JPS60116733A - Manufacture of special alloy by bonding of molten molecules under super-vibration - Google Patents

Abstract

PURPOSE:To obtain a uniform crystalline alloy which can be otd. only in a weightless state by applying the super-vibration of ultrasonic waves to a group of molten molecules liable to separate from each other. CONSTITUTION:A mixture of metallic starting materials 3 having different specific gravities is charged into a furnace 1 and melted by heating. When the mixture is melted, ultrasonic waves are generated from an ultrasonic oscillator 2, and the generation is continued until the molten mixture is solidified by cooling. Metallic molecules liable to separate from each other are collided on each other, and a uniform crystalline alloy which can be obtd. only in a weightless state is obtd.

Description

[Detailed Description of the Invention] This invention is an ultra-vibrating alloy that can be easily produced on the ground by using ultrasonic ultra-vibration in combination with a special alloy whose specific gravity difference could not be made into a uniform alloy due to gravity. It concerns a new manufacturing method tentatively named the Act.

Last year, the Telegraph and Telephone Corporation successfully produced a prototype of a uniformly crystalline semiconductor alloy in zero gravity by flying it into outer space using the U.S. Nubase Char, but it is not practical. The current situation is that production is at an end, and even in the world it is not possible.

Therefore, the purpose of this application is to provide a method for manufacturing a special alloy that combines the ultrasonic vibrations of ultrasonic waves to passionately bond molecules when melted, so that materials with different specific gravity can be alloyed regardless of gravity. There it is.

Embodiments of the present application will be described in detail below using the drawings.

■ indicates the furnace, and a high-frequency electric furnace is used. Reference numeral 2 indicates an ultrasonic oscillator, and an IUKHz-24KHz oscillator is provided at the bottom of the furnace so that ultrasonic vibrations are transmitted throughout the molten metal. 3
indicates the material of the raw material; for example, in the case of an alloy for semiconductor lasers, tellurium (specific gravity 11.8)! (specific gravity 7.3) is mixed.

In addition, raw materials of various quality are selected for each purpose.

In the structure described above, the ultrasonic wave 2 is applied to the trench where the raw material 3 in the furnace 1 is sufficiently melted at 1200'C to 1400''C by high-frequency heating and then cooled and solidified. It oscillates and the molten molecule 3″ is 10K HZ depending on its state.
By allocating ~24K II z, both molecules in a state that is easy to separate are actively stimulated to obtain a uniform crystalline alloy. Examples of special alloys for other uses include alloys of silicone and silicon for super-electromechanical memory cables, alloys of gallium arsenide, and alloys containing germaconium, selenium, and even rare earth elements for electronic devices. be.

This method of manufacturing alloys is especially indispensable when it comes to amorphous materials.

As described above, in the present invention, ultrasonic waves are applied to the raw material from the time it melts until it cools, solidifies, and crystallizes, and uses high heat and vibration to counteract the earth's gravitational pull and to remove special substances that could not be separated due to the difference in specific gravity. The iJ research is important as a vibratory alloying method that allows alloys to be easily produced on the ground in a general-purpose furnace.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention, and FIG. 1 is a schematic cross-sectional view of a high-frequency electric furnace. Furnace 2 Ultrasonic oscillator 3
····material

Claims (1)

[Claims] In the manufacturing method of a special alloy that could not be achieved in the 211 (gravity world) of the universe, multiple mixed raw materials with different specific gravities are melted by heating in a furnace, and ultrasonic waves are used in combination to separate them. A method for producing a special alloy that is characterized by the ability to easily produce a uniform crystalline alloy on the ground by arousing molecular groups.