DE102008009507A1 - Method and device for surface treatment of extremely hard materials - Google Patents

Abstract

Process for the surface treatment of extremely hard materials, in particular polycholine diamonds, using diamond powder,
characterized in that
- The surface of the workpieces by a combinatorial use of a rotating grinding wheel with this supplied diamond powder
- Under a pressure of at least 1000 g / cm ²
- And ground at a standard speed of at least 120 min ^-1 revolutions and removed.

Description

The The invention relates to a method and a device for surface treatment extremely hard materials, especially for grinding polycrystalline diamond (PCD).

polycrystalline Diamond (PCD) is an extremely hard material that is manufactured synthetically from an intergrown mass of diamond particles in a metal matrix exists. The use of this material is due to its extreme hardness in the field of cutting and Spanens for a variety of materials, so too as a trimming of drill heads.

The Diamond machining, such as grinding PCDs, is done due to its hardness also with diamond in the form of Diamond powder containing emulsions. It is about a very time consuming process, where a large Amount of diamond abrasive must be used.

The prior art knows a variety of highly divergent solutions to this technical challenge. So revealed the DE 100 39 724 C2 a method for smoothing a synthetically produced diamond layer, in which the diamond is exposed to a relative movement of a smoothing agent. For this purpose, a heated to a temperature between 600 and 900 ° C copper oxide is proposed. It is therefore a thermochemical smoothing, which acts by means of oxidation of the diamond layer. The primary goal here is to speed up the process.

adversely However, this is the immense energy demand of this process, which still does not allow really fast smoothing.

The DE 695 08 679 T2 relates to a method for producing a diamond wafer and a device for polishing the diamond surface, which mechanically uses diamond powder as an abrasive, which under its own abrasion polishes the wafer. However, it is acknowledged that it takes hundreds of hours to achieve the desired smooth surface. The document discloses only constructive features that should ensure a complete and uniform processing.

Furthermore, it is known from the prior art to use diamond grinding devices are embedded in the diamond abrasives for grinding and polishing in different binders. Such diamond wheels may include, but are not limited to, a metallic or a ceramic bond of diamond abrasives, such as disclosed in U.S. Pat US 4,142,869 ,

in this connection is problematic that the quality and speed the grinding or polishing process of a variety of parameters depending on a complex operation at high basic costs and cause fluctuating results. The diamond abrasives are subject to wear as well as the binder which is not may be electrolyzed.

is the surface to be treated has a diamond surface, so is on the surface of a much higher Diamond content than in the grinding device, for example a Diamond grinding wheel, resulting in a rapid weakening the grinding effect and thus low speeds leads. It is known, for example, PCDs on grinding or polishing machines with a cast disc with coarse diamond grain to process, with a running time of 10-15 hours needed is to achieve a removal of 0.8 mm.

task In the present invention, in view of this, it is a method and a device for surface treatment of a extremely hard material, especially for grinding Polycrystalline diamond (PCD), which creates a clear faster removal with uniform removal possible.

Reached This is achieved by a new process with the features of the claim 1. The dependent claims 2 to 10 describe advantageous Embodiments of the method according to claim 1.

Reached this is also achieved by a device for the application of the method according to claim 1 according to claim 11, wherein the dependent claims 12 to 14 relate to advantageous types of this device.

The inventive method consists of a combination from loops with bound grain and lapping with loose Grain in a defined speed range and with a defined contact pressure range of the workpiece or workpieces.

Therefor Diamond powder is applied to the grinding wheel during machining abandoned, this process being manual or by a technical solution can be carried out automatically.

This method uses the bonded diamond wheel as a carrier for the loose grain of the diamond powder. It is explicitly not worked here with a diamond grain in emulsion. The loose diamond grain causes on the one hand the grinding wheel is constantly trained and thus does not dull, on the other hand, the loose diamond grain additionally cuts and accelerates the grinding process. The removal is achieved in about 80% by loose diamond grain and 20% by the bonded diamond grain in the grinding wheel.

at Lack of diamond powder addition will indicate the efficiency Grinding sound after about 5 minutes much quieter, because through the workpiece, for example the polycrystalline Diamonds, the abrasive grain is dulled and therefore not significant Removal can be done more. Thus, a continuous or regular cyclic addition of loose diamond powder required to make a to achieve consistently high efficiency.

