Title:

Visualization of Hydrogen Diffusion in a Hydrogen-enhanced Fatigue Crack Growth in Type 304 Stainless Steel

Speaker:

Dr. Hisao Matsunaga

Affiliation:

Department of Mechanical Engineering, Fukuoka University

When:

Tuesday, March 15, 2011 at 11:00:00 AM   Add to Calendar

Where:

MARC Building, Room 114

Host:

Richard Neu
rick.neu@me.gatech.edu
404-894-3074

Abstract

To study the influence of hydrogen on the fatigue strength of AISI type 304 meta-stable@austenitic stainless steel, specimens were cathodically charged with hydrogen. Using tension-compression fatigue tests, the behavior of fatigue crack growth from a small drill hole in the hydrogen-charged specimen was compared with that of non-charged specimen. Hydrogen-charging led to a marked increase in the crack growth rate. Typical characteristics of hydrogen effect were observed in the slip band morphology and fatigue striation. To elucidate the behavior of hydrogen diffusion microscopically in the fatigue process, the hydrogen emission from the specimens was visualized using the hydrogen microprint technique (HMT). In the hydrogen-charged specimen, hydrogen emissions were mainly observed in the vicinity of the fatigue crack. Comparison between the HMT image and the etched microstructure image revealed that the slip bands worked as a pathway for hydrogen to move preferentially. Hydrogen-charging resulted in a significant change in the phase transformation behavior in the fatigue process. In the non-charged specimen, a massive type alpha prime martensite was observed in the vicinity of the fatigue crack. On the other hand, in the hydrogen-charged specimen, large amounts of epsilon martensite and a smaller amount of ƒ¿L martensite were observed along the slip bands. The results indicated that solute hydrogen facilitated the epsilon martensitic transformation in the fatigue process. Comparison between the results of HMT and EBSD inferred that martensitic transformations as well as plastic deformation itself can enhance the mobility of hydrogen.

Biography

Hisao Matsunaga is an Associate Professor in Mechanical Engineering from Fukuoka University. He is currently a visiting scholar at Georgia Tech. Dr. Matsunaga research topics are: Shear-mode fatigue crack grow in hard steels; Effects of hydrogen on strength of steels; Effect of small defects on fatigue strength; Fatigue crack growth; and X-ray stress measurement.