Method for rolling and shaping titanium alloy special-shaped ring forging

A special-shaped ring, titanium alloy technology, applied in the direction of metal rolling, can solve the problems affecting the delivery and use of forgings, prolong the production cycle, rolling cracking, etc., to reduce the machining allowance and the waste of precious titanium alloy materials, realize Precise rolling, the effect of improving dimensional accuracy

Active Publication Date: 2008-10-08
GUIZHOU ANDA AVIATION FORGING
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  • Abstract
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Problems solved by technology

When using this process to roll special-shaped rings of different shapes, the roll type needs to be replaced again, and frequent change of roll type will increase manufacturing costs, prolong the production cycle, and is not conducive to equipment maintenance
[0004] The above-mentioned ring forming method does not disclose the specific process steps of rolling the titanium alloy special-shaped ring forging. The structure and performance of forgings have a great influence, and the inaccurate selection of deformation amount will cause defects such as structure variation, coarse grains, crushing, cracking, and flashing of ring forgings, which will affect the delivery and use of forgings

Method used

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  • Method for rolling and shaping titanium alloy special-shaped ring forging
  • Method for rolling and shaping titanium alloy special-shaped ring forging
  • Method for rolling and shaping titanium alloy special-shaped ring forging

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[0029] The main chemical element content (percentage by weight) of the alloy is: 5.5% to 7.0% of Al, 1.5% to 2.5% of Zr, 0.5% to 2.0% of Mo, 0.8% to 2.5% of V, 0.8% to 2.5% of V, Fe content ≤0.25%, Si content ≤0.15%, C content ≤0.10%, N content ≤0.05%, O content ≤0.15%, H content ≤0.015%, other trace elements total ≤0.30% , The balance is Ti.

[0030] The process steps of the alloy from the bar to the production of qualified special-shaped ring forgings are as follows:

[0031] Step 1: Billet making of a rectangular pre-rolled billet. Such as figure 1 As shown, the BT20 alloy bar 1 blanked according to the specification is heated in a forging heating furnace to a deformation temperature of 30°C below the phase transition point, and is upset on a forging press to deform it by 65% ​​to 70% to obtain a solid round cake 2. Then the solid round cake 2 is punched out of the central hole with a punch 4 to obtain a hollow round cake 3, the inner diameter of the hollow round cake 3 ...

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Abstract

The invention discloses a rolling and shaping method for a titanium alloy heterotypic ring forging in order to obtain the alloy heterotypic ring forgings with excellent tissues and properties as well as realize accurate rolling. The method includes the following steps: alloy bar material is heated, carried out continuous upsetting and deformed by 65 to 70 percent, so as to be made into a solid cake and then is punched again to lead the alloy bar material to be made into a hollow round cake after the aperture dimension of the alloy bar material is 30 to 35 percent of the dimension of the outer diameter thereof; a rectangle ring blank is obtained after the hollow round cake is heated, rolled circularly and deformed by 25 to 30 percent; a rectangle pre-rolling blank is obtained after the rectangle ring blank is heated, rolled circularly and deformed by 25 to 30 percent again; the pre-rolling blank is heated and arranged in a rolling die of a ring rolling machine and becomes a heterotypic ring forging after being rolled and deformed by 40 to 45 percent in a section groove of the die. When in expansion, the broadening speed of the pre-rolling blank along the radial direction is 2mm/s to 15mm/s with a radial rolling force of 40000kg to 220000kg. The method is mainly used for the shaping of the heterotypic ring forging of an aeroengine or a gas turbine. The method can be adopted to obtain the heterotypic ring forging that is arranged in a flow line along the outline of a part.

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 titanium alloy special-shaped ring forging. Background technique [0002] Special-shaped ring forgings of aero-engines or ground gas turbines made of titanium alloys (such as Russian BT20 and other materials), such as rear-installed side rings and other components, require forgings to have good performance and structural stability due to long-term work in harsh environments . [0003] The Chinese invention patent specification CN 1586754A published on March 2, 2005 discloses a method for rolling and forming a ring with an outer step section. The longitudinal section of the ring is a non-rectangular outer step shape, that is, the ring The piece belongs to a special shape of the special-shaped ring forging. The method includes blanking, billet making, rolling and subsequent processing. The special-shaped rings rolled by this method are re...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21H1/06B21J1/04
Inventor 张华舒毅邹伟蒋礼萍张衡江锦权谢永富郑永灵陈祖祥陈元奎杨国平
Owner GUIZHOU ANDA AVIATION FORGING
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