Roll forming method of 2A70 aluminum alloy thin-walled ring forging

Abstract

The invention discloses a roll forming method of a 2A70 aluminum alloy thin-walled ring forging. In order to roll-form a thin-walled ring forging with high dimensional precision and excellent tissue and performance, the technical scheme comprises the steps of: firstly, sleeving a preheated follower die sleeve and an aluminum alloy pre-rolled blank heated to a deformation temperature in a ring rolling mill, sleeving the follower die sleeve in the pre-rolled blank, and positioning the two workpieces by using a main roll, a core roll, clutching rolls, an upper cone roll and a lower cone roll of the ring rolling mill; and starting the ring rolling mill, making a feeding motion by the core roll towards the direction of the main roll along the radial direction and rolling the pre-rolled blank at a rolling force of 100-2500KN under the support of the follower die sleeve by the core roll together with the main roll to ensure that the pre-rolled blank expands radially at a speed of 4-11mm/s, wherein the wall thickness is gradually reduced, and the pre-rolled blank is rolled into the thin-walled ring forging when the deformation reaches 35-55 percent. The minimum value of the wall thickness of the aluminum alloy thin-walled ring forging roll-formed by adopting the method is 25mm, the maximum value of the height-thickness ratio is 25mm, and the ring forging is mainly used for gyrorotor parts, such as a cylindrical shell and the like used in the fields, such as aerospace and the like.

Description

technical field [0001] The invention relates to a rolling forming method of a ring forging, in particular to a rolling forming method of a 2A70 aluminum alloy thin-walled ring. Background technique [0002] 2A70 aluminum alloy is an aluminum alloy that can be strengthened by heat treatment. Rotary parts such as cylindrical shells used in aerospace and other fields that are ring-rolled using this alloy are required to have high heat resistance when used in a temperature range of 200 to 250°C. During rolling, due to the small amount of deformation of the alloy, the wall thickness of the ring is thin, and the requirements for dimensional accuracy, performance and structure are high, which increases the difficulty of rolling forming. [0003] The Chinese invention patent specification CN 101279344A published on October 8, 2008 discloses a rolling forming method of aluminum alloy special-shaped ring forgings. The billet (without using the rolling die), and then put the billet i...

AI Technical Summary

Problems solved by technology

When using this method to roll the 2A70 aluminum alloy thin-walled ring with a thinner wall thickness, since the rolling die is fixed on the roll (that is, the main roll and the core roll), the gap between the pass shape of the rolling die and the pre-rolled billet during rolling The intense friction between them not only makes the rolling process very unstable and affects the production, but also easily leads to the temperature rise of the pre-rolled slab, which affects the structure and properties of the alloy, such as defects such as structure variation and coarse grains.

[0004] When using the above method and directly using the main roll and core roll of the ring rolling machine to roll (such as the ring rolling blank in the above method) thin-walled 2A70 aluminum alloy thin-walled rings, due to the rigidity of the core roll and other components of the ring

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