Diffusion in Ni3Ga

Pelleg, Joshua

doi:10.1007/978-3-319-39522-7_4

Joshua Pelleg²

Part of the book series: Engineering Materials ((ENG.MAT.))

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Abstract

As mentioned in Chap. 3, there is much practical interest in the mechanical properties of L1₂ structures, especially regarding creep resistance.

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References

Čermák J, Rothová V (2002) Ni and Ga diffusion in polycrystalline Ni₃Ga. Intermetallics 10(8):765–769
Article Google Scholar
Čermák J, Růžičková J, Konecny M, Ipser H (2001) Grain boundaries in Ni₃Ga as paths of rapid diffusion. Metal 15–17 May 2001, Ostrava, Czech Republic
Google Scholar
Damask AC, Dienes GJ (1971) Point defects in metals. Gordon and Breach, New York
Google Scholar
Fisher C (1951) Calculation of diffusion penetration curves for surface and grain boundary diffusion. J Appl Phys 22(1):74–77
Article Google Scholar
Gruzin PL (1952) Self-diffusion in gamma iron. Dokl. Akad. Nauk. SSSR 86, p 289
Google Scholar
Kaur I, Gust W (1988) Fundamentals of grain and interphase boundary diffusion. Ziegler Press, Stuttgart
Google Scholar
Le Claire AD (1951) Grain boundary diffusion in metals. Philos Mag 42(328):468–474
Article Google Scholar
Le Claire AD (1963) The analysis of grain boundary diffusion measurements. Br J Appl Phys 14(6):351–356
Article Google Scholar
Le Claire AD (1978) Solute diffusion in dilute alloys. J Nucl Mater 69–70:70–96
Article Google Scholar
Lidiard AB (1955) Impurity diffusion in crystals (mainly ionic crystals with the sodium chloride structure). Philos Mag 46:1218–1237
Article Google Scholar
Nakajima H, Nonaka K, Sprengel W, Koiwa M (1997) Self-diffusion and interdiffusion in intermetallic compounds. Mater Sci Eng A 239–240:819–827
Article Google Scholar
Nonaka K, Arayashiki T, Nakajima H, Almazouki A, Tanaka K, Ikeda T, Numakura H, Koiwa M (1997) Self-diffusion in L1₂-type intermetallic compounds Ni₃Ge and Ni₃Ga. Defect Diffus Forum 143–147:269–274
Article Google Scholar
Numakura H, Ikeda T, Nakajima H, Koiwa M (2001) Diffusion in Ni₃Al, Ni₃Ga and Ni₃Ge. Mater Sci Eng A 312:109–117
Article Google Scholar
Suzuoka AT (1961) Lattice and grain boundary diffusion in polycrystals. Trans JIM 2(1):25–32
Article Google Scholar
St Frank, Chr Herzig (1997) The effect of composition and temperature on grain boundary diffusion of ⁶³Ni in Ni₃Al alloys. Mater Sci Eng A 239–240:882–888
Google Scholar
Whipple RTP (1954) Concentration contours in grain boundary diffusion. Philos Mag 45:1225–1237
Article Google Scholar
Yuan WX, Qiao ZY, Ipser H, Eriksson G (2004) Thermodynamic assessment of the Ni-Ga. system. JPEDAV 25:68–74
Article Google Scholar

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Department of Materials Engineering, Ben Gurion University of the Negev, Beer Sheva, Israel
Joshua Pelleg

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Pelleg, J. (2017). Diffusion in Ni₃Ga. 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_4

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DOI: https://doi.org/10.1007/978-3-319-39522-7_4
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-39521-0
Online ISBN: 978-3-319-39522-7
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)

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