DE4316754C2 - Device for grinding predetermined positions on workpieces - Google Patents

Description

The invention relates to a device for grinding predefined areas of workpieces, in particular for the precision grinding of sample materials that for subsequent analytical tests their material properties are processed.

The increasing quality requirements for electronic components require an increasing improvement in the preparation of the under specific diagnostic methods of material samples to be used, if it is the measuring point for feeding a Excitation signal and for decoupling a measurement signal directly contacting, locally high-resolution measurement procedures. The analysis of the semiconductor material properties depending from the depth below the surface of the single crystal Semiconductor material is therefore often based on the application of Material specimens that have a bevel cut are instructed. The bevel cuts cause an enlargement of the Line of attack to mechanical or other material Contacting the semiconductor material along their surfaces expansion. To those obtained along this line of attack To be able to assign measured values to the vertical expansion exactly  the attachment of a defined and reproducible angle of the bevel cut on the semiconductor material sample is necessary.

The layer associated with the latest semiconductor technologies thicknesses that are in the sub-µm and µm range require Bevel angle in the order of magnitude <∼0.1 °.

Such angled cuts on material samples are mostly through mechanical removal in an abrasive machining process manufactured. The advantage of making the bevel cut in there is a conventional fine grinding process compared to other material removal processes, such as Ion-thin, in a small apparatus and time expenditure.

For the production of the bevel cut Material sample you use a device that after the Embed the sample material manually one horizontally rotating flat disc, causing material removal, is fed and manually pressed onto the disc.

The essentially cylindrical holder points to Recording of the sample material to be processed cylindrical recess on a cylindrical Sample carrier, one of its top surface wedge-shaped, one having a defined wedge angle which corresponds to the angle of the Corresponds to bevel grinding, takes. The device instructs a wear-resistant side of the sample holder Material, whereby the removal of the sample material a Limitation experienced in that the abrasive machining cannot expand on the sample carrier.

Disadvantage of this widely used, easy to use Device is that for the manufacture of the Sample material to be ground down before starting the Grinding process through which the wear-resistant material limiting end face, as this is used for material removal stopping medium acts, protrude from the device got to. This can cause tilting at the beginning of the grinding process result in curvatures or on the beveled surface Cause facets. Such curvatures of the bevel cuts would falsify the results of the investigation because the  Curvature the assignment of the bevel point to the vertical Expansion of the material to be examined would be falsified. Curves along the bevel surface are especially for Angles that are in the range of minute minutes, as for Examination of layers with sub µm layer thicknesses necessary are to be excluded.

It is therefore an object of the invention to provide a device for grinding predetermined positions on workpieces
to develop, which ensures the production of substantially curvature-free beveled surfaces, for example on material samples. At the beginning of the grinding process, the device should only allow one degree of freedom of translation for the workpieces to be machined.

This object of the invention is achieved with the Claim specified device solved.

The advantage of the invention is that by means of Device with the creation of beveled surfaces defined and reproducible bevel angles and according to the used, the abrasive to be machined Interchangeable molded part, including others Geometric surface shapes can be edited.

The invention overcomes the shortcomings of the prior art fixed using the knowledge that defined and reproducible geometric surface shapes of the sample materials by mechanically abrasive surface processing be produced right from the start of the grinding process have a defined material removal, by the test specimen connected to the fitting at the beginning of the Grinding process away from the tool, the grinding wheel can be. Only when the face of the preferably hollow cylindrical body, which is provided with a support, whose removal is one to several orders of magnitude less than that of the workpiece to be machined is parallel to the  Tool rests, the one with the fitting and the Material sample connected sliding body of the surface of the Grinding tool in the direction of their surface normal and parallel fed to this.

The invention is described below using an exemplary embodiment explained in more detail. The drawing shows a longitudinal sectional view of the device.

The device consists of a hollow cylindrical body 1 , the lower end face 2 of which is provided with a wear-resistant support 3 with the same cross-section as the body 1 compared to the abrasive workpiece. In the body 1 , a sliding body 4 is fitted with a guide element in a recess in the inner wall of the body 1 so that it cannot be rotated vertically in the body 1 and its gravity can be moved through the abrasion-resistant support 3 . An interchangeable shaped piece 7 , which corresponds to the removal geometry of the workpiece, is fastened to the sliding body 4 , for example by means of a screw 6 leading through a through bore 5 in the sliding body 4 .

On the interchangeable shaped piece 7 , in the drawing an angled grinding template, the workpiece to be abrasively machined is non-positively and positively attached according to the intended removal geometry by means of point gluing. After embedding the workpiece to be machined on the molding 7 , the molding 7 is fastened to the sliding body 4 by means of the screw 6 . The sliding body 4 is then inserted into the body 1 . The body 1 is then pressed with its end face 2 , which is provided with the abrasion-resistant support 3 , onto a rotating disk which realizes the abrasive material removal and is usually arranged horizontally. The sliding body 4 can then be lowered until the contact between the workpiece to be machined and the grinding tool is made. At the moment of contact of the workpiece to be machined with the grinding tool, the parallelism between the end face 2 of the device and the tool surface is ensured. The device can no longer be tilted due to the large contact surface of the device on the tool surface that has already been implemented at the start of the grinding process and is independent of the workpiece to be machined.

To produce the security against rotation of the sliding body 4 in the body 1 , said guide element is arranged on its inner surface and engages in a continuous recess in the inner wall of the body 1 .

In the case of a horizontal arrangement of the grinding tool and the vertical arrangement of the device on the grinding tool, the removal intensity of the grinding process is determined by the weight of the sliding body 4 . However, the application of this device is not limited to a vertical arrangement during the grinding process. Horizontal pressing of the device onto a vertically rotating grinding wheel is also conceivable. The removal intensity is then determined by the pressure force applied to the sliding body 4 .

Claims (1)

Device for grinding positionally predetermined surfaces on workpieces, in particular samples, consisting of a hollow cylindrical body ( 1 ), which is provided on its lower end face ( 2 ) with a wear-resistant support ( 3 ) compared to the workpiece to be machined, one in which Body ( 1 ) together with a sliding element ( 4 ) fitted with play in a recess in the inner wall of the body ( 1 ) such that the sliding body ( 4 ) can be moved vertically in the hollow cylindrical body ( 1 ) by its gravity, and with an exchangeable shaped piece ( 7 ) fastened to the sliding body ( 4 ), on which the work pieces are received in a position corresponding to the surface to be ground on the work pieces.