Interpretation of Hydrogen-induced Fracture Surface Morphologies for Lath Martensitic Steel
Author:
Publisher
Elsevier BV
Subject
General Earth and Planetary Sciences,General Environmental Science
Reference16 articles.
1. Gangloff, R., Somerday, B. (Eds.), 2012. Gaseous Hydrogen Embrittlement of Materials in Energy Technologies, Vols. 1,2, Woodhead Publishing, Ltd., Sawston, Cambridge.
2. George, II, L., Vogt, G., 1959. Electron Microscopy of Autoradiographed Radioactive Particles. Nature 184, 1474-1475.
3. Ma, X., Wang, L., Liu, C., Subramanian, S., 2011. Role of Nb in Low Interstitial 13Cr Super Martensitic Stainless Steel. Materials Science and Engineering A 528, 6812-6818.
4. Martin, M., Fenske, J., Liu, G., Sofronis, P., Robertson, I., 2011a. On the Formation and Nature of Quasi-Cleavage Fracture Surfaces in Hydrogen Embrittled Steels. Acta Materialia 59, 1601-1606.
5. Martin, M., Robertson, I., Sofronis, P., 2011b. Interpreting Hydrogen-Induced Fracture Surfaces in Terms of Deformation Processes: A New Approach. Acta Materialia 59, 3680-3687.
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