Laser rapid repair of the aircraft components of titanium alloy

Lei Xue; Jing Chen; Fengying Zhang; Shuangyin Zhang; Weidong Huang

Laser rapid repair of the aircraft components of titanium alloy

Lei Xue, Jing Chen, Fengying Zhang, Shuangyin Zhang, Weidong Huang

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Researches on the laser rapid repair of titanium alloy components having defects mis-machined were investigated. There is a dense metallurgical bond between the repaired zone and the substrate. The microstructures of the repaired zone are primal columnar β grains within which exist α +β knit structures, specially the platelet width of intercrystalline a is less than 1 μm. It is found that the laser process parameters and the status of powders influence the defects, including gas porosities and lack of fusion among layers etc. Flawless samples were obtained through treating powders and optimizing laser process parameters. The results of repaired sample tensile test at room temperature show that σ_b is 1000 MPa, σ_0.02 is 925 MPa and δ is 8.0%, approaching to the wrought TC₄ alloy.

Original language	English
Pages (from-to)	1817-1821
Number of pages	5
Journal	Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
Volume	35
Issue number	11
State	Published - Nov 2006

Keywords

Defects
Laser rapid repair
Microstructures
TC titanium alloy
Tensile performance

Cite this

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abstract = "Researches on the laser rapid repair of titanium alloy components having defects mis-machined were investigated. There is a dense metallurgical bond between the repaired zone and the substrate. The microstructures of the repaired zone are primal columnar β grains within which exist α +β knit structures, specially the platelet width of intercrystalline a is less than 1 μm. It is found that the laser process parameters and the status of powders influence the defects, including gas porosities and lack of fusion among layers etc. Flawless samples were obtained through treating powders and optimizing laser process parameters. The results of repaired sample tensile test at room temperature show that σb is 1000 MPa, σ0.02 is 925 MPa and δ is 8.0%, approaching to the wrought TC4 alloy.",

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T1 - Laser rapid repair of the aircraft components of titanium alloy

AU - Xue, Lei

AU - Chen, Jing

AU - Zhang, Fengying

AU - Zhang, Shuangyin

AU - Huang, Weidong

PY - 2006/11

Y1 - 2006/11

N2 - Researches on the laser rapid repair of titanium alloy components having defects mis-machined were investigated. There is a dense metallurgical bond between the repaired zone and the substrate. The microstructures of the repaired zone are primal columnar β grains within which exist α +β knit structures, specially the platelet width of intercrystalline a is less than 1 μm. It is found that the laser process parameters and the status of powders influence the defects, including gas porosities and lack of fusion among layers etc. Flawless samples were obtained through treating powders and optimizing laser process parameters. The results of repaired sample tensile test at room temperature show that σb is 1000 MPa, σ0.02 is 925 MPa and δ is 8.0%, approaching to the wrought TC4 alloy.

AB - Researches on the laser rapid repair of titanium alloy components having defects mis-machined were investigated. There is a dense metallurgical bond between the repaired zone and the substrate. The microstructures of the repaired zone are primal columnar β grains within which exist α +β knit structures, specially the platelet width of intercrystalline a is less than 1 μm. It is found that the laser process parameters and the status of powders influence the defects, including gas porosities and lack of fusion among layers etc. Flawless samples were obtained through treating powders and optimizing laser process parameters. The results of repaired sample tensile test at room temperature show that σb is 1000 MPa, σ0.02 is 925 MPa and δ is 8.0%, approaching to the wrought TC4 alloy.

KW - Defects

KW - Laser rapid repair

KW - Microstructures

KW - TC titanium alloy

KW - Tensile performance

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Laser rapid repair of the aircraft components of titanium alloy

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Keywords

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