DD151333A1 - METHOD AND DEVICE FOR RECOVERING DIAMONDS - Google Patents

Abstract

The method and device can be used in particular in the metal-working, metal-working, tool-making industry as well as in the glass and ceramic industry. In particular, diamonds are recovered in their original form from no longer reusable metallic or organically bound diamond tools. The metallic embedding agent is preferably at machining current densities> 50 A / dm & exp2! dissolving electrochemically in steady-state acidic salt solutions as well as basic electrolytes by direct and / or alternating and / or pulsed current, the organic is attacked in suitable solutions so that a mechanical brushing process exposes the diamonds. In a device that can be used both as an electrolytic and as an electrolytic Loose cell is used, the diamond tool is polarized via the voltage supply and the workpiece holder as an anode. The cell serves as the cathode, or auxiliary cathodes are used in non-electrically conductive cell materials. An exchangeable perforated hopper, on which plastic brushes are located, separates the anode and cathode compartments. A drive motor is used to move the workpieces or the brushes. Ablaszhaehne complete the cell. From the recovered diamonds equivalent good diamond tools can be made.

Description

-A- 22153.5

Process and apparatus for recovering diamonds

Field of application of the invention

The invention includes a method and apparatus for recovering diamonds, particularly from non-reusable metallic and organically bound diamond tools.

Since the non-reusable diamond tool, e.g. metallic or organically bound peripheral, pot, plate, profile, flat, Trennschleifscheiben-, Ziehschleifkörper and grinding pins, slip rings, diamond files u.a. still contains diamonds in their original form, it is necessary to recover the diamonds and make them available for further use.

The method and the device can be used in particular in the metal-working, metal-working and tool-making industry as well as in the glass and ceramic industry.

Characteristic of the known technical solution

Bs is known that metallic or diamond-bonded diamond tools are used in large numbers for precision machining and subject to wear. If the diamond-tipped tool no longer meets the technical requirements, it will be discarded or scrapped, even if it still contains precious diamonds in its original form.

It is economically unacceptable that these precious diamonds are not recovered and recycled.

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Object of the invention

The aim of the invention is to develop an uncomplicated method and apparatus for recovering diamonds from non-reusable diamond tools and thus eliminating the previously disclosed machining parts.

Explanation of the essence of the invention

It is known to dissolve metals chemically or electrochemically. This can be done under the action of acids, alkalis with and without electric current. The process of electrochemical dissolution may be assisted by chemical and / or complexing reactions.

According to the invention the object is achieved in that the non-reusable metallically bonded diamond tool is connected in an electrolytic cell as an anode and thus the embedding agent ionogenously goes into solution. Thus the diamonds fall off the workpiece and are preserved in their original form. At the same time, the electrolyte container made of VpA or similar resistant material (such as 2.B. graphite) serves as the cathode. By specifying discrete potentials, the targeted dissolution of the metallic embedding agent is achieved. The metal ions thus obtained or ions present in the complex are reduced at the cable and accumulate like sponges as cathode sludge. Using alternating voltage to dissolve the metal, the diamond-tipped tools serve as electrodes. A superimposition of the DC voltage with alternating and / or pulse voltages then leads to positive results if passive layer formation occurs on the electrode material (diamond-tipped tool).

It was found that at high current densities> 50 A / dm, the removal of the metallic Einbettnngsmittels evenly, quickly and with high current efficiency. The electrochemical removal takes place on all sides and without pitting. This is significantly influenced by the choice of Elekbrolyte.

According to the invention are used especially in nickel and / or copper and / or zinc and / or chromium and / or tin-embeddings of Diamanben acidified salt solutions, in particular NaCl, NaEOo »Na ₂ S (X, NH ^ Cl for the electrochemical dissolution The concentration of the electrolyte solutions on salt-like constituents is> 1 and <3% and is preferably 10% .The electrolyte is generally acidified with the acid whose anion is contained in the salt If the cell body is made of electrically nonconducting materials such as ZoBc ceramic, glass, plastic, auxiliary cathodes are used.The anode and cathode products are discharged via drain taps.When starting the device, the cell is filled with an electrolyte corresponding to the workpieces to be machined The samples are clamped in the tool holder and via the drive engine set in motion. The brushes rub on the diamond-studded surface of the specimen. After connecting a DC voltage is carried out by chemical and / or complex chemical assisted electrochemical A, uflösung the workpiece. The diamonds fall in their original form into the exchangeable perforated funnel, which takes over the function of a collecting and separating device of anode and cathode space. In the cathode compartment, the reduction products, in particular the embedding agent and the tool material, accumulate like a sponge in the form of cathode sludge. After complete dissolution of the diamond-containing layer, the processing is interrupted by switching off the voltage and the drive motor. The processed samples are removed from the holder and replaced with new ones to be processed. The diamonds as well as the cathode sludge are removed only after several such cycles by opening the drain valves.

The organically bonded diamond tools are processed in the device according to the invention. This eliminates an electrical contact. In the cell, there is a steel brush arranged centrally around the circular

touches the brush arranged workpieces. The interchangeable perforated funnel serves as a collector for diamonds and matrix components.

The pretreated organically bonded diamond tools are clamped in the tool holder and sunk into the reaction solution so far that the surface to be machined of the tool is completely wetted by the reaction solution and touched by the steel brush. By switching on the drive motor, the steel brush is set in rotation and takes off from the swollen workpieces Mabrixpartikel and diamonds. The processing is interrupted by turning off the drive motor after the diamond-containing layer has worn away. The processed samples are removed from the holder and replaced with new ones. The diamonds and matrix components are removed only after several such cycles by opening the drain cock. Several acids are also used, especially in combination with complexing agents which accelerate the dissolution process of the metallic embedding agent.

Basic Electrolytes, z. B. KaOH are used when diamonds are embedded in metals or alloys, which in particular contain tungsten and aluminum. The concentration of basic electrolytes is> 1 <35%> preferably 20%.

To keep the diffusion layer at the anode small, is. the electrolyte moves, and / or it is additionally carried out during the anodic dissolution mechanical machining of the surface, in particular by brushing, scraping, rubbing. Advantageously, electrically non-conductive, the electric field not influencing plastic brushes. According to the invention, the cell is separated into anode and cathode space by means of an exchangeable perforated funnel, which prevents mixing of the cathode sludge with the diamonds and substantially facilitates processing.

-5- 221S35

The resulting diamonds are usually pure. However, it is also possible for individual diamonds to adhere particles of the metallic egg-baiting agent which are obtained by a chemical aftertreatment, in particular by acids, such as, for example. HNOo ,. HCl are removed. , ·

It has been found that it is possible in organic compounds to expose a-bedded diamond, in particular in plastics, plastics, rubber, in that the organic compounds are oxidized by suitable solutions such as esters, ketones, alkanes and their halogen derivatives, aromatics, highly concentrated Acids such as fuming HNOo, chromic sulfuric acid aufqueilt or partially dissolved. By simultaneously suitable mechanical processing then the diamonds can be removed from the grinding body. In the workup of organically bound diamond tools thus eliminating electrical contact. The use of metallic hard brushes, in particular steel brushes, is advantageous. To carry out the method, the device according to the invention is used. This consists of a .r cell made of V2A sheet metal, which contains a perforated interchangeable funnel with brushes. The workpiece to be machined is mounted in the perforated funnel so far that the electrolyte contained in the cell wets the surface of the diamond tools to be machined. The tools to be machined are arranged in a circle in the electrode holder so that the brushes touch the diamond-studded surface. A drive motor is used to move the electrodes.

embodiment

The invention will be explained below with reference to 5 embodiments.

Embodiment 1

A non-reuse capable bound metallic cylindrical diamond grinding pin AGZ 8 8 χ χ 2.5, Μ, 50/40, 125 i _n a cell about 2 1 Electrolyte

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solution, electrochemically, by means of direct current anodic. dissolved until all diamonds are removed from the diamond-coated grinding layer. The electrolyte used is a 20% aqueous solution of KaNCU, 10% HNOo

2 is. The current density is 60 A / dm. As the cathode is used, at which the metal, in particular copper, separates like a sponge. The diamonds obtained after about 5 minutes in their original form are drawn off at the bottom of the cell, rinsed in water and dried.

