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Method for improving high-temperature oxidization resistance of titanium-based alloy

A high-temperature oxidation-resistant, titanium-based alloy technology, applied in metal material coating technology, ion implantation plating, electrolytic inorganic material coating, etc., can solve the problems of reducing the bonding strength between the coating and the substrate, expensive equipment, and low production efficiency , to achieve the effect of improving high temperature oxidation resistance, excellent binding force and easy realization

Active Publication Date: 2016-05-04
ZHEJIANG UNIV
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  • Abstract
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Problems solved by technology

The second is to add a third or more alloying elements, such as: Nb, Sb, Si, Cr, Y, Mo, etc. Although the high-temperature oxidation resistance of TiAl alloys can be effectively improved, too high additions usually lead to TiAl alloys Decreased mechanical properties
Although the ion implantation method has controllable implantation amount and good repeatability, the equipment involved is more expensive and the production efficiency is lower, and the depth of changing the composition of TiAl alloy is limited to the shallow range of the surface (<1μm)
And protective coatings, such as metal coating MCrAl (Y), ceramic coatings (such as SiO 2 、Al 2 o 3 and ZrO 2 etc.), and diffusion coatings (such as Al, Si, etc.), although they can be used as shielding layers to prevent oxygen from penetrating into the substrate, there are still certain problems
The interdiffusion between the metal coating and the substrate is serious, the interface is easy to precipitate hard and brittle phases, and Kirkendall holes are generated at the same time, which seriously reduces the bonding strength between the coating and the substrate; the internal stress of the ceramic coating is large and the bonding strength with the substrate is relatively weak. Low; the thermal expansion coefficient difference between the diffusion coating and the substrate is large

Method used

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  • Method for improving high-temperature oxidization resistance of titanium-based alloy
  • Method for improving high-temperature oxidization resistance of titanium-based alloy
  • Method for improving high-temperature oxidization resistance of titanium-based alloy

Examples

Experimental program
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Effect test

Embodiment 1

[0030] First, the titanium-aluminum alloy sample (titanium-aluminum atomic ratio is 1:1) was polished to remove surface oxides with sandpaper, then ultrasonically cleaned in acetone and ethanol for 10 min, and finally dried with hot air for use. At 40keV energy, inject 1×10 15 cm -2 Cl, the implanted sample was annealed in vacuum at 200°C for 4h. Add 50 mL of absolute ethanol, 50 mL of water, and 1 mL of tetraethyl orthosilicate (TEOS) to the beaker in sequence, and use 0.5 mol·L -1 Adjust the pH to about 2.0 with HCl, and stir at room temperature for 2 h to obtain a precursor solution for use. The former body solution is used as the electrolyte, the ion-implanted titanium-based alloy is used as the cathode, and the graphite electrode is used as the counter electrode. The electrode spacing is controlled at 1cm, and the current density is controlled at -0.1mA·cm -2 , the deposition time is 1000s, after the deposition is completed, the working electrode is rinsed with deioniz...

Embodiment 2

[0035] First, the titanium-aluminum alloy sample (titanium-aluminum atomic ratio is 1:1) was polished to remove surface oxides with sandpaper, then ultrasonically cleaned in acetone and ethanol for 10 min, and finally dried with hot air for use. At 80keV energy, inject 1×10 20 cm -2 Cl, the implanted sample was annealed in vacuum at 400°C for 0.5h. Add 100mL of absolute ethanol, 100mL of water, 10mL of tetraethyl orthosilicate (TEOS) to the beaker in turn, 1.0mol·L - 1 HNO 3 Adjust the pH to about 6.0, and stir at room temperature for 6 hours to obtain a precursor solution for use. The former body solution is used as the electrolyte, the ion-implanted titanium-based alloy is used as the cathode, and the graphite electrode is used as the counter electrode. The electrode spacing is controlled at 10cm, and the current density is controlled at -0.1mA·cm -2, the deposition time is 1000s, after the deposition is completed, the working electrode is rinsed with deionized water an...

Embodiment 3

[0039] First, the titanium-aluminum alloy sample (titanium-aluminum atomic ratio is 1:1) was polished to remove surface oxides with sandpaper, then ultrasonically cleaned in acetone and ethanol for 10 min, and finally dried with hot air for use. At 60keV energy, inject 1×10 16 cm -2 Cl, the implanted sample was annealed in vacuum at 300°C for 2h. Add 75mL of absolute ethanol, 100mL of water, and 5mL of methyl orthosilicate (TMOS) to the beaker in sequence, and use 2.0mol·L -1 Adjust the pH to about 3.0 with HAc, and stir at room temperature for 4 h to obtain a precursor solution for use. The former body solution is used as the electrolyte, the ion-implanted titanium-based alloy is used as the cathode, and the graphite electrode is used as the counter electrode. The electrode spacing is controlled at 5 cm, and the current density is controlled at -2.0 mA cm -2 , the deposition time is 300s. After the deposition is completed, the working electrode is rinsed with deionized wat...

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Abstract

A method for improving the high-temperature oxidization resistance of titanium-based alloy includes the following steps that firstly, surface oxide of a titanium-based alloy matrix is removed, and then cleaning and drying are performed; secondly, characteristic ions are injected into the titanium-based alloy matrix through an ion injection method, wherein the characteristic ions are one or more of Cr, Y, Nb, F and Cl ions; thirdly, anhydrous ethanol, water and precursor alkyl silicate ester are mixed in proportion, then pH of a mixed system is adjusted to be 2.0-6.0, and stirring is performed at room temperature so that a precursor solution can be obtained; fourthly, the prepared precursor solution is added in two electrode tanks, electro-deposition is performed with the titanium-based alloy where the characteristic ions are injected as a cathode and platinum sheets or graphite as counter electrodes, a work electrode is washed in water after deposition is completed and then is dried, and a micro-nano oxide coating is obtained; and fifthly, the titanium-based alloy covered with the micro-nano oxide coating is subjected to heat treatment in air, and a coating resistant to high-temperature oxidization is obtained. The technology is simple and easy to achieve, and the high-temperature oxidization resistance of the titanium-based alloy is remarkably improved.

Description

technical field [0001] The invention belongs to the field of high-temperature oxidation resistance of metal materials, and in particular relates to a method for improving the high-temperature oxidation resistance of titanium-based alloys. technical background [0002] Titanium-aluminum alloy has the advantages of low density, high specific strength, high elastic modulus, and good high-temperature creep resistance. It is a high-temperature material with great application prospects. part. However, the actual use temperature of titanium-aluminum alloy is limited to below 750°C, because at higher temperatures, titanium and aluminum have similar affinity with oxygen, and TiO is formed on the surface of the alloy. 2 and Al 2 o 3 In the mixed layer, the growth rate of the oxide film is very fast, and it is easy to peel off. [0003] In order to overcome the above shortcomings, scholars at home and abroad have used alloying, ion implantation, surface coating, and anodic oxidatio...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C23C14/48C25D9/08C25D5/50
CPCC23C14/48C25D5/50C25D9/08
Inventor 胡吉明伍廉奎
Owner ZHEJIANG UNIV
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