DE2937163C2 - Method and device for the melt-metallurgical treatment of alloys with a tendency to segregate and application of the method - Google Patents

Abstract

The invention relates to a method for the melt-metallurgical treatment of alloys with a tendency to segregate while suppressing severity-related segregation phenomena. The process is characterized in that the alloy is melted under vacuum, mixed, quenched in water to form an alloy rod and that an infinitesimally thin molten zone of the alloy then passes through the rod with simultaneous cooling in a vacuum. The measures required in the context of the claimed process largely eliminate segregation processes caused by gravity. After the process, the various alloy components with very different densities remain evenly distributed due to the infinitesimally small melting zone, so that the diffusion-controlled reactions can take place without the influence of gravity, such as sedimentation and convection. simple manufacturing method.

Description

The invention relates to a method and a device for melt metallurgical treatment of alloys with a tendency to segregate while suppressing severe segregation phenomena and an application of this process.

Segregation tendencies show two or more components Materials with limited mutual solubility in the liquid state, such as Alloys of the manganese-bismuth system. In particular, miscibility gaps occur in two-component systems. whose components differ in terms of their density, their Clearly differentiate between atomic radii and their electronegativity.

It is known that the segregation caused by the different densities can be suppressed to a limited extent by the cooling rate. The segregation is minimal on cooling by quenching from the liquid state, such as. B. show the cooling of highly heated metal droplets ("splat cooling") and the deposition of metallic vapors on cooled substrates. This method μ can be used to set oversaturated mixed crystals, metastable phases or amorphous states. However, the processes described are not suitable for the course of diffusion-controlled reactions.

A setting of the state of equilibrium in alloys which is satisfactory according to the state of the art with a tendency to segregate can only be found in costly long-term experiments under microgravity clay achieve.

It is therefore the object of the invention to provide a method that eliminates the severity-related segregation bypasses the setting of equilibrium structures in alloys with a tendency to segregate Allows earth conditions and in which the above disadvantages are avoided.

The object is achieved by what is described in claim 1 Procedure solved.

Zone melting processes are known in principle from the prior art and are used for fine cleaning Used by metals A molten zone migrates through the rod to be treated. • It has surprisingly been shown that the known zone melting processes for establishing equilibrium in alloys with Severity-related segregation tendency can be used if the specified in claim 1 additional procedural steps are carried out. The necessary in the context of the claimed process Measures eliminate gravity-related segregation processes to a large extent. After this The various alloy components remain with very different stresses Density evenly distributed because of the infinitesimally small melt zone, so that the diffusion-controlled Reactions without the influence of gravity, such as sedimentation and convection, can expire.

According to a further embodiment of the invention, the alloy rod is part of the melting zone a speed between 5 mm / h and 60 mm / h, preferably between 10 and 30 mm / h. Advantageously, after passing through the melting zone, depending on the edge deposits that are present Removed up to 1 mm from the diameter of the alloy rod by grinding, milling and / or the like. In particular, the application of the method according to the invention in the treatment of a Alloy of the manganese-bismuth system has great advantages, in which the intermetallic, ferromagnetic compound MnBi is formed.

According to a further development of the invention, one uses to carry out the method according to the invention an evacuable quartz / tube that accommodates the alloy rod, and a water-flowing through it encasing it Cooling vessel and an inductive heater that can be displaced along the cooling vessel, which is advantageous a high-frequency coil is particularly suitable.

The method according to the invention essentially takes place in two steps. First is a staff with statistical distribution of the alloy components. This is done by melting the Alloy insert in a vacuum-sealed quartz tube by means of heating in a high-frequency coil and mixing the melt, which is then quenched in water. After a possibly The required mechanical surface treatment is the alloy rod in a quartz tube vacuum-sealed and inserted into a cooling vessel, which is preferably also made of quartz. Now the Alloy rod from an infinitesimally thin, fusible

pass through the liquid zone, with an intense cooling effect of the space between the coil and the Quartz-coated test rod in connection with a coordinated power of the coil for the infinitesimal low height of the molten zone ensures that practically no separation processes caused by gravity is possible the infinitesimally thin, liquid zone between 5 mm / h and 60 mm / h, there is sufficient time Available to allow all diffusion-controlled reactions to run until equilibrium is reached to be able to.

An embodiment of the invention is shown schematically on the basis of the figure Zone melter explained.

The zone melting arrangement consists in principle of an evacuated quartz tube 1 and an alloy rod 2 encapsulated therein, both of which are encased by a cooling vessel 3. Zonewise Aufichmelzen concerned a high-frequency coil 4, wherein by means of a thermocouple 5, a temperature control of the entire melting and Erstiurunpsvorgan g it is possible

Using the manganese-bismuth system, which at the monotectic temperature of 1255 ° C. between 0.5 and 77% mass content Bi has an extensive mixing angle, the effect of the method according to the invention is to be described in more detail. According to the object on which the invention is based, the ferromagnetic, intermetallic compound MnBi should be produced as quantitatively as possible via the peritectic reaction Μη »ι + Bii, _q = MnBi» i occurring at 445 ° C.

For this purpose, in a test rod made of an Mn-Bi alloy with a mass content of 21% Mn, the remainder Bi and the Dimensions 12 mm in diameter and 110 mm in length an infinitesimally thin, molten zone with a preferred feed rate of 12 mm / h pulled through. This was done with a 450khz coil

ίο worked, whereby the voltage was 2.6 kV and the current was 0.9 A. The cooling water flow rate was 4.8 l / min. The peritectic reaction with the formation of MnBi proceeded completely over almost the entire diameter; Manganese deposits were only to be found in the edge zones, which could easily be removed by grinding, milling and / or similar machining processes following the process sequence described.
This describes a process in which the segregation phenomena typical of a system such as Mn-Bi and caused by the force of gravity go out. «To be led. The gravity-related, segregation-typical seams of the peritectically formed crystals at the interfaces between the primarily precipitated manganese crystals and the melt, which prevent a complete peritectic reaction from occurring and lead to the formation of the structures known as envelopes, occur after application of the claimed Procedure no longer occurs.

1 sheet of drawings

Claims (5)

Patent claims: 1. Process for smelting metallurgical treatment of alloys with a tendency to segregate contribute to the establishment of equilibrium states Gravity conditions, characterized in that the alloy components in melted in a quartz tube under vacuum, mixed and together with the quartz tube in water its alloy rod are quenched and that the rod is then vacuumed within an infinitesimally thin zone is melted with simultaneous cooling effect. 2. The method according to claim 1, characterized in that that the alloy rod from the reflow zone at a speed between 5 mm / h and 60 mm / h, preferably between 10 and 30 mm / h, if necessary after any impurities in the edge zone of the alloy rod been eliminated by mechanical processing "ind. 3. The method according to claims 1 or 2, characterized in that after passing through the melting zone up to 1 mm from the diameter of the alloy rod by grinding, milling and / or the like is removed. 4. Application of the method according to one of claims 1 to 3 on manganese and bismuth as Alloy components that form intermetallic, ferromagnetic Form connection MnBi. 5. Device for performing the method according to the claims! to 4, -characterized by an evacuable quartz tube (1) which accommodates the alloy rod (2) , a cooling vessel (3) through which water flows, and which is displaceable along the cooling vessel (3) and which is inductive, in particular operated by means of high frequency. Heating (4). 40