Embodiment 2

A worn still diamond partially contained diamond bonded diamond file of the form 7551 A, 6 χ 3 »M, 125/100, 125 v / ird as in Example 1 electrochemically treated. The workpiece is rigidly arranged in the cell so that the diamantbestuck th sides of the file wetted by the electrolyte and mechanically processed by the rotating brushes made of plastic. The electrolyte is an aqueous solution consisting of 10% HCl, 15% KaCl

and 10% KH ^ Cl. The current density is 50 A / dm After about 10 minutes electrolysis time, the diamonds are removed from the apparatus and post-treated as in Example 1.

Embodiment 3

An organically bound cylindrical non-reusable abrasive AGZ 8 χ β χ 2.5, Ο, 50/40, 125 is pretreated in fuming HNO for 10 minutes to swell the organic layer containing diamonds. Thereafter, the thus treated pin is placed in a concentrated HNO-3 containing processing cell and rubbed in its circular motion on hard steel brushes. This diamond and matrix particles accumulate, which are deducted and separated after a settling process.

Exemplary Embodiment 4

According to Figure 1, in the electrolytic row consisting of V ₂ A, the diamond-tipped tools on a

2 * 2 <% %% ~ 4

Spamiungs supply 1 and the workpiece holder 8 connected as the anode 2. The cathode compartment with cathode 3 is separated from the anode compartment by the exchangeable perforated funnel 4, on which plastic brushes 5 are located. The rotation of the diamond-tipped tools to be machined is carried out by the drive motor 10. After the electrolysis has taken place, the specific separation of the diamonds and the cathode sludge takes place via the drainage taps 6 and '7.

Embodiment 5

In a cell arrangement according to embodiment 4, auxiliary cathodes 9 made of graphite are used in the cell made of glass. The other internals correspond to those described in 'Ausfuehrung 4 described.

Claims (2)

invention claim 1. A process for the recovery of diamonds, in particular from non-reusable metallic or organically bonded diamond tools characterized in that the still containing diamond metal layer preferably dissolved by electrochemical direct and / or alternating and / or pulse current in electrolyte solutions or the still containing diamonds organic Layer is prepared by suitable solutions chemically so that a simultaneous or even following mechanical Ab- or brushing the diamond-bearing matrix leads to the preservation of the diamonds in their original form. 2 method according to item 1, characterized in that, in the case of nickel and / or copper and / or zinc and / or chromium and / or tin embedding, aqueous strongly acidic salt solutions of KaCl, KaKOo, Na 2 SO 4 ,, KILCT concentration> 1 <3Q% and with ¹ AoIfram, aluminum or their alloys as embedding, alkaline electrolytes, preferably KaOH concentration> 1 <35 are used. 3 Method according to points 1 and 2, characterized in that the machining current densities for metallic Diamond Diamond Tools> ^ O A / dm are chosen. A. The method according to item 1 to 3, characterized in that the cell is separated in anode and cathode space. Method according to point 1 to 4, characterized in that plastic brushes are preferably used for the mechanical processing of the metal-bonded diamond tools. " 6. The method according to item 1, characterized in that for the exposure of the organically bound diamond solutions such as esters, ketones, alkanes and their halogen -.-. derivatives, aromatics, highly concentrated and strongly oxidized acids such as fuming HNCUt chromosulphuric acid. 7 "method according to item 1 and 6, characterized in that for mechanical machining of the organically bonded diamond tools preferably. Steel brushes are used * Characterized in that the diamond tool on the voltage supply (1) and the workpiece holder (8) is connected as the anode (2), the cathode space with cathode (3) or auxiliary cathodes (9) by a replaceable perforated Funnel (4) on which plastic brushes (5) are separated from the anode space, and the rotation of the plastic brush or the tool by a drive motor (10) is achieved. For this 1 page drawings