UA15223U - Method for production of the hard-drawn tape made of carbon steel - Google Patents

Abstract

Method for production of the hard-drawn packing tape made of carbon steel includes cold rolling and cutting. Moreover at first the selection of the steel quality is made for production of the hard-drawn and partly hard-drawn tape made of carbon fine steel with carbon content of 0.17à 0.24% and silicon 0.17à 0.37%, cold rolling is accomplished with relative degree of deformation for hard-drawn tape of 51.7%-67.0% with subsequent heat treatment at a temperature of 540-550 DEGREE C, and for partly hard-drawn tape - with relative degree of deformation of 52.6%-60.2% and at a temperature of annealing of 640-650 DEGREE C, then the hardening with relative reduction to 3.0% is made followed by cutting.

Description

Description of the invention

The useful model refers to rolling production and can be used in the production of durable 2 packing tape.

Is there a known way of producing packaging tape with a strength limit of 820 N/mm? |magazine taken as a prototype, "Metalurg Mo8, 2001, p.48).

At Ispat Karmet CJSC, the production technology of cold-rolled annealed strip (with a strength limit of not less than 5ООН/mm?) involves the following operations after the preparation of the roll: cold rolling and cutting of the strip, in addition to heat treatment and training of cold-rolled metal. Use for the production of packing tape of carbon steel of ordinary quality with a carbon content of 0.14...0...0.2295, silicon 0.05...0...0.1595 in a complex with a relative degree of deformation up to 7095 when cold rolling provided the necessary properties (strength limit 820N/mm?, relative elongation 1.595). However, the spring effect, which arose due to the high degree of slander, did not /5 allow tightly wrapping the bundle, the tape burst at the bends during transportation.

To reduce the degree of slander, low-temperature annealing in hood furnaces after cold rolling with a higher unpacking temperature was tested. To ensure the heating of the roll at low temperatures, the duration of annealing, in particular the holding time, was increased by two hours. However, in this case, the quality of the tape was unsatisfactory: it stretched during packaging and transportation, or it burst. This is due to the significant spread of mechanical properties along the length of the strip, which is due to low-temperature annealing. Due to the fact that annealing did not ensure uniform heating of the roll and uniformity of mechanical properties, therefore three types of packaging tape were obtained in one roll: soft, semi-soft, tempered.

Taking into account the results of research and the technologies of mechanized packaging of products existing at Ispat Karmet CJSC, the current technology of production of packaging tape was improved, excluding annealing after cold rolling and training, and the necessary complex of service properties was obtained due to the optimal degree of deformation and chemical composition of steel: for for the packaging tape, high-quality carbon steel with a carbon content of 0.05...0...0.1195, silicon 0.05...0...0.1790 is selected. The disadvantage of the specified method is that the quality of the packaging tape obtained by this method was not optimal in the case of using the tape for packing bundles and rolls with the help of manual packing machines of foreign manufacturers in the conditions of production of the TsHP plant named after Ilyich, because it does not ensure the reliability of packaging during numerous loading and unloading operations (warehouse-wagon-warehouse-ship, etc.) and during product transportation. what)

The basis of the useful model is the task of developing a method of production from carbon steel (hardened (with a strength limit of at least 590N/mm?) packing tape size 1.0x3Omm, semi-hardened (with a strength limit of at least 340N/mm?) packing tape size 1 ,5x3 Ohm.

The task is weighted by the fact that the method of manufacturing annealed packaging tape "regulated by strength from high-quality carbon steel, which includes cold rolling and cutting, the choice of grade 70 steel for the production of annealed and semi-annealed tape from high-quality carbon steel with a carbon content of 0.17 . and there is" for semi-annealed tape - with a relative degree of deformation of 52.695 - 60.295 and at an annealing temperature of 6400-6502 C, after which they are trained with a relative compression to 3.090 and cut. After training, cold-rolled strips are cut into tape, for example, 1.0 x 3 mm and 1.5 x 3 mm. - To solve the problem, the packaging tape is made in the following sequence. Smelting by converter method of metal of a selected grade of steel with a regulated chemical composition, rolling of slabs 130x1070 mm on a 1700 hot rolling mill into strips measuring 2.5x106b0mm and 3.2x1060Omm, sulfuric acid etching of hot-rolled strips on a continuous etching unit with trimming of the edges according to the width of the strip to from 50 to 1025 mm, cold rolling on a 4-cell mill into strips of 1.0x1025mm and 1.5x1025mm, heat treatment in hood furnaces, dressing, cutting of cold-rolled strips into blanks and strips on cutting units. c" The claimed method is carried out in the following way.

