SU926039A1 - Method for treating workpieces of perlite steel - Google Patents

Description

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The invention relates to the processing of metals by pressure and can be used in the manufacture of high-. cold rolled steel strip or shaped profiles by the method of cold rolling or rolling - drawing.

There is a method of steel processing in the production of high-strength tape, including the preparation of the structure of a hot-rolled billet by annealing at .. 680-700 C and multiple alternating cold rolling with total squeezing and intermediate heat treatments - recrystallization annealing at temperature. An increase in about-, j shrinkage above kQ% leads to cracking of the edges of the Li tape.

A disadvantage of the known method is the fact that the steel does not have sufficient JQ deformability during cold rolling.

The purpose of the invention is to increase the deformability of pearlite steel.

The goal is achieved by the fact that according to the method of processing blanks from pearlite steel, including heat treatment after hot deformation in intermediate size and cold deformation, before cold deformation the workpiece is heated to 1000-1050 ° C at a speed of 500-1500 deg / min BO-tO with 1 mm thickness and cooled in air, and then released at | 00-600 ° C with a shutter speed of 1-6 minutes per 1 mm of thickness.

As a result of such preparation of the structure of hot-rolled metal, the billet can be deformed without cracking the edges with a total reduction of 78-82% without intermediate heat treatment. The process can be repeated on the size of the cold-rolled billet to obtain a tape of the desired size. With a total reduction of 7882, a high level of mechanical properties of the hardware is achieved.

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Normalization at 1000–1050 ° C ensures the occurrence of structural recrystallization of austenite after hot deformation and the dissolution of carbides. In the cold-rolled with a large compression of the workpiece, in addition there is healing of submicrocracks that occur during plastic deformation. Rapid heating at a speed of 5001500 / min and short exposure (30-50 s) at 1000-1050 ° C is necessary to obtain non-uniform austenite and a small austenite grain. When the heating rate is less than 500 K / min, the austenitic grain begins to grow, and at a speed of more than 1500 K / min, austenite heterogeneity is not necessary. The small amount of austenitic grain and the structural re-crystallization of austenite contribute to the high viscosity of the ferritic component of the structure in a cold state. The heterogeneity of austenite contributes to the nucleation during cooling in air of a large number of carbide particles, which ensures the formation of a sorbit-like structure of considerable strength and an increased resistance to edge cracking. Due to the considerable heterogeneity of austenite during cooling

in air, a small section preparation may have micro-inhomogeneity of the structure — along with samite portions of reed and even bainite. In order to eliminate structural heterogeneity and increase the toughness of steel, tempering is carried out at 00-600 ° C with an exposure of 16 minutes per 1 mm of the thickness of the workpiece.

Example. The billet is processed by cold rolling curtain tape from steel UBA from the size of hot tackle 2.2 mm to thickness O, mm, and then to thickness O and About mm. Normalization of the rolled stock is carried out in a continuous gas-flame furnace at the furnace temperature. The temperature of the workpiece, measured by thermocouples welded to it, is 1020 ° C. The heating rate is set to 850 degrees / min. The residence time of the tape in the furnace is 30 s per 1 mm of the thickness of the workpiece. Constancy of the cooling rate is provided by the fan at the outlet of the furnace. The tempering is made into a string in an alkaline melt bath at 50 ° C. The residence time in the bath was 6 minutes per 1 mm of thickness, after which the tape was wound into a roll. The properties of the tape after the normalization of vacation and after recrystallization annealing by a known method are given in.

Claims (1)

Claim A method of processing billets made of pearlite-grade steel, including heat treatment after hot deformation in an intermediate size and cold deformation, characterized in that, in order to increase the deformability of steel, the billet is heated to 45 to 1000-1050 ° C before cold deformation at a speed of 500-1500 deg / min, they withstand 3050 s per 1 mm of thickness and are cooled in air, and then released at 4006 ° C with an exposure of 1-6 min per 1 mm 50 thicknesses.