Abstract
Twinning and martensitic transformation have been investigated in nickel-enriched AISI 304 stainless steel subjected to tensile and indentation deformation. Using electron backscatter diffraction (EBSD), the morphology of α- and ε-martensite and the effect of grain orientation to load axis on phase and structure transformations were analyzed in detail. It was found that the twinning occurred less frequently under indentation than under tension; also, twinning was not observed in [001] and [101] grains. In tensile tests, the martensite particles preferably formed at the deformation twins, intersections between twins, or at the twin-grain boundary intersections. Conversely, martensite formation in the indentation tests was not closely associated with twinning; instead, the majority of martensite was concentrated in the dense colonies near grain boundaries. Martensitic transformation seemed to be obstructed in the [001] grains in both tensile and indentation test cases. Under a tensile stress of 800. MPa, both α- and ε-martensites were found in the microstructure, but at 1100. MPa only α-martensite presented in the specimen. Under indentation, α- and ε-martensite were observed in the material regardless of the stress level.
Original language | English |
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Pages (from-to) | 299-307 |
Number of pages | 9 |
Journal | Materials Science and Engineering: A |
Volume | 588 |
DOIs | |
State | Published - Dec 20 2013 |
Funding
This research was sponsored by the U.S. Department of Energy, Office of Nuclear Energy , for the Light Water Reactor Sustainability Research and Development Effort, and the SHaRE User Facility, sponsored by the Scientific User Facilities Division, Office of Basic Energy Sciences , and the U.S. Department of Energy . Authors also would like to thank Dr. L. Tan (Oak Ridge National Laboratory) for the fruitful discussion of the EBSD results.
Keywords
- Austenitic metastable steel
- EBSD
- Grain orientation influence
- Martensitic transformation
- Twinning