Abstract
An in-situ analysis of local strain accommodation on transformation induced plasticity (TRIP) aided multi-phase steel was performed with a correlative application of characterization techniques such as digital image correlation (DIC), electron backscatter diffraction (EBSD), and micro-mechanical testing. The local strain on the complex microstructure of the multi-phase steel was measured during a tensile test using an innovative DIC method (which does not employ artificial patterns), in conjunction with a scanning electron microscope. The constituent phases of the examined surface were identified by postprocessing implemented on the EBSD maps. This was further verified by nano-indentation, consequently enabling systematic and quantitative analyses of the strain partitioning between the phases. Soft acicular ferrite accommodated the largest strain with sites of intense strain localization around the hard, neighboring martensite. The retained austenite transformed gradually into martensite because of the applied strain and caused strain localization in the neighboring acicular ferrite. This verified that DIC method proposed in this study enables precise and effective data collection at the interfaces between different phases that could have certainly been blocked by the DIC patterns in the conventional method.
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Notes
A cluster corresponded to a grain or a sub-granular area transformed from a parent austenite grain.
The area is smaller than the average area of all BCC clusters.
More than 60% of the boundary is shared with αm and γ.
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Acknowledgements
J.-H. Kang was supported by the National Research Foundation of Korea (NRF) (2021M3H4A6A01049712). K. H. Oh was supported by Korea Evaluation Institute of Industrial Technology (KEIT) and the Ministry of Trade, Industry and Energy (MOTIE) of the Republic of Korea (No. 1415168877). J.-Y. Kang acknowledges the financial support of the Fundamental R&D Program of the Korea Institute of Materials Science (PNK6920). H. N. Han and Y. Oh were supported by the National Research Foundation of Korea (NRF) Grant Funded by the Korean Government (MSIT) (Nos. 2019M3D1A1079215, 2020R1A5A6017701, and 2021R1A2C3005096).
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Kim, K.I., Oh, Y., Kim, D.U. et al. Strain Analysis of Multi-Phase Steel Using In-Situ EBSD Tensile Testing and Digital Image Correlation. Met. Mater. Int. 28, 1094–1104 (2022). https://doi.org/10.1007/s12540-021-01044-0
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DOI: https://doi.org/10.1007/s12540-021-01044-0