Titanium alloy cast ingot and preparation method thereof

A technology of titanium alloy and ingot casting, which is applied in the field of titanium alloy ingot casting and its preparation, and can solve the problems of deteriorating heat dissipation conditions of ingot casting, rising production costs, and unsatisfactory edges.

Active Publication Date: 2022-03-04
湖南湘投金天钛业科技股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, smelting with a small current can easily lead to shrinkage of the molten pool and unsatisfactory edges, leading to deterioration of the heat dissipation conditions of the ingot, not only failing to achieve the purpose of controlling composition segreg

Method used

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  • Titanium alloy cast ingot and preparation method thereof
  • Titanium alloy cast ingot and preparation method thereof
  • Titanium alloy cast ingot and preparation method thereof

Examples

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Effect test

preparation example Construction

[0048] An embodiment of the present invention provides a method for preparing a titanium alloy, which includes the following steps S10-S20.

[0049] Step S10 , pressing the raw material of the titanium alloy ingot by electrodes and then welding to produce a consumable electrode; the consumable electrode contains segregated elements.

[0050] Step S20, subjecting the consumable electrode prepared in step S10 to multiple times of vacuum consumable melting to obtain a titanium alloy ingot.

[0051] Among them, the steps of the last vacuum self-consumption smelting include the arc-starting smelting stage, the stable smelting stage and the feeding stage;

[0052] In the arc-starting smelting stage, first use a current of 3kA-6kA to strike the arc, then increase the melting current to the first current value within 1min-15min, and start arc-starting smelting for 5-30min; the first current value is 15kA-30kA.

[0053] In the stable smelting stage, reduce the smelting current to the ...

Embodiment 1

[0106] (1) According to the composition requirements of TC17 titanium alloy ingot in GB / T 3620.1, weigh the sponge titanium, aluminum-molybdenum master alloy, aluminum bean, sponge zirconium, metal chromium, titanium-tin master alloy that meet the requirements of the national standard, and mix After the batching system is mixed, it is pressed into an electrode block by an 8,000-ton hydraulic press, and welded into a Φ420mm cylindrical consumable electrode in a vacuum plasma welding box. The pressure used for pressing is 300Mpa-400Mpa.

[0107] (2) The consumable electrode obtained in step (1) is used for the first vacuum consumable smelting in a Ф500mm crucible to obtain an ingot. The parameters are: first use 2-4kA current to strike the arc, and keep it for 2 minutes. After the arc is successfully struck, increase the melting current to 14-16kA within 6 minutes, and start the arc to melt for 20 minutes; then reduce the melting current to 13-10 minutes within 10 minutes. 15kA...

Embodiment 2

[0117] Example 2 is basically the same as Example 1, except that the parameters of the arc-starting smelting stage of the third vacuum self-consumable smelting in step (4) are as follows: first use 3kA to 5kA current to start the arc, keep it for 2min, and successfully After arc ignition, increase the melting current to 26kA~28kA within 12 minutes, and start arc melting for 20 minutes; then reduce the melting current to 11kA~13kA within 25 minutes, and control the vacuum degree below 1.33Pa, and the melting voltage is 26V~28V. The arc current is 6A ~ 10A, and the melting is carried out stably. When the weight of the remaining unmelted consumable electrodes is 140Kg, it starts to enter the feeding stage, and the melting current gradually decreases. Other steps and parameters are the same as in Example 1.

[0118] The physical photograph of the titanium alloy ingot that present embodiment 2 makes is as figure 2 As shown, the surface is bright silver-white, without obvious surf...

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Abstract

The invention relates to a titanium alloy cast ingot and a preparation method thereof. According to the smelting method of the titanium alloy cast ingot, the smelting current in the arc starting stage is controlled to be 8 kA to 20 kA higher than that in the stable smelting stage, so that the heat input in the initial stable smelting stage is increased, the strong cooling effect at the beginning of smelting is counteracted, and the stable smelting voltage can be reduced; and stable smelting can be carried out under the lower smelting current of 7 kA to 13 kA and the lower smelting voltage of 25 V to 29 V. The arc stabilizing current is further controlled to be 1A-12A, and is cooperated with lower stable smelting current and lower stable smelting voltage, so that the microsegregation degree of components of the prepared titanium alloy cast ingot is remarkably reduced, the macroscopic component uniformity is remarkably improved, beta spots are prevented from being formed, and the quality of the titanium alloy cast ingot is improved.

Description

technical field [0001] The invention relates to the technical field of metal smelting, in particular to a titanium alloy ingot and a preparation method thereof. Background technique [0002] Titanium alloy has become the material of choice for high-performance structural parts due to its excellent high strength, corrosion resistance and heat resistance. In addition, titanium has unique functions such as biocompatibility, superconductivity, hydrogen storage, shape memory, etc., and is widely used in medical equipment, chemical industry, aerospace, ships and other fields. Among them, TC17 titanium alloy is a nearly β-type two-phase titanium alloy with a nominal composition of Ti-5Al-2Sn-2Zr-4Mo-4Cr. It has many excellent properties and has been widely valued and recognized in the aviation industry at home and abroad. application. When TC17 titanium alloy is used in the preparation of engines, it is mainly used in the preparation of the first to third stage integral blisks of...

Claims

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Application Information

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IPC IPC(8): C22C1/02C22C14/00C22B9/20B22D7/00
CPCC22C1/02C22C14/00C22B9/20B22D7/005
Inventor 肖祥澳樊凯李超潘艺夫陈领黄立清
Owner 湖南湘投金天钛业科技股份有限公司
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