JPS6213245A - Production of thin composite sheet for acoustic apparatus - Google Patents

Abstract

PURPOSE:To easily obtain an oscillation material having high mechanical strength and corrosion resistance by discharging the melt of magnesium and the melt of a desired metal onto surfaces of rolling rolls and quickly cooling the same, thereby forming a thin composite sheet. CONSTITUTION:A Zr-Mg alloy is put into a vessel 1 and is heated by the gase ous argon admitted into the vessel through a gaseous argon introducing hole 2 to form the molten metal. An Sn-Cu alloy is put into a vessel 1' and is heated similarly by the gaseous argon admitted into the vessel through a gaseous argon introducing hole 2' to form the molten metal. Both molten metals are discharged onto the surfaces of cooling rolls 4, 4' by opening valves 3, 3'. Magne sium foil 5 and copper alloy foil 5' are press welded in the space part of the rolls 4, 4', by which the thin composite sheet 6 is obtd. The sheet 6 is coiled on a coiler 7 and the product is thus obtd.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention aims to obtain a magnesium composite thin plate for audio equipment having excellent mechanical strength by a molten metal quenching method.

[Conventional technology]

In general, magnesium foil is a base metal compared to ordinary metals, so it is considered important as a vibration material for audio equipment, and its demand is increasing, but it is inferior in strong summer and corrosive properties.
In order to improve this performance, composite thin plates have been used in which composite metal foils such as copper alloy foils and aluminum alloy foils are laminated on magnesium foils.

To obtain this composite thin plate, an ingot of magnesium or a magne-sium alloy (hereinafter referred to as magnesium) and an ingot of the composite metal are rolled separately to form a metal plate, and then both are rolled again. They were either rolled and crimped to form a composite thin plate, or individually rolled again into thin plates and then adhered with an adhesive to form a composite thin plate.

However, since both the magnesium thin sheet and composite metal thin sheet produced by conventional methods are subjected to secondary processing by rolling, the crystal structure is coarse, and even if it is made into a composite thin sheet, it is not possible to obtain one with sufficient strength. In addition, producing this composite thin plate required complicated processes and laborious work such as rolling and pasting, and it took a long time to produce the product. The present invention has been made as a result of extensive research in view of the current situation, and is intended to provide a vibrating composite plate for audio equipment that has excellent strength and corrosion resistance through a simple process.

[Heisei era to solve problems]

Molten magnesium, copper alloy, and aluminum alloy.

This method is characterized in that a molten metal such as a titanium alloy is simultaneously extruded onto the roll surface and rapidly cooled to form a composite thin plate.

[For production]

In the method of the present invention, a magnesium foil and a metal foil to be composited are simultaneously crimped and bonded together by a molten metal quenching method to form a composite thin plate.
Both of the above crystal structures are dense and have excellent strength.

Also, since the process consists of one step, it can be easily repeated.

〔Example〕

As shown in Fig. 1, <0.4wt% Zr-Mg alloy was placed in container 1.
Then, the alcohol gas is introduced into the container through the alcohol gas introduction hole 2 and heated to form a molten metal. Also Q,
3wt%-9, Qwt%f3n-Cu alloy is placed in a container 1' and heated to form a molten metal while flowing sialicone gas through the argon gas introduction hole 2' as described above.

Both molten metals are forced out onto the surfaces of the cooling rolls 4, 4' by opening the valves 3, 3', respectively.
Magnesium foil 5 with a thickness of 150μ is placed in the gap.
and a copper alloy foil 5' having a thickness of 150 μm were pressed together to obtain a composite thin plate 6 of the present invention as shown in FIG. This composite thin plate was wound up into a product by a winding machine 7.

In addition, in order to compare with the product of the present invention, a magnesium alloy ingot similar to the above and a copper alloy ingot were made into thin plates each having a thickness of 150μ by air pressure processing, and these were bonded with adhesive and compared. Example: A composite thin plate was obtained.

The mechanical strength and corrosion resistance of the thus obtained products of the present invention and conventional products were measured in order to test their performance. The results are shown in Table 1.

As is clear from Table 1, the method of the present invention was significantly superior to conventional products in terms of mechanical strength and corrosion resistance.

〔effect〕

As detailed above, the method of the present invention is extremely simple to operate and has excellent performance, making it useful as a vibrating material for audio equipment.

[Brief explanation of drawings]

FIG. 1 is a schematic explanatory diagram for obtaining a composite thin plate for audio equipment by the method of the present invention, and FIG. 2 is a sectional view of the composite thin plate for audio equipment obtained by the method of the present invention. 1... Container for magnesium alloy, 1'... Container for copper alloy, 2, 2'... Argon gas introduction hole, 3 #
s'...Pulp, 4, 4'-cooling roll, 5.
...Magnesium alloy foil, 5'...Copper alloy foil, 6...
・Composite thin plate.

Claims (2)

[Claims] (1) A method for manufacturing a composite thin plate for audio equipment, characterized in that a molten magnesium or magnesium alloy and a molten metal of a desired metal are extruded onto the surface of a rolling roll and rapidly cooled to form a composite thin plate. (2) The method for manufacturing a composite thin plate for audio equipment according to claim 1, wherein the desired metal is copper alloy, aluminum alloy, titanium alloy, etc.