JP2000265237A - Ti MOLDED BODY CONTAINING FAR INFRARED RADIATION MATERIAL, AND ITS MANUFACTURE - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a Ti molded body which is used for personal ornaments, such as watchband and frame of spectacles, and contains far infrared radiation material, and its manufacturing method. SOLUTION: In the Ti molded body containing far infrared radiation material, ceramics as the far infrared radiation material is contained in an amount of 5-50 mass % in a pure Ti molding material. The Ti molded body containing the far infrared radiation material can be manufactured by mixing spongy Ti powder with ceramic powder and molding the resultant powder mixture by warm extrusion at >=1.5 extrusion ratio.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a wristwatch band,
The present invention relates to a Ti molded body containing a far-infrared ray radiating material used for jewelry such as a frame of eyeglasses, and a method for producing the same.

[0002]

2. Description of the Related Art Conventional wristwatch bands,
Tires are used for jewelry such as frames of glasses in terms of light weight and texture. As a manufacturing method, a method of processing after dissolving sponge Ti has been used. However, this method is inferior in productivity, and there is also a method of processing by reducing the sponge Ti powder and then processing by HIP processing. The method is costly due to the presence of a reduction step.

On the other hand, ceramics, which are far-infrared radiating materials, have a health promoting effect and are therefore incorporated in necklaces, shoe insoles and the like. This manufacturing method is a method of molding ceramic powder with a binder and attaching it to necklaces, shoe insoles, etc. This method is a mold molding using a binder, so the texture is bad and the strength is limited. is there.

[0004]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, the present inventors have made intensive developments, and as a result, when used as an accessory, it is possible to use a Ti molded body having a health promotion effect by far-infrared radiation effect at a low cost. It is intended to be provided to The gist of the invention is as follows: (1) A Ti molded body containing a far-infrared radiating material, characterized in that a pure Ti molding material contains 5 to 50 mass% of ceramics as a far-infrared radiating material. (2) A method for producing a Ti molded body containing a far-infrared radiating material, comprising mixing a sponge Ti powder and a ceramic powder and performing warm extrusion at an extrusion ratio of 1.5 or more.

Hereinafter, the present invention will be described in detail. By adding ceramic powder to the pure Ti molding material according to the present invention, high strength, good texture and far-infrared radiation characteristics can be simultaneously obtained, and any ceramic may be used. The radiation characteristics are large and preferable. This tourmaline has a particularly excellent effect among far-infrared radiation materials, and has a sufficient health promoting effect even in a small amount. If the ceramic content is less than 5 mass%, the effect of far-infrared radiation characteristics is low,
If it exceeds 50 mass%, high-density molding cannot be performed. Therefore, the content is set to 5 to 50 mass%.

Further, by directly extruding the sponge Ti, the Ti is plastically deformed and the surface is covered with an oxide, and the metals are brought into contact with each other so that high density molding is possible. Therefore, a reduction step such as HIP becomes unnecessary, and the extrusion temperature is set to HI.
It is possible even at a temperature lower than P, and the treatment can be performed in the air without fear of oxidation. In this way, a long molded body is possible, and forging and the like can be easily performed. If the extrusion ratio in this case is less than 1.5, high-density molding is not performed. The extrusion temperature at this time can be set as long as it is equal to or lower than the melting point, but is preferably 700 ° C. or lower because of the possibility of oxidation.

[0007]

The present invention will be specifically described below with reference to examples. Tourmaline powder 5 to sponge Ti powder
After mixing in the range of 60 mass% and filling in a copper capsule (φ30 × 50 mmL), the mixture was extruded at a temperature of 500 ° C. and an extrusion ratio of 1.2 to 1.5 (extruded from φ30 to φ25) at a strain rate of 1.0. / S was subjected to warm extrusion, and the formed body was subjected to outer peripheral processing, and then a round bar of φ24 × 70 mmL was obtained. The density and far-infrared radiation at that time were measured. Table 1 shows the results.

[0008]

[Table 1]

[0009] As shown in Table 1, No.
In Nos. 1 to 3, the density of the compact (the density of sponge Ti and tourmaline) was high because the ceramic content was 5 to 50 mass%, whereas Comparative Examples Nos.
In the case of No. 4, the amount of tourmaline was large and the extrusion ratio was as low as 1.0, and No5 was small in the amount of tourmaline.
Further, it can be seen that all of the compact densities are low because the extrusion ratio is low.

[0010]

As described above, the Ti molded product according to the present invention can produce a Ti molded product having a high density and far-infrared radiation characteristics at a low cost, and is lightweight and has good texture as an accessory. It has an extremely excellent effect as a Ti molded body having high strength and a health promotion effect by far-infrared radiation characteristics.

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) // C22F 1/00 612 C22F 1/00 612 673 673 685 685A 694 694A (72) Inventor Kazuya Hashimoto Hyogo Hyogo 3007 Nakajima character, Shima, Himeji City Sanyo Special Steel Co., Ltd. F term (reference) 4K018 AA06 AB10 AC01 BA03 BA20 EA31 GA01 JA07

Claims (2)

[Claims] 1. A Ti molded body containing a far-infrared radiation material, characterized in that a pure Ti molding material contains 5 to 50 mass% of ceramics as a far-infrared radiation material. 2. A method for producing a Ti molded body containing a far-infrared radiating material, comprising mixing a sponge Ti powder and a ceramic powder and performing warm extrusion at an extrusion ratio of 1.5 or more.