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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 21 >Page 2114010 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 21, 2114010 (2021)
    Influence of Laser Cladding Parameters on Turning Performance of Laser-Cladded 316 Stainless Steel Coating on 45 Steel Surface
    Sheng Wang1、*, Zhiyi Zheng2, Ming'an Zhou1, Wenjun Liu1, and Enming Zhang1
    Author Affiliations
  • 1Mechanical and Electrical Engineering, Quzhou College of Technology, Quzhou , Zhejiang 324000, China
  • 2College of Mechanical Engineering, Zhejiang University of Technology, Hangzhou , Zhejiang 310027, China
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    DOI: 10.3788/LOP202158.2114010 Cite this Article Set citation alerts
    Sheng Wang, Zhiyi Zheng, Ming'an Zhou, Wenjun Liu, Enming Zhang. Influence of Laser Cladding Parameters on Turning Performance of Laser-Cladded 316 Stainless Steel Coating on 45 Steel Surface[J]. Laser & Optoelectronics Progress, 2021, 58(21): 2114010 Copy Citation Text show less
    Experimental platform and processing drawing of laser cladding. (a) Laser cladding platform; (b) schematic
    Fig. 1. Experimental platform and processing drawing of laser cladding. (a) Laser cladding platform; (b) schematic
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    Digital detection platform
    Fig. 2. Digital detection platform
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    Chips morphologies of nine samples. (a) Macro morphology of chips; (b) ratio of the spring chips to all chips
    Fig. 3. Chips morphologies of nine samples. (a) Macro morphology of chips; (b) ratio of the spring chips to all chips
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    Macro morphologies of samples before and after turning. (a) Before turning; (b) after turning
    Fig. 4. Macro morphologies of samples before and after turning. (a) Before turning; (b) after turning
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    Surface roughness of each sample
    Fig. 5. Surface roughness of each sample
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    Measuring error bar for surface roughness of each sample
    Fig. 6. Measuring error bar for surface roughness of each sample
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    Cylindricity of each sample
    Fig. 7. Cylindricity of each sample
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    Measuring error bar for cylindricity of each sample
    Fig. 8. Measuring error bar for cylindricity of each sample
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    Rockwell hardness of cladding layer before and after turning
    Fig. 9. Rockwell hardness of cladding layer before and after turning
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    Measuring error bar for Rockwell hardness of cladding layer before and after turning. (a) Before turning; (b) after turning
    Fig. 10. Measuring error bar for Rockwell hardness of cladding layer before and after turning. (a) Before turning; (b) after turning
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    Microstructures of laser cladding 316 stainless steel layer after turning. (a) A3 sample; (b) A1 sample
    Fig. 11. Microstructures of laser cladding 316 stainless steel layer after turning. (a) A3 sample; (b) A1 sample
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    ElementNrCiMoCSiPNSO
    Mass fraction /%11.10017.2002.0100.0100.3500.0300.0520.0020.003
    Table 1. Chemical composition of 316 stainless steel powder for laser cladding
    Sample numberLaser power /WPower feeding rate /(g⋅s-1Axial feed speed /(mm⋅s-1
    A18000.250.055
    A28000.260.088
    A38000.280.110
    A416000.250.055
    A516000.280.110
    A616000.260.088
    A725000.250.055
    A825000.280.110
    A925000.260.088
    Table 2. Laser cladding parameters
    Abstract
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    References (20)
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    Sheng Wang, Zhiyi Zheng, Ming'an Zhou, Wenjun Liu, Enming Zhang. Influence of Laser Cladding Parameters on Turning Performance of Laser-Cladded 316 Stainless Steel Coating on 45 Steel Surface[J]. Laser & Optoelectronics Progress, 2021, 58(21): 2114010
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    Paper Information
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