Data in Brief (Aug 2019)

Data of dynamic microscale strain distributions of Ti-6Al-4V alloys in dwell fatigue tests

  • Qinghua Wang,
  • Shien Ri,
  • Akira Maenosono,
  • Yoshihisa Tanaka,
  • Motomichi Koyama

Journal volume & issue
Vol. 25

Abstract

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Dynamic microscale strain distributions with temporal resolution of 1 s in a smooth and a cracked Ti-6Al-4V alloys during one-cycle dwell fatigue tests are illustrated in videos (URL: https://drive.google.com/drive/folders/1pit_VV2apGOpETVfaJAAtL5Xl2CNOiJ3?usp=sharing). The tensile strain distributions were measured by the video sampling moiré method from the 1-μm-pitch grid images in a scanning electron microscope. The strain concentration factors of the smooth and the cracked specimens are 1.96 and 2.65, respectively. The plastic strain increment is 0.0007 during the displacement holding time of 591s in the smoothed specimen at maximum stress of 900 MPa., and 0.0008 during the displacement holding time of 593s in the cracked specimen at maximum stress of 870 MPa. The typical strain results are analyzed in 1-s-resolved strain mapping in Ti-6Al-4V alloys during dwell fatigue in SEM by video sampling moiré [1]. Keywords: Fatigue, Creep, Strain, Plastic deformation, Scanning electron microscope, Image processing