A kind of forging process of bearing ring

A technology of bearing rings and processes, which is applied to bearing components, shafts and bearings, engine components, etc., can solve the problems of affecting the service life of bearings, insufficient bearing precision, uneven wall thickness, etc., and achieve extended service life and good metal tightness , Eliminate the effect of wall thickness difference

Active Publication Date: 2017-06-30
JIANGSU JINYUAN FORGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Bearing rings are thin-walled ring forgings. During the forging process, problems such as uneven wall thickness, folding, and ellipse are prone to occur, resulting in insufficient bearing accuracy and affecting the service life of the bearing.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0006] A forging process for a bearing ring, characterized in that the bearing ring is composed of the following components in weight percentage: C: 0.17 Si: 0.17 Mn: 0.30 S: 0.015 P: 0.015 Cr: 1.25 Ni: 3.25, The balance is Fe; the forging process includes the following steps: 1), the first fire will have the steel ingot with the above composition using an intermediate frequency induction heating furnace to heat the temperature to 1200 ° C, press the jaws, chamfer, and stagger the nozzle; 2) , the second fire reheats the billet obtained in step 1) to 1120°C, upsetting and elongating; 3), the third fire reheats the billet obtained in step 2) to 1050°C, Upsetting, rotary flattening, punching, and hole reaming; 4), the fourth fire reheats the billet obtained in step 3), heating to 1020°C, upsetting in the die ring to the process size, ejecting the mold, and expanding the hole To the process size, the total forging ratio is controlled to 5.1, the furnace is heated to 795°C, held f...

Embodiment 2

[0008] A forging process for a bearing ring, characterized in that the bearing ring is composed of the following components in weight percentage: C: 0.19 Si: 0.27 Mn: 0.50 S: 0.025 P: 0.025 Cr: 1.45 Ni: 3.50, The balance is Fe; the forging process includes the following steps: 1), the first fire will have the steel ingot with the above composition using an intermediate frequency induction heating furnace to heat the temperature to 1200 ° C, press the jaws, chamfer, and stagger the nozzle; 2) , the second fire reheats the billet obtained in step 1) to 1130°C, upsetting and elongating; 3), the third fire reheats the billet obtained in step 2) to 1080°C, Upsetting, rotary flattening, punching, and reaming; 4), the fourth fire reheats the billet obtained in step 3), heating to 1030°C, upsetting in the die ring to the process size, ejecting the mold, and reaming To the process size, control the total forging ratio to 5.2, heat up the furnace to 795°C, hold for 7 hours, rapidly cool...

Embodiment 3

[0010] A forging process for a bearing ring, characterized in that the bearing ring is composed of the following components in weight percentage: C: 0.23 Si: 0.37 Mn: 0.60 S: 0.035 P: 0.035 Cr: 1.65 Ni: 3.65, The balance is Fe; the forging process includes the following steps: 1), the first fire will have the steel ingot with the above composition using an intermediate frequency induction heating furnace to heat the temperature to 1200 ° C, press the jaws, chamfer, and stagger the nozzle; 2) , the second fire reheats the billet obtained in step 1) to 1150°C, upsetting and elongating; 3), the third fire reheats the billet obtained in step 2) to 1100°C, Upsetting, rotary flattening, punching, and hole reaming; 4), the fourth fire reheats the billet obtained in step 3) to 1050°C, upsetting in the die ring to the process size, ejecting the mold, and expanding the hole To the process size, the total forging ratio is controlled to 5.5, the furnace is heated to 795°C, held for 7 hour...

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PUM

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Abstract

The invention relates to a forging process of a bearing ring. The process includes following steps that: 1) in first firing, a medium-frequency induction heating furnace is adopted to heat an ingot to 1200 DEG C, dead head pressing, chamfering and sprue filing are performed; 2) in second firing, re-heating, upsetting and drawing out are performed on the machined ingot; 3) in third firing, re-heating, upsetting, rotary flattening, punching and reaming are performed on the machined ingot; 4) in fourth firing, the machined ingot is re-heated, and upsetting is performed on the machined ingot in a mold ring, so that the machined ingot can be in a technique size, the mold is removed, and reaming is performed on the machined ingot, so that the machined ingot can be in a technique size, and total forging ratio is controlled to be larger than 5; 5) groove turning is performed, the machined ingot is subjected to cold rolling and reeling on a closed shaping and reaming machine, and rolling paths and chamfered angles are molded with one step, truing is performed, and two end surfaces are subjected to soft grinding; 6) the machined ingot is pre-heated to 800 DEG C to 850 DEG C, after crack detection is performed, when the temperature of the machined ingot is lower than 450 DEG C, the machined ingot is put into the furnace so as to pre-heated to 600 DEG C to 650 DEG C, and heat preservation is performed on the machined ingot, and the machined ingot is put in to the furnace of which the temperature ranges from 950 DEC C to 1000 DEC and is rapidly heated to 1140 DEC C to 1200 DEC C, and water quenching is performed, and instantly, tempering from 550 DEC C to 600 DEC C is performed on the machined ingot, and the machined ingot is cooled to 400 DEC C to 450 DEC C in the furnace, and the machined ingot is taken out from the furnace and cooled. With the forging process adopted, inherent defects of metal can be eliminated, and the service life of a bearing can be prolonged.

Description

technical field [0001] The invention belongs to the technical field of forging, in particular to a forging process of a bearing ring. Background technique [0002] Bearing ring is an important annular part of a rolling bearing with one or several raceways, and its weight generally accounts for about 60-70% of the total weight of the bearing. The ring blanks include forgings, cold extrusions, warm extrusions, pipes and rods Materials, etc., among which forgings account for about 85% of the total number of ferrule blanks. The internal quality of the ferrule includes material density, metal fiber streamline distribution, grain size and deformation heat treatment, etc., which have a great influence on the life of the bearing. Therefore, the quality of the ferrule blank and the productivity will have a great impact on the bearing. It has an important impact on the quality, performance, life of the product and the economic benefits of the enterprise. Bearing rings are thin-walle...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B23P15/00B21K1/04C22C38/40F16C33/58
CPCB21K1/04B23P15/003C22C38/002C22C38/02C22C38/04C22C38/18C22C38/40F16C33/64
Inventor 葛艳明黄俊彭振
Owner JIANGSU JINYUAN FORGE
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