Szczegóły

Tytuł artykułu

Solute–Solute Interaction In α IRON: The Status QUO

Tytuł czasopisma

Archives of Metallurgy and Materials

Rocznik

2015

Numer

No 3 September

Autorzy publikacji

Wydział PAN

Nauki Techniczne

Wydawca

Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences

Data

2015[2015.01.01 AD - 2015.12.31 AD]

Identyfikator

ISSN 1733-3490

Referencje

Numakura (1996), Nitrogen trapping to chromium in α iron studied by internal friction and magnetic after - effect techniques, ISIJ Int, 36, 290, doi.org/10.2355/isijinternational.36.290 ; Kamminga (2003), The interaction of N with atomically dispersed Ti and Ni in ferritic steel -, Comput Aided Mater, 10, 1, doi.org/10.1023/B:JCAD.0000024188.42120.e0 ; Nowick (1973), Partial relaxation magnitudes for anelastic and dielectric relaxation due to point defects, Phys Chem Solids, 34. ; Simonovic (2010), Diffusion of carbon in bcc Fe in the presence of Si erratum, Phys Rev Phys Rev, 33, 81. ; Hutchinson (1984), Texture development in continuous annealing, J Metall, 13, 269. ; Guan (2004), Numakura and Interaction between substitutional and interstitial solute atoms in α iron studied by isothermal mechanical spectroscopy, Sci Eng, 370. ; Sawada (2004), Interaction between substitutional and interstitials elements in α - Fe studied by first - principles calculation in Japanese ), Met Mater Trans, 32, 977. ; Sluiter (2012), Interactions between interstitial and substitutional solutes in ferrite from first - principles in rd on Steel Science Iron and Steel Institute of Japan Tokyo pp, Proc Int Symp, 3, 39. ; Koiwa (1974), Trapping effect in diffusion of interstitial impurity atoms in lattices, Acta Metall, 22, 1259, doi.org/10.1016/0001-6160(74)90139-4 ; King (1966), Quantitative size - factors for metallic solid solutions, Mater Sci, 1, 79, doi.org/10.1007/BF00549722 ; Fast (1953), Anelastic effects in iron containing vanadium and nitrogen, Philips Res Rep, 8, 1. ; Saitoh (2004), Influence of substitutional atoms on the Snoek peak of carbon in iron, Acta Mater, 52, 1255, doi.org/10.1016/j.actamat.2003.11.009 ; Numakura (1995), Calculation of the strength of Snoek relaxation in dilute ternary alloys, Acta Metall Mater, 43, 705, doi.org/10.1016/0956-7151(94)00262-G ; Takahashi (2013), Atom probe analysis on interaction between Cr and N in bake - hardening steels with anti - aging properties at RT, Sci Eng, 585. ; Wada (1985), Thermodynamics of the Fe system at, Metall Trans, 1479, doi.org/10.1007/BF02658680 ; Koiwa (1971), Theory of the Snoek effect in ternary alloys General theory, Mag, 24, 81. ; Numakura (1996), The Snoek relaxation in dilute ternary alloys A review IV, Phys Paris, 97. ; Varvenne (2013), Point defect modeling in materials : Coupling ab initio and elasticity approaches, Phys Rev, 34, 88. ; Koiwa (1971), Theory of the Snoek effect in ternary alloys II Simplified treatment, Mag, 24, 107. ; Kirchheim (1982), Solubility diffusivity and trapping of hydrogen in dilute alloys deformed and amorphous metals II, Acta Metall, 30, 1069, doi.org/10.1016/0001-6160(82)90003-7 ; Nishizawa (1991), Experimental study on interaction parameter for carbon and alloying elements in austenite and ferrite, J Metall, 20, 62. ; Dijsktra (1953), Effects of alloying elements on the behavior of nitrogen in alpha iron, Trans, 197. ; Furuhara (2012), Numakura Interaction between interstitial and substitutional solute atoms in iron in rd on Steel Science Iron and Steel Institute of Japan Tokyo pp, Proc Int Symp, 3, 28. ; Meijering (1961), Considérations sur l effet Snoek dans le cas de sites non - équivalents pour les atomes en insertion, Ind, 36, 107.

DOI

10.1515/amm-2015-0349

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