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A method for preparing titanium-polyethylene porous titanium coating on the surface of titanium alloy substrate

A titanium alloy and polyethylene technology, applied in prosthesis, medical science, pressure inorganic powder coating, etc., can solve the problems of low forming efficiency, unfavorable promotion and application, etc., achieve short production cycle, improve long-term stability, good The effect of biomechanical compatibility

Active Publication Date: 2016-08-03
CHINA WEAPON SCI ACADEMY NINGBO BRANCH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Chinese patent 200710017689.9 reports a method of preparing porous titanium by mixing titanium powder and magnesium powder using cold spraying technology and high-temperature sintering technology. However, because magnesium is relatively active, it will cause great danger if the spraying temperature is high during the spraying process. Therefore, it causes the disadvantage of low forming efficiency, which is not conducive to further promotion and application

Method used

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  • A method for preparing titanium-polyethylene porous titanium coating on the surface of titanium alloy substrate
  • A method for preparing titanium-polyethylene porous titanium coating on the surface of titanium alloy substrate
  • A method for preparing titanium-polyethylene porous titanium coating on the surface of titanium alloy substrate

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Effect test

Embodiment 1

[0015] (a) Mechanically mix polyethylene powder with a particle size of 150 mesh and titanium powder with a particle size of 325 mesh to prepare titanium-polyethylene mixed powder, wherein the content of polyethylene powder is 10%.

[0016] (b) Planarize the surface of the titanium alloy substrate, remove surface rust and oil stains with sandpaper and acetone, and then roughen it by sandblasting.

[0017] (c) Spray the powder prepared in step (a). The spraying process is as follows: the working gas pressure is 2.5MPa, the working gas temperature is 150°C, and the spraying distance is 20mm.

[0018] (d) Vacuum sintering the coating obtained in step (c) with a degree of vacuum of 5×10 -3 Pa, the sintering temperature is 800°C, and the temperature gradient is controlled, the temperature is raised from room temperature to 700°C, kept for 10 minutes, and then raised to 800°C at a speed of 8°C / min, and the sintering time is 80 minutes, so as to remove the coating. The polyethylene ...

Embodiment 2

[0022] (a) Mechanically mix polyethylene powder with a particle size of 200 mesh and titanium powder with a particle size of 325 mesh to prepare titanium-polyethylene mixed powder, wherein the content of polyethylene is 20%.

[0023] (b) Planarize the surface of the titanium alloy substrate, remove surface rust and oil stains with sandpaper and acetone, and then roughen it by sandblasting.

[0024] (c) Spray the powder prepared in step (a). The spraying process is as follows: the working gas pressure is 3.0MPa, the working gas temperature is 180°C, and the spraying distance is 22mm.

[0025] (d) Vacuum sintering the coating obtained in step (c) with a degree of vacuum of 5×10 -3 Pa, the sintering temperature is 850°C, and temperature gradient control is carried out, the temperature is raised from room temperature to 650°C, kept for 15 minutes, and then raised to 850°C at a speed of 10°C / min, and the sintering time is 2.5 hours, so as to remove the coating The polyethylene com...

Embodiment 3

[0029] (a) Mechanically mix polyethylene powder with a particle size of 250 mesh and titanium powder with a particle size of 325 mesh to prepare titanium-polyethylene mixed powder, wherein the content of polyethylene is 30%.

[0030] (b) Planarize the surface of the titanium alloy substrate, remove surface rust and oil stains with sandpaper and acetone, and then roughen it by sandblasting.

[0031] (c) Spray the powder prepared in step (a). The spraying process is as follows: the working gas pressure is 3.25MPa, the working gas temperature is 200°C, and the spraying distance is 25mm.

[0032] (d) Vacuum sintering the coating obtained in step (c) with a degree of vacuum of 5×10 -3 Pa, the sintering temperature is 900°C, and the temperature gradient is controlled. The temperature is raised from room temperature to 550°C, kept for 5 minutes, and then raised to 900°C at a speed of 15°C / min, and the sintering time is 3 hours, so as to remove the coating. The polyethylene component...

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Abstract

The invention relates to a method for preparing a titanium-polyethylene porous titanium coating on the surface of a titanium alloy matrix. The method is characterized by comprising the following steps: with polyethylene powder as a pore forming agent, mixing the pore forming agent with titanium powder to obtain titanium-polyethylene mixed powder, wherein the content of the polyethylene powder is 10%-40%; carrying out surface pretreatment on the titanium alloy matrix, and then spraying the titanium-polyethylene mixed powder on the surface of the titanium alloy matrix by utilizing a cold spraying method; finally, carrying out vacuum sintering on a coating obtained by spraying, so as to remove a polyethylene component from the coating. The method has the advantages that the coating is prepared by combining the cold spraying method with a high-temperature sintering method, a preparation process is simple, the production period is short, and the performance of the coating is good; the prepared porous titanium coating has a perfect porous structure and good biomechanical compatibility, so that the growth of bone tissues is benefited, the long-term stability of bone interfaces of an implant and a host can be improved, and a mature implant stent manufacturing technique is provided for the bone transplantation of the modern medical science.

Description

technical field [0001] The invention belongs to the technical field of surface processing and modification, and relates to a preparation process for preparing a dental implant and a bone graft on the surface of a titanium alloy substrate, in particular to a method for preparing a titanium-polyethylene porous titanium coating on the surface of a titanium alloy substrate method. Background technique [0002] The materials currently used for bone tissue repair and replacement mainly include metals and alloys, bioceramics, polymers, composite materials, and bone-derived products of humans and animals. In view of the complex biomechanical requirements of the bone and joint system, the biomaterials used must have sufficient mechanical strength and be firmly combined with the host bone in addition to having the biosafety of other materials such as non-toxic side effects. In this context, pure titanium and its alloys have been clinically favored due to their elastic modulus similar...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C23C24/04A61L27/42A61L31/12
Inventor 马冰冯胜强依颖辉郑子云刘红伟刘光潘力平刘琴石磊马志华杜乐一
Owner CHINA WEAPON SCI ACADEMY NINGBO BRANCH
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