Anisotropy in Hydrogen Embrittlement Resistance of Drawn Pearlitic Steel Investigated by in-situ Microbending Test during Cathodic Hydrogen Charging

Kota Tomatsu, Takafumi Amino, Tetsushi Chida, Shunya Uji, Makoto Okonogi, Hikaru Kawata, Tomohiko Omura, Naoki Maruyama, Yoshitaka Nishiyama
2020 Tetsu to hagane  
To investigate causes of superior hydrogen embrittlement resistance of drawn pearlitic steel, notched microcantilevers with different notch orientations were fabricated by focused ion beam, and microbending tests were conducted in air and during cathodic hydrogen charging by electrochemical nanoindentation. In air, indentation load increased with increase in indentation displacement, and no crack appeared for any notch orientations. During hydrogen charging, indentation load declined, and a
more » ... k appeared. The degree in the load reduction was larger, and the crack was deeper for the notch parallel to the lamellar interface than that normal to the lamellar interface. Furthermore, stationary cracks in the microcantilevers were observed by scanning electron microscopy and scanning transmission electron microscopy. For the notch parallel to the lamellar interface, a sharp long crack was identified along the lamellar interface. The crack stopped at the position where the cementite lamellae are disconnected. In lattice images, cementite was identified in one side of the crack, and ferrite in another side of the same crack. On the other hand, for the notch normal to the lamellar interface, a blunt short crack was identified. Thus, it was concluded that the ferrite-cementite interface is a preferential crack path, and hydrogen embrittlement resistance in the direction parallel to the lamellar interface is superior to that normal to the lamellar interface. The present results also indicate that directional lamellar alignment of the drawn pearlitic steel suppresses crack propagation in the radial direction of the drawn wire, improving the hydrogen embrittlement resistance in the drawing direction.
doi:10.2355/tetsutohagane.tetsu-2019-118 fatcat:eddclumjtjbbbcbysbm5e6stji