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Sintering method for improving mechanical strength of tantalum wire

A sintering method and mechanical strength technology, applied in the field of metal smelting, can solve problems affecting use and achieve the effect of improving mechanical strength

Active Publication Date: 2014-07-16
CHINA ZHENHUA GRP XINYUN ELECTRONICS COMP ANDDEV CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Taking the tantalum wire bent 90° and returning to its original position as an experiment, the current tantalum wire on the market is broken after an average of less than 1.5 times of bending, which seriously affects the use

Method used

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  • Sintering method for improving mechanical strength of tantalum wire
  • Sintering method for improving mechanical strength of tantalum wire

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Embodiment Construction

[0009] The idea of ​​the present invention to solve the technical problem is to sinter the metal which has a low melting point and which itself or its oxide is easy to react with water or acid as a deoxidizer and the pressed tantalum wire in a vacuum state, so that the tantalum wire is oxidized Partial deoxidation, after the deoxidation is completed, continue to raise the temperature in a vacuum state to sinter the tantalum wire and crystallize the tantalum powder, thereby improving the mechanical strength of the tantalum wire.

[0010] The technical solution of the present invention is specifically realized in this way. Taking active metal magnesium as a deoxidizer as an example, first put magnesium and a container for sintering tantalum wire, such as a tantalum crucible, into a vacuum coating device, and heat up in a vacuum state to vaporize the magnesium After cooling, the magnesium forms a layer of magnesium film on the surface of the tantalum crucible; then the pressed tan...

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Abstract

The invention discloses a sintering method for improving the mechanical strength of a tantalum wire, which comprises the following steps of: taking the metal which is lower in melting point and is easy to have a reaction with water or acid by itself or oxide of the metal as deoxidant, and jointing sintering with the pressed tantalum wire under the vacuum state, so that the oxidized part of the tantalum wire is deoxidized, and continuously heating under the vacuum state to sinter the tantalum wire and crystallize the tantalum wire after the deoxygenation is completed, so that the mechanical strength of the tantalum wire can be improved. The specific technical scheme of the sintering method comprises the following steps of: firstly putting the metal deoxidant and a container which is to be filled with the tantalum wire to be sintered such as a tantalum crucible into a vacuum film plating device, heating under the vacuum state, so that the metal deoxidant is evaporated, and forming a layer of metal film on the surface of the container filled with the tantalum wire by the metal deoxidant after cooling; and putting the tantalum wire into a film-plated container to be sintered in the vacuum sintering furnace.

Description

technical field [0001] The invention relates to the technical field of metal smelting, in particular to a sintering method for improving the mechanical strength of tantalum wire. Background technique [0002] Tantalum wire is a necessary part for connecting with tantalum electrolytic capacitors and soldering tantalum electrolytic capacitors on printed boards. The specific volume of tantalum powder is getting higher and higher, and the particles are getting smaller and smaller, so the degree of oxidation of tantalum powder is becoming more and more serious when it absorbs oxygen in the air. The flow of the molten layer on the surface of adjacent tantalum powder particles is reduced, and the mutual crystallization ability is reduced, thereby reducing the mechanical strength of the tantalum wire. The specific performance is that the tantalum wire breaks or falls off from the tantalum capacitor when it is slightly stressed. Taking the tantalum wire bent 90° and returning to it...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B22F3/16B22F5/12
Inventor 王俊
Owner CHINA ZHENHUA GRP XINYUN ELECTRONICS COMP ANDDEV CO LTD
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