SU696995A1 - Method for making grinding wheels - Google Patents

Abstract

1. A method of manufacturing polishing wheels, in which an abrasive mixture on a polymer base with a filler is mixed and pressed, characterized in that, in order to increase the operational strength of large circles by reducing internal thermal stresses in them, additional enantiotropic weights are added to them, properties whose thermal expansion coefficient is less than the thermal expansion coefficient of the polymer base. The method according to claim 1, differing in that with the fact that enantiotropic substances are administered with a size of not more than 200 µs; 16DQ21} 50 ^^ 0M M ° c ^ paVieit meMnepamijphi

Description

The invention relates to the manufacture of abrasive wheels.

A known method of making grinding wheels, which includes the steps of mixing the polymer base with the filler and the subsequent pressing 1.

A disadvantage of the known method is the low operational strength of large circles due to the high coefficient of thermal expansion of the organic binder, resulting in large thermal stresses when temperature changes between parts of the circle.

The purpose of the invention is to vary the operating strength of large grinding wheels by reducing internal thermal stresses in the wheel.

This is achieved by the fact that enantiotropic substances are additionally introduced into the abrasive mixture, the thermal expansion coefficient of which is lower than the thermal expansion coefficient of the polymer backbone.

By enantiotropic substances are meant substances that, at certain temperatures, are able to repeatedly switch from low temperature to high temperature modifications with a decrease in their volume.

Due to the inertia of polymorphic transformations, the process of volume change does not occur sharply, but occupies a certain area of temperature. If, however, we introduce into the polymer base not one, but several enantiotropic substances having different temperatures of polymorphic transformations, then even greater smoothness of the action of these substances is achieved over the entire specified temperature range.

Large-scale organic-bonded grinding wheels undergo heat treatment in the temperature range of 30–200 ° C, and are heated under severe operating conditions to 250–300 ° C; therefore, in their manufacture, enantiotropic substances are introduced into the abrasive mixture, in which polymorphic transformations occur t in the temperature range of 30-. , while the positive effect will be obtained when the value of the coefficient of thermal expansion of the enantiotropic substances introduced will be less than the coefficient of thermal expansion of the polymer base

DIRT.

In order to reduce thermal stresses at the interface between the filler and the polymer base, especially during the period of polymorphic transformation of the filler, enantiotropic substances are introduced with a size of no more than 200 microns.

As enantiotropic substances, it is recommended to use, in particular, copper monosulfide, ferrous sulfide, anhydrous sodium sulfate, etc.

For the manufacture of grinding wheels of size 200 25x76 38A200H,. for rough roughing, 3 types of abrasive mixtures are prepared: 1) an abrasive mixture on a bakelite bond in which cryolite and enantiotropic substance in the form of iron monosulfide FeS (calcined at 600 ° C pyrite) are added as fillers, 2) an abrasive mixture on bakelite a bond in which cryolite and ammonium chloride are introduced as fillers) is an abrasive mixture on a bakelite bond, in which cryolite, pyrite and asbestos are introduced as fillers (according to the current technology of the Chelyabinsk pilot plant). scientists mixtures by hot press manufactured by grinding wheels.

The effect of enantiotropic substances on the magnitude of thermal stresses in circles is tested experimentally under laboratory conditions.

As a result of tests, the dependence of the magnitude of the radial compression force acting on a circle on the temperature gradient between the outer and inner surface of the circle is determined.

The magnitude of the radial compression force is proportional to the magnitude of the thermal stress arising in the circle.

The drawing shows a plot of radial compression force versus temperature gradient (curves

1, II, III corresponds to mixtures 1,

2.3).

As follows from the graph, the introduction of the enantiotropic substances, in particular iron monosulfide, into the formation mixture during the manufacture of grinding circles as fillers.

1696995 4

It is expedient, since it allows, according to the Advantages of the proposed comparison with the manufacture of the known, to increase the quality

wheels to reduce the amount of thermal and stable operation of grinding

stress in circles from 30 to 50%, circles as in the manufacturing process,

those. The strength of the large-j treatment increases with

overall lengths of shn circles in specific modes, especially when

their uneven heating and in their processing of stainless and heat-resistant

operation of steels and alloys.

Claims (2)

1. METHOD FOR PRODUCING GRINDING CIRCLES, in which a polymer-based abrasive mixture with a filler is mixed and pressed,: ----------------------------- ------------------------------------------- characterized in that, with the aim of increasing the operational strength of large wheels by reducing internal thermal stresses in them, enantiotropic substances are additionally introduced into the abrasive mixture, the coefficient of thermal expansion of which is less than the coefficient of thermal expansion of the polymer base. 2. The method according to claim 1, and with the fact that the substances are introduced in size · 200 yk. excellentantiotropic> ohm no more SU „, .696995