KR100536460B1 - The manufacturing method of sinter using zirconia - Google Patents

Abstract

In the present invention, ferrite is mixed into zirconia used for pars, medical devices, and the like, kneaded, and sintered with the addition of a sintering aid, and then magnetized and a titanium ion thin film is formed by an ion frying method. When used, the electrons move to the epidermis of the affected area to change the skin potential normally to remove the pain as well as to facilitate blood circulation, and to use the permanent magnet energy to relax the rigid muscles. Injecting ferrite into the zirconia to knead first (S1); Secondly kneading silicon carbide into the first kneaded kneaded product (S2), and adding a sintering aid to the second kneaded kneaded product (S3); Pressing and kneading the kneaded product into which the sintering aid is added (S4); Sintering the molded article in a vacuum firing furnace (S5); Polishing the sintered sintered body (S6); Injecting the polished sintered compact into a Gaussian magnetizer and magnetizing it (S7); Step of depositing a titanium ion thin film of the magnetized sintered body by the ion plating method (S8), and forming a through hole of a predetermined size in the center of the titanium ion thin film deposited sintered body, and installing a permanent magnet in the formed through groove (S9) ) Is a method for producing a sintered body using zirconia.

Description

Manufacturing method of sintered body using zirconia {The manufacturing method of sinter using zirconia}

The present invention relates to a method for producing a sintered body using zirconia used in pars, medical devices, etc. More specifically, ferrite is mixed with zirconia and kneaded, sintered by adding a sintering aid, and then magnetized and ion-flected. By forming the titanium ion thin film, if the sintered body is used for the pars, medical equipment, etc., the electrons move to the epidermis of the affected area to change the skin potential and remove the pain as well as smooth the blood circulation and permanent magnet energy. Will be available to relax the stiff muscles.

In general, 30 ~ 50mV current flows through the human body, which is called biocurrent, and it is possible to diagnose heart disease by drawing an electrocardiogram using the biocurrent generated in the heart and to diagnose EEG using the current generated in the brain. You can measure your health using the human body's current and voltage. If the human body's current and voltage are imbalanced, this will appear as pain and harm your health.

Normally, the human body has no pain, and the cell's ionic balance works normally, so sodium plus ion (Na ⁺ ) in the extracellular fluid holds about 10 times the concentration of the intracellular fluid. Sodium plus ions have a potential of 20 to 30mV.

In other words, pain, such as in the case of shoulder pain or scab pain, which is a painful and painful neuralgia, causes a change in cell membrane potential, resulting in a breakdown of the cell membrane, and a temporary inversion of sodium ions in the cell. This happens again, which is the outward action of sodium again, when repeated, the translocation of the dermis changes to (+) (-) (+) (-) and is transmitted to the brain as pain.

In such a state, when the ceramic sintered body is used, the dislocation of the dermis causes charging to the epidermis and the portion of the ceramic sintered body, the epidermis is reversed to the dermis, and the ceramic sintered body is reversed to the epidermis and eventually has the same potential as the dermis.

However, Korean Patent Publication No. 1999-30385, which was devised for such a function, relates to a `` parse composition, '' which relieves pain by coating gold on a sintered body composed mainly of metal titanium and silicon, and reuses it for one to two years. Although this was possible, there was a problem in that electrons were not sufficiently emitted only by mixing and sintering of metal titanium and silicon.

Accordingly, an object of the present invention is to inject and kneaded by adding ferrite to zirconia, and to sinter after adding a sintering aid, in order to solve the problems of the conventional ceramic sintered body that could not help much to change the potential of the human body By forming the titanium ion thin film by ion plating method, if the sintered body is used for the pars, medical equipment, etc., the electrons move to the epidermis of the affected area to change the skin potential and remove the pain as well as smooth the blood circulation. The present invention also provides a method of manufacturing a sintered body using zirconia, which can use permanent magnet energy to relax rigid muscles.

In order to achieve the above object, the method for producing a sintered body using zirconia according to the present invention comprises the steps of first kneading by adding 25 to 35% by weight of ferrite to 65 to 75% by weight of zirconia (S1); Secondly kneading 20-25 wt% of silicon carbide to 75-80 wt% of the first kneaded kneaded product, and 3-15 wt% of a sintering aid to 85-97 wt% of the second kneaded kneaded material Putting step (S3); Inserting the kneaded product into which the sintering aid is added, and pressing the mold to form a predetermined shape (S4); Sintering the molded article in a vacuum firing furnace at 1800 to 2100 ° C. (S5); Polishing the sintered sintered body (S6); Putting the polished sintered compact into a Gaussian magnetizer and magnetizing it in a range of 100 to 5000 gauss (S7); Step of depositing a titanium ion thin film of the magnetized sintered body by the ion plating method (S8), and forming a through hole of a predetermined size in the center of the titanium ion thin film deposited sintered body, and installing a permanent magnet in the formed through groove (S9) It characterized by including).

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings such that those skilled in the art can easily implement the present invention.

1 is a manufacturing process chart of the sintered body using the zirconia according to the present invention, primary kneading (S1), secondary kneading (S2) sintering aid input (S3), molding (S4), sintering (S5), polishing (S6), Magnetization (S7), titanium ion thin film deposition step (S8) and through groove formation, the research magnet installation step (S8).

