Abstract
Technically, important superalloys are based on the elements of the iron group, more specifically on Fe, Ni and Co. Part II starts with the Fe-based DO3 structures .
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References
Balasubramaniam R (1996) On the role of chromium in minimizing room temperature hydrogen embrittlement in iron aluminides. Scr Mater 34:127–133
Balasubramaniam R (1997) Hysteresis in metal-ydrogen systems. J Alloy Compd 253–254:203–206
Balasubramaniam R (1999) Determination of hydrogen diffusivity by subscale microhardness profiling. J Alloys Compd 293–295:279–281
Balluffi RW (1984) Grain-boundary diffusion mechanisms in metals. In: Murch GE, Nowick AS (eds) Diffusion in crystalline solids: recent developments. Academic Press, New York, pp 319–377
Eggersmann M, Mehrer H (2000) Diffusion in intermetallic phases of the Fe-Al system Philos. Mag A 80(5):1219–1244
Franz M, Wolff J, Hehenkamp Th (1995) Mater Sci Forum 175–178:355–358
Girifalco LA (1964) Vacancy concentration and diffusion in order-disorder alloys. J Phys Chem Sol 24:323–333
Hasaka M, Morimura T, Hisatsune K, Uchiyama Y, Kondo S, Nakashima H, Furuse T (1993) Diffusion of copper, aluminium and boron in nickel. Scr Metall Mater 29:959–962
Hasaka M, Oki K, Eguchi T (1977) Vacancy concentration and ordering kinetics in Fe3Al alloys. Trans JIM 18:750–758
Larikov LN, Geichenko VV, Fal’chenko VM (1981) Diffusion processes in ordered alloys. Oxonian, New Delhi
Lechermann F, Welsch F, Elsässer C, Ederer C, Fähnle M, Sanchez JM, Meyer B (2002) Density-functional study of Fe3Al: LSDA versus GGA. Phys Rev B 65(13):132104
Li Y, Wang J, Yin Y, Ma H (2005) Diffusivity of Al and Fe near the diffusion bonding interface of Fe3Al with low carbon steel. Bull Mater Sci 28(1):69–74
Liu CT, Lee EH, McKamey CG (1989) An environmental effect as the major cause for room-temperature embrittlement in FeAl. Scr Metall 23:875–880
Martin JW (2006) Intermetallics: crystal structures. Concise encyclopedia of the structure of materials. Elsevier Science, Atlanta, p 234
Massalski TB (ed) (1992) Binary alloy phase diagrams, 2nd edn. ASM International Materials Information Society, Materials Park
McKamey CG, Liu CT (1990) Chromium addition and environmental embrittlement in Fe3Al. Scr Metall Mater 24(11):2119–2122
McKamey CG, Pierce DH (1993) Effect of recrystallization on room temperature tensile properties of an Fe3Al-Based alloy. Scr Metall Mater 28(10):1173–1176
Mehrer H, Eggersmann M, Gude A, Salamon M, Sepiol B (1997) Diffusion in intermetallic phases of the Fe-Al and Fe-Si systems. Mater Sci Eng A 239–240:889–898
Mehrer H, Luckabauer M, Sprengel W (2013) Self- and solute diffusion, interdiffusion and defects in iron-aluminum alloys. Defect Diffus Forum 333:1–23
Nachtrieb NH, Resing HA, Rice SA (1959) Effect of pressure on self-diffusion in lead. J Chem Phys 31:135–139
Pawel RE, Lundy TS (1965) Diffusion of Nb95 into tantalum single crystals. Acta Metall 13(3):345–351
Pelleg J (1974a) A microsectioning technique for vanadium. J Less-Common Met 35(2):299–304
Pelleg J (1974b) Self-diffusion in vanadium single crystals. Philos Mag 29(2):383–393
Peteline S, Tanguep Njiokep EM, Divinski S, Mehrer H (2003) Diffusion of solute elements in Fe3Al. Defect Diffus Forum 216-217:175–180
Priyadarshi A, Balasubramaniam R (2001) On critical hydrogen concentration of hydrogen embrittlement of Fe3Al. Bull Mater Sci 24(5):559–562
Rohr MV (2005) Ph.D. Thesis, 21 October 2005, Toulouse: Institut National Polytechnique de Toulouse
Tökei Zs, Bernardini J, Beke DL (1999) Grain boundary diusion in B2 intermetallic compounds: Effect of ordering on diffusion in the Fe3Al and feco compounds. Acta Mater. 47:1371–1378
Tökei Zs, Bernardini J, Gas P, Beke DL (1997) Volume diffusion of iron in Fe3Al: influence of ordering. Acta Mater 45(2):541–546
Vogl G, Sepiol B (1994) Elementary diffusion jump of iron atoms in intermetallic phases studied by Mössbauer spectroscopy: I. Fe3Al close to equiatomic stoichiometry. Acta Metall Mater 42(9):3175–3181
Wolff J, Franz M, Broska A, Hehenkamp Th (1997) Defect types and diffusion mechanism in FeAl compounds: A positron annihilation study. Defect Diffus Forum 143–147:239–244
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Pelleg, J. (2017). Diffusion in Fe3Al. In: Diffusion in the Iron Group L12 and B2 Intermetallic Compounds. Engineering Materials. Springer, Cham. https://doi.org/10.1007/978-3-319-39522-7_6
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DOI: https://doi.org/10.1007/978-3-319-39522-7_6
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