled in order to have the feel, tensile strength, surface smoothness and other characteristics of the fiber product. Controlled magnetic powder must be used. Therefore, when manufacturing the apparel fiber yarns using the above-mentioned magnetic material, the particle size is preferably about 0.7 ㎛ or less, the maximum particle size of 2.0 ㎛ or less, 5 denier, 7 denier, 15 used as cotton or wig yarn, etc. In the case of fibers having a large fiber diameter such as denier and 50 denier, even if the particle size increases depending on the fiber thickness, the workability and the properties of the fiber are not severely impaired. However, the smaller the particle size in terms of electromagnetic wave blocking effect or the physical properties and workability of the fiber, the better the use of the same amount of magnetic material as compared to the use of the magnetic material having a large particle size. Therefore, it is preferable to use the average particle size of magnetic material up to 1.5㎛ or less and the maximum particle size less than 5㎛ up to 7denier thickness, and the mean particle size of magnetic material less than 3㎛ and maximum particle size less than 10㎛ up to 50denier thickness It is preferable.

When the fiber product containing the magnetic material is made by the method of the present invention, the higher the magnetic content, the better the electromagnetic wave blocking effect, but when the content of the magnetic material is more than 10%, the fiber-specific properties such as tensile strength or surface smoothness cannot be satisfied. Difficulties in the manufacturing process are sharply worsened, so the economical advantage is less. If the content is less than 0.3%, the electromagnetic shielding effect is insufficient, so that the magnetic content of the fiber product is in the range of 0.3-10% by weight.

When manufacturing fibers containing magnetic material, in order to make the magnetic material uniformly mixed with the fiber, make a master batch chip in which the resin and the magnetic material are mixed in high concentration in advance, and do not add the general magnetic material again. It is possible to prepare a fiber product by mixing and then spinning so as to have a desired magnetic content with the chip, or by mixing the magnetic material from the polymerization step of the resin and spinning it again. Fibers can also be produced by mixing and spinning a resin and a magnetic material in a slurry state.

[Example]

Fibers were prepared as shown in Table 1 below using ferrite powder having an initial specific permeability of 1050, a maximum specific permeability of 3100, and a coercive force of 60 A / m.

<Table 1>

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Claims (5)

0.3% to 10% by weight of magnetic permeable powder with high permeability, which has the ability to absorb electromagnetic waves to synthetic resins such as polyester, nylon, acrylic, urethane, polypropylene and the like, by polymerization method, master batch method or slurry method, Fiber containing a magnetic substance, characterized in that spinning. According to claim 1, the magnetic material is a fine metal iron powder and iron-based composite ferrite or metal-based composite made of a solid solution by mixing an excess of iron components or a single ferrite such as manganese, iron, nickel, cobalt, copper, magnesium, etc. A fine powder of an alloy, a fine powder of a metal nickel, a fine powder of a nickel-based alloy, a fine powder of a metal cobalt, a fine powder of a cobalt-based alloy, or the like, or a fiber containing a magnetic body. The antimicrobial and far-infrared radiation characteristics of inorganic antimicrobial agent, chitosan, mica, illite, ocher, jade, charcoal, shaggy, activated carbon, synthetic ceramic, etc. together with the fine powder of magnetic substance in order to improve additional characteristics such as antimicrobial activity and far infrared radiation. Magnetic fibers containing a magnetic material, characterized in that the mixture with a magnetic material and a magnetic body in the range of 1: 2-2: 1. The particle size of the magnetic body according to claim 1, wherein the particle size of the magnetic body is an average of 0.7 μm or less, a maximum of 2.0 μm or less, and up to 7 denier, an average of 1.5 μm or less, a maximum of 5.0 μm or less and an average of 3.0 μm or more for fibers of 7 denier. Hereinafter, the fiber containing a magnetic body characterized by the maximum of 10 micrometers or less. A fiber fabric containing a magnetic material, characterized in that the fine powder of magnetic material according to claim 2 is coated on a fiber fabric containing no magnetic material using a urethane solution, sodium alginate solution, acrylic emulsion, or the like as a binder.