SU848330A1 - Abrasive tool - Google Patents

Description

The invention relates to a diamond abrasive tool for machining spherical and flat surfaces of glass, quartz, ceramic and other materials. A known tool for machining flat and spherical surfaces comprising a body and an intermediate layer made of plastic-deforming material. On the intermediate layer there are hollows, protruding parts, on which an abrasive-containing diamond layer is fixed. The implementation of the intermediate layer from a plastic-deformable material makes it possible to produce tools not only flat, but also of any curvilinear form by cold deforming this layer along the body profile, while the integrity of the abrasive-containing layer does not break with 1. However, the performance of such a tool depends on the height and width of the protrusions carrying the abrasive-containing layer and the pitch of these protrusions. By operability in this case is understood to mean processing performance, quality and surface roughness. The aim of the invention is to ensure optimal tool performance. This goal is achieved by the fact that in an abrasive tool the height of the protrusions of the intermediate layer is equal to (0.2-0.7 of its total height, and the distance between the protrusions is determined from the ratio B / A 0.15-0.20, where B — distance between protrusions, A — pitch of protrusions. The invention during the manufacture of the tool ensures the normal pressing of the abrasive-containing layer and the optimum filling ratio of the tool surface with this layer.The degree of the pressing and the degree of compaction of the abrasive-containing layer has a decisive effect on the phys iko-mechanical properties of an abrasive layer. For example, if an abrasive-containing layer is made on an Ml bond with a content of wt.%: copper 80; tin 20, then its durability, bending after compaction, increases by 1.5 times.

The degree of compaction is characterized by the amount of shrinkage of the briquette, which is determined by the height of the protrusion of the plastic-deformable layer.

Fig. 1 shows an abrasive tool, general view ;, Fig. 2 shows a diagram of the pressing tool before and after compaction.

The tool consists of a lamellar-deformable intermediate layer 1, on the protrusions 2 of which an abrasive-containing layer 3 is fixed. The plastic-deformable layer is fixed on the body 4 having a flat or curved surface.

Before compaction (Fig. 2p, the abrasive-containing briquette has a thickness N. At the moment of application of the force, the plastically deformable layer acquires the configuration of the abrasive layer and begins to function as a punch compacting the briquette to thickness H, i.e. the shrinkage value. Therefore, the protrusion of the non-diamond layer and the shrinkage value of the briquette is interrelated and equal to the difference C of the heights of the briquette.

The surface treatment of the part is carried out both by the pritier method and the hard axis method. The tool performs a rotational movement. The workpiece presses against the tool under the action of axial force, performs reciprocating and rotational movement.

When the ratio of the height of a plastic-deformable layer to its total height is less than 0.2, the hardness of the diamond layer of metal bonds, napr. Ml and M015, is obtained - significantly lower than that provided by the STI for these links. This has a negative effect on the performance of the treatment process and the quality of the treated surface. Low hardness grease holds diamond poorly

It has a large wear layer.

An increase in the ratio of the plastic-deformable layer to its total height of more than 0.7 entails a significant increase in the hardness of the diamond layer. The tool in this case also loses its working capacity, on the parts there are shots and scratches.

Testing diamond tools with a ratio of the height of the plastic-deformable layer to the total height in the range of 0.2-0.7 shows the high performance of these tools.

The performance of instruments with a B / A ratio of less than 0.15 and more than 0.9 is significantly lower. In the first case, this is associated with a low coefficient of filling the tool surface with a diamond layer, in the second, with the appearance of an optical contact. Both have a negative effect on the performance of the tool.

Increasing the efficiency of a tool with a maximum amount of its use can yield up to 300 thousand rubles. zkonoshi

Claims (1)

1. USSR author's certificate No. 482309, cl. B 28 B 7/16, 1973.