Transmission Electron Microscopy Sample Preparation of INCONEL 738 Nickel-Base Superalloy

Authors

  • F. A. Hesari Materials Characterization Group, Materials and Energy Research Center, Meshkin Dasht, Karaj, Iran
  • F. S. Torknik Materials Characterization Group, Materials and Energy Research Center, Meshkin Dasht, Karaj, Iran
  • M. Moradi Materials Characterization Group, Materials and Energy Research Center, Meshkin Dasht, Karaj, Iran
Abstract:

Size, shape, volume fraction and distribution of embedded g/ phase in g phase has direct effect on strength of INCONEL alloy. Microstructure parameters of INCONEL phases are quantified from microstructure images using transmission electron microscopy (TEM). Different TEM sample preparation techniques were used to study INCONEL 738 alloy microstructure for transmission electron microscopy (TEM). The INCONEL 738 was first cut into a 1 × 1 cm slice with 600 µm thickness with diamond wire cut. INCONEL sample was mounted by wax (M135), after initial grinding and polishing. The molded INCONEL sample was further polished by different grit size SiC paper to reduce the thickness below 80 micron. At this stage, 3 mm discs were cut from the thin slice of INCONEL alloy by mechanical punch machine. The 3 mm discs of INCONEL alloy were used for TEM sample preparation. Three methods of electro-jet polishing, ion milling and micro control dimpling were employed to prepare transparent TEM sample to observe the surface microstructure details of INCONEL 738 alloy. Electro-jet polishing TEM sample preparation technique could reveal microstructure details of INCONEL alloy g and g/ phases using 42% H3PO4, 34% H2SO4, 24% H2O electrolyte at about – 400C bath temperature and applied voltage of 30 V.

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Journal title

volume 32  issue 6

pages  852- 859

publication date 2019-06-01

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