First, ferrite is added to zirconia and kneaded first (S1), but if the blending ratio of zirconia is less than 65% by weight, it is difficult to change the skin potential, and if it exceeds 75% by weight, it is excessive and not economical, so it is 65 to 75% by weight. 25 to 35% by weight of ferrite is kneaded.

The zirconia (ZrO ₂ ) has a molecular weight of 123.22 and a melting point of about 2,700 ° C., and has a high refractive index and a high melting point, which is excellent in corrosion resistance, and thus is a material capable of being applied to high temperature semiconductors, high temperature structural materials, semiconductor members, and the like. Due to its zirconia, ferrite is an alloy element or impurity dissolved in iron of stable body-centered cubic crystal below 900 ℃. The function of zirconia as a solid solution is aided. After primary kneading (S1), when secondary kneading (S2) of 20 to 25% by weight of silicon carbide (SiC) is performed on 75 to 80% by weight of the first kneaded material, the silicon carbide has Excellent heat resistance, corrosion resistance, oxidation resistance, thermal shock resistance, etc. can be applied as a high-temperature semiconductor to help the action of zirconia.

When a certain amount of sintering aid is added to the second kneaded kneaded product (S3) to increase the sinterability of the kneaded product, but when the amount of the sintering aid is less than 3% by weight, the amount of liquid phase is insufficient to form a dense sintered compact and exceeds 15% by weight. Since the sinterability does not increase significantly any more, it is excessive and uneconomical, so that 3 to 15% by weight of the sintering aid is added to 85 to 97% by weight of the kneaded kneaded product, and aluminum oxide (Al ₂ O ₃ ), One of yttrium oxide (Y ₂ O ₃ ), bromine (B), and carbon (C) is selected and used.

The kneaded product into which the sintering aid is added is put into a mold and pressurized to be molded (S4) in a predetermined shape, and the molded product is sintered in a vacuum firing furnace (S5).

The molding method or the sintering method is to use a conventional method, and the form or method is not limited, but if the sintering temperature is less than 1800 ℃ sintering aid is not formed in the liquid phase, it is difficult to proceed sintering, exceeding 2100 ℃ If it is not economical, it is sintered in a vacuum firing furnace at 1800 ~ 2100 ℃.

After sintering, the sintered sintered body is polished (S6) to remove the fine pores generated on the surface of the sintered body, and the polished sintered body is put into a Gaussian magnetizer and magnetized (S7) in the range of 100 to 5000 gauss. By discharging, the magnetic field is generated to have the properties of permanent magnets.

At this time, if the Gaussian magnetizer is less than 100 gauss, the amount of current discharged momentarily is insufficient to obtain the properties of the permanent magnet. Therefore, the titanium sintered body is deposited by titanium ion thin film (S8) by ion plating method. Titanium ions reactivate and normalize the dislocation potential of human body pain to normalize the function of cells to relieve inflammation and pain, and remove wastes to promote blood circulation by removing clogged blood in the body. In addition, it has the effect of promoting metabolism.

As another embodiment of the present invention, after the titanium ion thin film deposition (S8), if the through-hole of a predetermined size is formed in the center of the titanium ion thin film deposited sintered body and the permanent magnet is installed in the formed through groove (S9), a more excellent permanent magnet It is also possible to form a method, and the method of adding the polished sintered body to the Gaussian magnetizer and magnetizing it in the range of 100 to 5000 gauss may be omitted.

delete

The sintered body using the zirconia of the present invention prepared by the above method is used in the pars, medical equipment, etc. to change the skin potential to a normal state and at the same time relieve the pain caused by the change of the cell membrane potential It can be used not only to facilitate blood circulation, but also to attach to panties, bras, soccer stockings, hats, ornaments, mats, belts, masks, and the like, without restricting the use thereof.

As described above, although the present invention has been described with reference to the above embodiments, it is not necessarily limited thereto, and various modifications can be made without departing from the scope and spirit of the present invention.

As apparent from the above description, according to the method for producing a sintered body using the zirconia of the present invention, the ferrite is mixed with zirconia, kneaded, and sintered with the addition of a sintering aid, and then magnetized and a titanium ion thin film is formed by ion fritting. By using the sintered body, such as a pars, a medical device, the electrons move to the epidermis of the affected area to change the skin potential normally to remove the pain, and to facilitate blood circulation, and to use permanent magnet energy. It can help you relax your stiff muscles.

1 is a manufacturing process diagram of a sintered body using zirconia according to the present invention

Claims (3)

In the manufacturing method of the sintered compact Adding and mixing 25-35% by weight of ferrite in 65-75% by weight of zirconia (S1); Secondly kneading 20-25 wt% of silicon carbide to 75-80 wt% of the first kneaded kneaded product, and 3-15 wt% of a sintering aid to 85-97 wt% of the second kneaded kneaded material Putting step (S3); Inserting the kneaded product into which the sintering aid is added, and pressing the mold to form a predetermined shape (S4); Sintering the molded article in a vacuum firing furnace at 1800 to 2100 ° C. (S5); Polishing the sintered sintered body (S6); Putting the polished sintered compact into a Gaussian magnetizer and magnetizing it in a range of 100 to 5000 gauss (S7); Step of depositing a titanium ion thin film of the magnetized sintered body by the ion plating method (S8), and forming a through hole of a predetermined size in the center of the titanium ion thin film deposited sintered body, and installing a permanent magnet in the formed through groove (S9) Method for producing a sintered body using zirconia, characterized in that it comprises a). delete delete