SU943300A1 - Method for treating billets of carbon and alloyed steel - Google Patents

Description

This invention relates to heat treatment of steel for granular perlite. The known method of processing is on grain, perlite perforated, which consists in the fact that the workpiece is slowly heated to a temperature below the point AC is kept, and then it is cooled very slowly to room temperature G13. A method of treating carbon and alloyed steels is known, which includes heating to a temperature slightly higher than AC-, exposure, ensuring the preservation of fine carbides, cooling to a temperature below Ar, aging for decomposition of austenite, and slow subsequent cooling 2. However, this method requires slow cooling down heating and holding at a temperature above AU and can be realized when cooling billets with a furnace, which makes it difficult to apply the method when processing, for example, riot steel in salt annah. A treatment method is also known, which includes heating to austenite homogenization temperature, aging, cooling with isothermal exposure at temperatures above Mn by 20-30 °, heating to temperatures below AU, aging for decomposition of austenite and subsequent cooling Z. However, to obtain granular pearlite according to the well-known the method requires high-temperature heating, cooling in a narrow range of Mn + 2030 °, which complicates the heat treatment technology and makes it difficult to apply the method when processing workpieces in ribs, coils, etc. The purpose of the invention is to simplify the technology for producing granular perlite and increase the deformability of blanks during cold plastic deformation.

The goal is achieved by the fact that the riot billet is heated above Ac, and aging, ensuring the preservation of fine carbides, isothermal cooling in the temperature range Mn (Mn + 100-120 ° C), heating to a temperature slightly below Ac, exposure and subsequent cooling.

As a result of processing by the proposed method, granular perlite is obtained, which creates a supply of plastic properties and deformability of the workpiece during cold plastic deformation, simplifies the technology of heat treatment of the workpieces, as there is no need to heat to high temperatures, and isothermal cooling is carried out in the range of significantly higher than Mn.

The method is tested on a 06.5 mm wire rod made from U8A steel and 2.5 mm wire from 65C2BA steel. The billet is subjected to heat treatment according to the known and proposed methods, and then is pulled in a wire (see table).

l x with isothermal aging at 280, 10 min, heating 700, aging 30 minutes, air cooling

 II

Heating 7bO °, vydlagladerzhka 10 min, okhmya izlozhdenie with isothermal exposure in mol x at a temperature:

250 300 ° 350 380 °

for 10 min, heating 700, holding 30 min, air cooling

Heating 950 ", you 65С2ВА

known hold for 10 minutes, okhkatanka 2.5 mm clad with isothermal exposure in salt pr | 320, for 10 minutes, heating, holding 30 minutes, air cooling

6.5-6.0-5.5 5.0-4.5-, 0

3.5-3.0.

 II

. II "

6.5-6.0-5.5 5.0-i, 5 break in 9

2.5-2.2 -1.9

1.7-1.5-1.3

1.2-1.08-1

Table continuation

Claims (1)

Claim A method of processing billets of carbon and alloy steel, including heating above Ac ^, holding to ensure the preservation of finely dispersed carbides, cooling with isothermal holding at a temperature above below Ac ^, curing by the fact that this treatment, isothermal holding is carried out in the range of Mn - ( Mn + + 100-120 ° C). Mn, heating to a temperature exposure and subsequent hunting in order to simplify the technology