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YU Hong-bo1,LIU Shi1,HU Kui-yi2,WANG Long-bao1,RONG Li-jian1(1.Department of Special Environment Material Research,Institute of Metal Research, Chinese Academy of Sciences,Shenyang 110016,China;2.Shenyang National Laboratory of Material Science,Institute of Metal Research,Chinese Acad. Transmission Electron Microscopy Research on Containing Helium Titanium Film[J]. Atomic Energy Science and Technology, 2005, 39(6): 530-530. DOI: 10.7538/yzk.2005.39.06.0530
Citation: YU Hong-bo1,LIU Shi1,HU Kui-yi2,WANG Long-bao1,RONG Li-jian1(1.Department of Special Environment Material Research,Institute of Metal Research, Chinese Academy of Sciences,Shenyang 110016,China;2.Shenyang National Laboratory of Material Science,Institute of Metal Research,Chinese Acad. Transmission Electron Microscopy Research on Containing Helium Titanium Film[J]. Atomic Energy Science and Technology, 2005, 39(6): 530-530. DOI: 10.7538/yzk.2005.39.06.0530
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  • The magnetron sputtering method was used to prepare Ti film at helium and argon mixed atmosphere in order to introduce helium into the film.The influence of He-Ar flux ratio on the Ti film microstructure was studied,and the influence of temperature on the evolution of helium bubbles was analyzed.The dimension of bubble increases with the increment of helium flux while there is a maximum for the bubble density during the process.When the temperature is lower than 0.5 Tm,helium cluster located in the interior of crystal grain congregates to form bubbles which are visible in TEM.The migration and coalescence of bubbles occur when the temperature is higher than 0.5 Tm,while the size of helium bubble increases obviously.
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