Slabs rolled on slabbing machine 1150 to a size of 130x107O0mm are rolled on hot rolling mill 1700 into strips measuring 2.5x106Omm and 3.2x106Omm with a longitudinal thickness of no more than 595 from the nominal thickness. 22 Sulfuric acid etching of hot-rolled strips is produced according to current technology with trimming of the edges for a strip width of 1025 mm and winding of hot-rolled strips into two-strip etched rolls with a total weight of no more than 16 tons.

Cold rolling on a 4-cell stand of metal intended for packaging tape is produced from a 2.5x1025mm carbon steel billet with a carbon content of 0.17...0.2495 and silicon 0.17...0.53795 per 60 K cold-rolled 1.0 mm thick with a two-sided tolerance for thickness of 0.11 mm and a 3.2x1025 mm roll from the same grade of steel with a thickness of 1.5 mm with a two-sided tolerance for thickness -0.13 mm. Implementation of the cold rolling process with a relative degree of deformation of 51.795-67.095 and 52.695-60.295, respectively, at a speed of up to 15 m/s ensures stable rolling process with maximum productivity. Cold rolling with metal crimping less than 5095 is irrational from the point of view of the performance of the cold rolling condition. for Thermal treatment of two-strip cold-rolled rolls is carried out in hood furnaces with the formation of a cage containing no more than two rolls, according to the following modes:

- oven temperature 85050; - total heating time 13 hours; - exposure time of at least 5 hours; - the maximum unpacking temperature is 230.

Training is carried out with a relative compression up to 395. Processing according to the proposed method ensures the production of packaging tape with properties differentiated by the state of the material: semi-hardened (with a strength limit of at least 340N/mm, relative elongation of at least 795) and tempered (with a strength limit of at least 590N /mm, relative elongation is not regulated). Recrystallization annealing at a temperature of 70 degrees with a thermocouple of 6640-6502 C ensures the strength of a tape with a thickness of 1.5 mm, which corresponds to the state of the semi-annealed material (the average value of the temporary resistance to rupture is 462 N/mm (min. 430 N/mm? , max. 510 N /mm2 ), the average value of relative elongation is 3195 (min. 2895, max. 3495), withstands cold bending. According to all characteristics, the probability of ensuring the norms of current standards is 100905.

Annealing at a temperature of 540-550 - interrupted annealing (holiday) - ensures the strength of the 1.0 mm thick tape, which corresponds to the state of the annealed material: the average value of the temporary tear resistance is 732 N/mm? (min. 600N/mm, max. 835N/mm?), average value of relative elongation 1095 (min. 4965, max. 1990), average value of the number of inflections 7 (min. 3, max. 18). The probability of meeting the standards for temporary resistance to rupture is 100905, for the number of bends - 93 90.

On the basis of experience in the production of semi-annealed and annealed cold-rolled rolled products and determination of compliance of mechanical characteristics with the requirements of current standards, it was proposed to use high-quality structural carbon steel with a carbon content of 0.17...0.24965 and silicon 0.17...0 for the production of packaging tape ,53795. The industrial use of the packaging tape made according to the proposed technology showed quite high operational qualities. with with

Claims (2)

The formula of the invention 1. The method of production of annealed packaging tape from carbon steel, which includes cold rolling and steel cutting, which is distinguished by the fact that the steel brand is first selected for the production of annealed and semi-annealed tape from high-quality carbon steel with a carbon content of 0.17...0 ...0.24 905 and silicon with 0.17...0...0.537 95, and cold rolling is carried out with a relative degree of deformation for tempered y o o Ya and . . with tape 51.7 95-67.0 96 with subsequent heat treatment at a temperature of 540-5502С, and for semi-annealed tape - with a relative degree of deformation of 52.6 90-60.2 95 and at an annealing temperature of 640-6502С, after which IF ) from 5 training with relative compression to 3.0 95 and cutting. "-- 2. The method, which is distinguished by the fact that, after training, the cold-rolled strips are cut into 1.0x30 mm and 1.5x30 mm tapes. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, M 6, 15.06.2006. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. 0 Mauki Ukrainian - . and? - 1 ime) ime) syu 60 b5