• Title of article

    Simulation and experimental research on the substrate temperature distribution in HFCVD diamond film growth on the inner hole surface

  • Author/Authors

    Wang، نويسنده , , Xinchang and Zhang، نويسنده , , Jian-Tao and Shen، نويسنده , , Bin and Zhang، نويسنده , , Jianguo and Sun، نويسنده , , Fanghong، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    10
  • From page
    109
  • To page
    118
  • Abstract
    The substrate temperature distribution in HFCVD diamond film growth on the inner hole surface is simulated by the finite volume method in the present study, adopting a detailed 3-D computational model agreeing with the actual reactor. Firstly, the influences of several key deposition parameters are studied by the control variable method, including the cooling condition C, the filament temperature Tf, the filament diameter d and the substrate aperture D. Afterwards, the substrate temperatures in the actual reactor are measured. Deviations between the simulated and measured temperature values are all less than 5%, and the substrate temperature distribution trends in the measurement results are well coincident with those in the simulation results. Furthermore, corresponding deposition experiments are also conducted, the results of which can further validate the correctness of the simulations. Finally, the optimized deposition parameters are used to deposit diamond films on the inner hole surfaces of the WC–Co substrates with apertures of either 6 mm or 8 mm. The characterizations show that homogeneous diamond films with fine-faceted diamond crystals are obtained, indicating that this deposition parameter optimization method is feasible for fabricating high-quality diamond films on the inner hole surfaces.
  • Keywords
    HFCVD diamond film , Substrate temperature distribution , Finite volume method , temperature measurement , characterization
  • Journal title
    Surface and Coatings Technology
  • Serial Year
    2013
  • Journal title
    Surface and Coatings Technology
  • Record number

    1827407