Another significant technical aspect is raising the standard speed from 60 min ^-1 revs to a value of at least 120 min ^-1 . This increase in speed causes a significant improvement in the grinding speed, which can not be increased by increasing the speed. Rather, the ideal speed is in the range of about 180 min ^-1 to about 250 min ^-1 .

The basic speed increase leads to a doubling of the deduction. As a supplement, this should only pure water, otherwise the grip of the grinding wheel gets lost and your pores are soaked in lubricant are.

It is to be considered in principle that beside the exemplified grinding wheels, or said grain, other variants may also be possible to achieve advantageous Abtragswerte, based on the teachings of the invention based.

The device for the application of the method has as features on the one hand a diamond grinding wheel, which rotates with up to 250 min ^-1 revolutions so as to achieve the acceleration of the removal. Furthermore, the device has a workpiece holder for receiving a plurality of workpieces to be machined and a feeding device for the task of diamond powder, since this must indeed be added over the entire grinding process.

A advantageous design provides a supply device for The diamond powder that works cyclically in a cycle of a task every 3 minutes. The cyclical task has become this as advantageous over a continuously continuous addition stream exposed.

A Diamond grinding wheel with a diamond grit of D301 has also proved to be useful since This grain is a good interaction with the loose grain of the diamond powder has shown.

Furthermore is an advantage, a supply device for automated feed of water to the diamond grinding wheel. The addition of the Water causes a mobilization and activation of the loose grain of diamond powder while avoiding clogging the pores in the grinding wheel. So can an unwanted saturation the grinding wheel can be avoided.

After all It is appropriate to a defined pressure of Workpieces on the grinding wheel by a hydraulic or pneumatic pressure device over the workpiece holder applied. So the pressure can be adjusted exactly to a optimal removal efficiency depending on the material to be processed Workpiece and the other grinding parameters to achieve.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10039724 C2 [0004]
• - DE 69508679 T2 [0006]
• US 4142869 [0007]

Claims (14)

Process for the surface treatment of extremely hard materials, in particular of polycholine diamonds, using diamond powder, characterized in that - the surface of the workpieces by a combinatory use of a rotating grinding wheel with this supplied diamond powder - under a pressure of at least 1000 g / cm ² - and is ground at a standard speed of at least 120 min ^-1 revolutions and removed. Method of surface treatment of extremely hard materials according to claim 1, characterized that a ceramic bonded diamond grinding wheel is used. Method of surface treatment of extremely hard materials according to claim 1 or 2, characterized that a ceramic-bonded diamond grinding wheel with a diamond grain used by D301. Method of surface treatment of extremely hard materials according to claim 1, characterized that a CBN grinding wheel is used. Method of surface treatment of extremely hard materials according to claim 1 or 2, characterized that monocrystalline diamond powder of grain size 36-50 μm as powder regularly or continuously supplied. Method of surface treatment of extremely hard materials according to claim 1 or 2, characterized that the diamond powder in a dosage of about 1 g / min. supplied becomes. Method of surface treatment of extremely hard materials according to claim 1 or 2, characterized that the diamond powder is supplied cyclically in a cycle of 3 minutes becomes. Process for the surface treatment of extremely hard materials according to claim 1 or 2, characterized in that the workpieces are pressed with a pressure of about 2,200 g / cm ² on the grinding wheel. Method of surface treatment of extremely hard materials according to claim 1 or 2, characterized during the grinding process, the grinding wheel for Mobilization of the supplied diamond powder cyclic or is sprayed continuously with water. Apparatus for surface treatment of extremely hard materials according to the method of claim 1 comprising at least one grinding wheel and a workpiece holder and the pressure applying means, characterized by - a diamond grinding wheel with up to 250 min ^-1 revolutions and a diameter of at least 500 mm, - a workpiece holder with receptacles for several simultaneously machinable workpieces, and - a feeding device for adding the diamond powder to the diamond grinding wheel. Device for surface treatment of extremely hard materials according to claim 10, characterized in that that the diamond grinding wheel has a diamond grain of D301 has. Device for surface treatment of extremely hard materials according to claim 10 or 11, characterized characterized in that the supply device for the diamond powder Cyclic works every 3 minutes in one pacing of a task. Device for surface treatment extremely hard materials according to one of the claims 10 to 12, characterized in that a supply device for the automated supply of water to the diamond grinding wheel is provided. Device for surface treatment extremely hard materials according to one of the claims 10 to 13, characterized in that the defined pressure by a hydraulic or pneumatic device on the workpiece holder is applied.