UA78392C2 - Method for temperature measurement of metal in the area of its cutting - Google Patents

Abstract

The method of temperature measurement of metal in the area of its cutting relates to machine building and can be used in quality metal cutting technologies. The method includes carrying out openings in the cutting point where the opening directly in the cutting point corner is carried out, the activated crystal is placed in it and the metal-removal process under given mode is carried out. Then the activated crystal is removed and by the diffractometer crystal latitude values of the activated metal is taken. According to the existing temperature table It is found corresponding a temperature value for them which is the desired temperature value of metal in its cutting area. The technical result is improvement of measurement accuracy.

Description

Description of the invention

The invention relates to the field of mechanical engineering and can be used in the technologies of high-quality processing of 2 metals by cutting.

There is a known method of measuring the metal temperature in the cutting zone, which is also called the "method of artificial thermocouples" (1, p. 26). It consists in the fact that a hole is made in the cutting part of the cutter, into which a thermocouple (chromel-alumel) is inserted, which is connected in series with a millivoltmeter.

A common essential feature of the analogue method and the inventive method is that 70 holes are made in the cutting edge of the cutter.

However, unlike the method of the invention, in the analog method, this hole cannot be made directly at the top of the cutter, because it will be weakened. Therefore, the temperature of the metal measured in this way in the cutting zone will be an approximate value.

Thus, the disadvantage of the analog method is the low accuracy of measuring the temperature of the metal in its 12 cutting zone.

There is also a known method of measuring the metal temperature in the cutting zone, which is also called the "method of semi-artificial thermocouples" |21. It is chosen as a prototype of the invention.

The prototype method consists in making a hole in the cutting part of the cutter, into which one thermocouple conductor is inserted, and the second one is connected to the cutter holder. Both ends of the thermocouple are connected to a millivoltmeter, which records the thermoEMF |Z, p. 1721).

A common essential feature of the prototype method and the invention method is that a hole is made in the cutting edge of the cutter.

However, unlike the method of the invention, in the method of the prototype, this hole cannot be made directly at the top of the cutter, because it will be weakened. Therefore, the temperature of the metal measured in this way in the cutting zone will be an approximate value. Go)

Thus, the disadvantage of the prototype method is the low accuracy of measuring the temperature of the metal in its cutting zone.

The basis of the invention is the task of improving the method of measuring the metal temperature in the cutting zone, which will ensure an increase in the accuracy of the measurement result. with

The task is solved by the fact that the hole in the cutting edge of the cutter is made directly at the top of the Ge»! the cutting edge of the cutter, place the irradiated crystal in it, after which the metal cutting process is carried out at the specified mode, then the irradiated crystal is dismantled and with the help of a diffractometer, the parameters o of its crystal lattice are taken, for which, according to the existing temperature table, the corresponding temperature value c is found as the desired temperature value metal in its cutting zone. 3o Since the irradiated crystal used as a sensor (for example, silicon carbide or diamond) has a rather small size (from 0.0 mm to 0.3 mm), it can be placed in the immediate vicinity of the top of the cutting edge of the cutter. Thus, the temperature of the metal in the cutting zone will be measured with greater accuracy.

In the claimed method of measuring the temperature of the metal in the cutting zone, it is performed in the following sequence: "1. At the top of the cutting edge of the cutter, a hole is made (or several holes, if it is necessary to obtain a 70° temperature field). c 2. Place an irradiated crystal in this (or in each) hole.

From" 2. The workpiece is processed at a specified cutting mode - a certain number of revolutions, feed, cutting depth, etc. 3. Disassemble the irradiated crystal. 4. With the help of a diffractometer, the parameters of the crystal lattice of the used irradiated 7 crystal are taken.

Ge | 5. For the obtained parameters of the crystal lattice, according to the existing temperature table, find the corresponding temperature value, which will be the desired value of the temperature of the metal in its cutting zone. o When conducting tests to implement the proposed method of measuring the metal temperature in (Te) 20 its cutting zone, the authors used: a 16 K 20 lathe and screw-cutting machine, a cutter with the material of the cutting part - hexonite, irradiated silicon carbide crystals with a diameter of 0.2 mm, a DRON diffractometer- 2. As a result, we obtained an increase in the measurement accuracy of the proposed method compared to the prototype method within 1905.

References 1. V.V. Kolomiets "Temperature field in hexonite cutters - P during turning of surfacing surfaces". 29 2. S.A. Klymenko, P.P. Melnychuk "Turning of wear-resistant protective coated"

GF) Z. P.I. Yashcheritsyn et al. "Theory of cutting". name)

Claims (1)

The formula of the invention The method of measuring the temperature of metal in its cutting zone, which includes making a hole in the cutting edge of the cutter, which is characterized by the fact that the hole is made directly at the top of the cutting edge of the cutter, an irradiated crystal is placed in it, and the metal cutting process is carried out at a given mode, after which the irradiated one is dismantled crystal and with the help of a diffractometer, the parameters of its crystal lattice are taken, for which, according to the existing temperature table, the corresponding temperature value is found, which will be the desired value of the temperature of the metal in its cutting zone. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, MZ, 15.03.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. s (8) s Fo so s m. shi s ;" -I (ee) (95) o 50 Ko) F) ime) 60 b5