SU1368335A1 - Method of heat treatment of long cold-deformed articles in furnace - Google Patents

Abstract

This invention relates to a technique for the heat treatment of metal products in the iron and steel industry. The aim of the invention is to improve the quality by eliminating mechanical straightening of products. Long-length cold-deformed products on the receiving table and the roller table have a deformation radius down and at polygonization temperatures they are straightened by their own weight and are discharged from the furnace with a single-deformed package. Laying long items on the receiving table in a position of a downward radius is made by collecting them into a single-sided package with one-sided rigid fixation of their ends, dialing, for example, articles in the holder alternately (the holder can be solid, with cells for products, or with folding krshkoy). During transportation along the length of the furnace, the deformed products are subjected to heating at the temperature of the radiating surface of the heaters, for example, radiation, equal to 1.18-1.22 polygonization temperature of the metal. € 1

Description

This invention relates to the heat treatment of metal products in the steel industry.

The aim of the invention is to improve the quality by eliminating mechanical straightening of products.

The method is carried out as follows.

The long-length cold-formed products on the receiving table and the roller table have a deformation radius downwards and at polygonid temperature at the temperatures they are corrected under the action of their own weight and are discharged from the furnace with a single-layer non-deformed package. Laying lengthy products on the receiving table in a position of a downward radius is made by collecting them in a single-sided package with one-sided, rigid fixation of their ends. The assembly of products into a single package is carried out to ensure uniform and simultaneous heat treatment of all elements of the package, thereby eliminating their overlap. Fixing products made from one of the ends, dialing, for example, products in the holder alternately (the holder may be solid, with cells for products or with folding). Second, the end of the product must be free to naturally distribute the product under the force of gravity at polygonization temperatures. Items in the cage are fixed motionless relative to each other and close to each other. This ensures the elimination of the random deviation of products from the direct and, in addition, simultaneous editing of the entire package and the issuance of finished products of the same quality.

During transportation along the length of the furnace, the deformed products are subjected to heating at the temperature of the radiating pipe. After lash and

heaters, for example, radiation, equal to 1.18-1.22 polygonization temperature of the metal. This ensures intensive and reliable heating of the products to the required temperatures, elimination of the deformation of the products and optimization of the fuel consumption for the process. At lower surface temperatures of the heaters (less than 1.18 polygonization temperature of the metal), the intensity of the process is artificially underestimated. At higher surface temperatures of the heaters (over 1.22 polygonisation temperatures, a package of tubes is pulled out of the furnace in an undeformed form.

Example 3. A single package is formed in the manner described. During transportation through the furnace, the package is heated at a temperature of the radiating surface of the heaters equal to 1.22 of the polygonization temperature of the metal, i.e. at 1.22-780.

55 An increase in this temperature even to a value of 990 ° С leads to the appearance of deformation heredity in the metal and more than 2–4% of non-conforming products.

metal) it becomes possible the occurrence in the metal of deformation inheritance and deterioration of the quality of the finished product.

Example 1. After a drawing mill, lengthy products, such as a pipe, are fed into a receiving table of a heat-treatment furnace by a multi-pack with stacking straws. The straw pack is disassembled, each tube is radially down, and the end of the tubes are alternately inserted into the holder with a movable clamp close together to each other. close and the bag thus formed along the roll table is sent to the furnace. During transportation along the furnace, the pipes are heated at a temperature of the radiating surface of the heaters equal to 1.20 of the polygonization temperature of the metal. As applied to the heating of boiler pipes made of steel 20K, this temperature is 1.20.780 935 ° C (where 780 s is the temperature of polygonization of the metal). Under the influence of gravity at specified temperatures, the pipes are expanded. Then the package is subjected to aging, cooling, and issued from the furnace in undeformed form.

Example 2. A single-package of tubes formed by the described method along a roller bed is sent to a furnace. During transportation through the furnace, it is heated at a temperature of the radiating surface of the heaters equal to 1.18 of the polygonization temperature of the metal, i.e. at 1.18-780 920 ° C. Lowering this temperature further to a value without improving the quality of the heat treatment results in a decrease in the specific productivity of the furnace by 7-9%.

Under the influence of gravity at specified temperatures

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five

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cooling the tube pack is taken out of the furnace in an undeformed form.

Example 3. A single package is formed in the manner described. During transportation through the furnace, the bag is heated at a temperature of the radiating surface of the heaters equal to 1.22 polygonization temperatures of the metal, i.e. at 1.22-780.

An increase in this temperature even to a value of 990 ° С leads to the appearance of deformation heredity in the metal and more than 2–4% of non-conforming products.

Under the influence of gravity in a furnace, pipes are being straightened. After holding and cooling, the tubes are taken out of the furnace in an undeformed form.

The application of the proposed method. provides complete or partial exclusion from the production line of mechanical straightening of products and, as a result, reduced capital and operating costs.

Claims (1)

Invention Formula The method of heat treatment of long cold products in 368335 furnaces, mainly pipes, including the supply of components to the receiving table, their distribution over the width of the roller table,  fixing the pipes in the package and moving it through the furnace with simultaneous heating using heaters to a predetermined temperature, which is so that, in order to improve by eliminating mechanical straightening, the pipes are placed in the package with a deformation radius down and fix the pipes in the package rigidly from one end, and heating is carried out at a temperature radiating to the surface of the heaters equal to 1.18–1.22 of the temperature of the polygonization of the metal.