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    Journals >Journal of Applied Optics >Volume 45 >Issue 5 >Page 923 > Article
    • Journal of Applied Optics
    • Vol. 45, Issue 5, 923 (2024)
    Thermal effect of CO2 laser on glass tubes
    Fayu YANG1,2, Jinfang SHI1,2,*, Rong QIU2, Yangyang HU1,2..., Decheng GUO2 and Sen YANG1,2|Show fewer author(s)
    Author Affiliations
  • 1Key Laboratory of Testing Technology for Manufacturing Process (Ministry of Education), School of Manufacturing Science and Engineering, Southwest University of Science and Technology, Mianyang 621010, China
  • 2Joint Laboratory for Extreme Conditions Matter Properties, Southwest University of Science and Technology, Mianyang 621010, China
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    DOI: 10.5768/JAO202445.0501006 Cite this Article
    Fayu YANG, Jinfang SHI, Rong QIU, Yangyang HU, Decheng GUO, Sen YANG. Thermal effect of CO2 laser on glass tubes[J]. Journal of Applied Optics, 2024, 45(5): 923 Copy Citation Text show less
    Schematic diagram of CO2 laser processing glass tube system
    Fig. 1. Schematic diagram of CO2 laser processing glass tube system
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    Flow chart of simulation calculation method
    Fig. 2. Flow chart of simulation calculation method
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    Three-dimensional diagram of energy Gaussian distribution
    Fig. 3. Three-dimensional diagram of energy Gaussian distribution
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    Finite element model of laser-processed high borosilicate glass tubes
    Fig. 4. Finite element model of laser-processed high borosilicate glass tubes
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    Temperature field simulation diagram of CO2 laser irradiated high borosilicate glass
    Fig. 5. Temperature field simulation diagram of CO2 laser irradiated high borosilicate glass
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    Temperature change law of different positions of glass tube with time under CO2 laser action
    Fig. 6. Temperature change law of different positions of glass tube with time under CO2 laser action
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    Surface temperature distributions of high borosilicate glass tubes under action of CO2 laser with different laser powers
    Fig. 7. Surface temperature distributions of high borosilicate glass tubes under action of CO2 laser with different laser powers
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    Change law of surface temperature of high borosilicate glass tube with time under action of CO2 laser with different laser powers
    Fig. 8. Change law of surface temperature of high borosilicate glass tube with time under action of CO2 laser with different laser powers
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    Surface temperature distribution law of high borosilicate glass tubes under action of CO2 laser with different laser spot radii
    Fig. 9. Surface temperature distribution law of high borosilicate glass tubes under action of CO2 laser with different laser spot radii
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    Radial temperature distribution law of high borosilicate glass tubes under action of CO2 laser with different laser spot radii
    Fig. 10. Radial temperature distribution law of high borosilicate glass tubes under action of CO2 laser with different laser spot radii
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    Surface temperature distribution law of glass tubes with different rotational speeds under action of CO2 laser
    Fig. 11. Surface temperature distribution law of glass tubes with different rotational speeds under action of CO2 laser
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    SiO2B2O3Al2O3Na2OCaOBaO
    8112~132~340~20~2
    Table 1. Main components of high borosilicate glass %
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    Young's modulus /GpaConstant pressure heat capacity/(J·kg−1·K−1Poisson ratioLinear expansivity/ (1/℃)Density/ (g·cm−1)Heat transfer rate/(W·m−1·K−1
    6410.224%2.231.2
    Table 2. Main physical parameters of high borosilicate glass
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    Fayu YANG, Jinfang SHI, Rong QIU, Yangyang HU, Decheng GUO, Sen YANG. Thermal effect of CO2 laser on glass tubes[J]. Journal of Applied Optics, 2024, 45(5): 923
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