Method for preparing directional crystallized rare earth giant magnetostrictive alloy by induction cold crucible technology
A technology of directional crystallization and cold crucible, which is applied in the preparation of alloys and the field of crucibles, can solve the problems of expensive finished products, affecting the application of materials, and the inability to use crucibles to move downwards for directional solidification, and achieve the effect of saving economic costs
Active Publication Date: 2016-01-20
北京幻响神州科技股份有限公司 +1
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Problems solved by technology
Second, rare earth giant magnetostrictive alloys are particularly sensitive to impurities and have strict requirements on the accuracy of the composition. Therefore, once the above-mentioned effects are caused by the crucible, the performance of the material will be greatly reduced
Third, the rare earth elements terbium and dysprosium in rare earth giant magnetostrictive alloys are particularly expensive, especially terbium, whose price is close to 10,000 yuan / kg. A few millimeters of the outer layer of the 30mm finished rod has become silicide, and 30-40% of precious elements will be lost after grinding this layer, resulting in a very expensive finished product, which affects the application of the material
Therefore, in the cold crucible technology, the method of moving the crucible down cannot be used for directional solidification
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[0027] The technical points adopted by the present invention to solve its technical problems are mainly as follows:
[0028] 1. Basic device and process
[0029] The water-cooled copper crucible is used as the crucible for the directional solidification process, which is the basis of the present invention. In order to use the induction cold crucible technology for directional solidification, the invention changes the structure of the cold crucible suitable for the vacuum suspension melting technology. The so-called water-cooled copper crucible is a copper crucible divided into several petals along the direction parallel to the crucible axis, and circulating cooling water is passed through each petal. In principle, any crucible meeting these requirements can be used for melting. However, the present invention requires that the bottom of the crucible has a separate structure from the wall of the crucible. Preferably, it has a water passage for cooling the bottom of the crucible ...
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The invention discloses a method for preparing directionally-crystallized rare-earth ultra-magnetostrictive alloys by using a cooled crucible induction technology, comprising the following steps: applying a high-frequency electromagnetic field to rare earth and iron mixture raw materials in a water-cooled crucible in a vacuum chamber under a vacuum environment or an environment which is vacuumized and then filled with inert gas, so that the raw materials are melted to form a melt; then, continuously and slowly moving a crucible bottom of the water-cooled crucible downwards at a constant speed, wherein the crucible bottom is used as a crystallizer; enabling the melt (following the downward moving of the crucible bottom and then moving out of the lower end of the crucible wall) to enter a crystalline area, and carrying out axial directional crystallization on the melt along the longitudinal axial direction at a gradient distributed temperature, therefore, with the continuous downward moving of the crucible bottom, a solidified material rod is formed upwards from the surface of the crystallizer, wherein the solidified material bar is a directional crystallized alloy oriented along the moving direction of the crystallizer. The invention also provides a water-cooled crucible used in a directional crystallization technology and a cooled crucible directional crystallization device comprising the water-cooled crucible.
Description
technical field [0001] The invention relates to the field of preparation of directional crystallized alloys and crucible technology, in particular to a method for preparing directional crystallized rare earth giant magnetostrictive alloys using induction cold crucible technology, a water-cooled crucible used in directional crystallization technology and a A cold crucible directional crystallization device comprising the water-cooled crucible is provided. Background technique [0002] Rare earth giant magnetostrictive alloy is a kind of magnetostrictive material, Tb-Dy-Fe base alloy is the most important rare earth giant magnetostrictive alloy, and its optimal composition is Tb x Dy 1-x Fe 2-y Alloy (x=0.2~0.6, y=0~0.2), its magnetostrictive performance can be increased several times after forming a directional crystal structure oriented along the <112> direction. [0003] Directional solidification is the most commonly used method to form a directional crystal struc...
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IPC IPC(8): B22D27/04C22C38/00
Inventor 李碚张昕尉
Owner 北京幻响神州科技股份有限公司