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Volume 31 Issue 2
May  2010
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Experimental study of high-power laser induced shock waves

  • 1.

    Institute of High-Power Laser Technology, University of Science and Technology of China, Hefei 230026, China

  • Corresponding author: WANG Sheng-bo, sbwang@ustc.edu.cn
  • Received Date: 2006-01-16
    Accepted Date: 2006-03-24
  • To improve the technology of modifying material properties by using laser induced shock waves,the properties of laser shock waves were studied.The piezoelectric waves were measured using a polyvinylidene fluoride(PVDF) piezoelectric gauge of a short rise time and a wide linear response range,together with an oscilloscope.Depending on the piezoelectric waves,laser-induced shock waves were measured.The laser-induced shock waves in the confinement geometry were analyzed and compared to that in the direct ablation regime.In the confined condition,the FWHM of laser-induced shock wave was three times that of laser and the peak pressure was much higher than that in the direct ablation regime.The average propagation velocity of the laser-induced shock wave in stainless steel was 5.72×103m/s.
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    ZHANG W W,YAO Y L.Micro scale laser shock processing of metallic components[J].Journal of Manufacturing Science and Engineering-transactions of the American Society of Mechanical Engineers,2002,124(2):369~378.
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    OCANA J L,MORALES M,MOLPECERES C et al.Numerical simulation of surface deformation and residual stresses fields in laser shock processing experiments[J].Applied Surface Science,2004,238(1~4):242~248.
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    MAZHUKIN V I,NOSSOV V V,SMUROV I.Modeling of plasma dynamics at the air-water interface:application to laser shock processing[J].J A P,2001,90(2):607~618.
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    GU Y,NI Y L,WANG Y G et al.Experiment observation of laser driven high pressure shock waves[J].Acta Physica Sinica,1988,37(10):1690~1693(in Chinese).
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    PERYE P,BERTHE L,FABBRO R et al.Experimental determination by PVDF and EMV techniques of shock amplitudes induced by 0.6~3 ns laser pulses in a confined regime with water[J].J Phys,2000,D33(5):498~503.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Experimental study of high-power laser induced shock waves

    Corresponding author: WANG Sheng-bo, sbwang@ustc.edu.cn
  • 1. Institute of High-Power Laser Technology, University of Science and Technology of China, Hefei 230026, China
  • Received Date: 2006-01-16
  • Accepted Date: 2006-03-24
  • Available Online: 2007-04-25

Abstract: To improve the technology of modifying material properties by using laser induced shock waves,the properties of laser shock waves were studied.The piezoelectric waves were measured using a polyvinylidene fluoride(PVDF) piezoelectric gauge of a short rise time and a wide linear response range,together with an oscilloscope.Depending on the piezoelectric waves,laser-induced shock waves were measured.The laser-induced shock waves in the confinement geometry were analyzed and compared to that in the direct ablation regime.In the confined condition,the FWHM of laser-induced shock wave was three times that of laser and the peak pressure was much higher than that in the direct ablation regime.The average propagation velocity of the laser-induced shock wave in stainless steel was 5.72×103m/s.

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