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Laser & Optoelectronics Progress, Volume. 57, Issue 13, 131405(2020)

Weld Formation and StabilityAnalysis of Fiber Laser Beam Welded BTi6431S Titanium Alloy

Wei Lu*, Xuyi Ma, Aiqin Duan, and Xuedong Wang
Author Affiliations
  • Science and Technology on Power Beam Processes Laboratory, Avic Manufacuring Technology Institute, Beijing 100024, China
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    Figures&Tables (7)
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    References (13)
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    Figures & Tables(7)
    Weld appearance of BTi6431S titanium alloys. (a) Surface topography; (b) morphology

    Fig. 1. Weld appearance of BTi6431S titanium alloys. (a) Surface topography; (b) morphology

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    Effect of laser power on weld formation characteristic value (v=2.5 m/min). (a) Weld width; (b) reinforcement and underfill

    Fig. 2. Effect of laser power on weld formation characteristic value (v=2.5 m/min). (a) Weld width; (b) reinforcement and underfill

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    Effect of welding speed on weld formation characteristic value (P=3.5 kW). (a) Weld width; (b) reinforcement and underfill

    Fig. 3. Effect of welding speed on weld formation characteristic value (P=3.5 kW). (a) Weld width; (b) reinforcement and underfill

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    Effect of laser power on pore distribution and porosity. (a) Lack of penetration weld; (b) penetration weld-single pore; (c) penetration weld-linear pore; (d)(e) porosity

    Fig. 4. Effect of laser power on pore distribution and porosity. (a) Lack of penetration weld; (b) penetration weld-single pore; (c) penetration weld-linear pore; (d)(e) porosity

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    Typical metal vapor / plasma image changes

    Fig. 5. Typical metal vapor / plasma image changes

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    Characteristic of metal vapor / plasma of different welding processes. (a) Laser power (v=2.5 m/min); (b) welding speed (P=3.5 kW)

    Fig. 6. Characteristic of metal vapor / plasma of different welding processes. (a) Laser power (v=2.5 m/min); (b) welding speed (P=3.5 kW)

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    • Table 1. Chemical compositions of BTi6431S alloy (mass fraction, %)

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      Table 1. Chemical compositions of BTi6431S alloy (mass fraction, %)

      AlSnZrNbMoWSiFeCNHOTi
      6.0-7.22.5-3.52.5-3.51.0-3.21.0-3.20.3-1.20.1-0.5≤0.20≤0.10≤0.05≤0.015≤0.15Bal.
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    Wei Lu, Xuyi Ma, Aiqin Duan, Xuedong Wang. Weld Formation and StabilityAnalysis of Fiber Laser Beam Welded BTi6431S Titanium Alloy[J]. Laser & Optoelectronics Progress, 2020, 57(13): 131405

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    Paper Information

    Category: Lasers and Laser Optics

    Received: Oct. 21, 2019

    Accepted: Oct. 31, 2019

    Published Online: Jul. 9, 2020

    The Author Email: Lu Wei (luwei870808@126.com)

    DOI:10.3788/LOP57.131405

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology