Liquidus surface projection of the Fe–Co–C ternary system in the iron-rich corner
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Farida Haddad
Abstract
In the present work, the liquidus projection of the Fe – Co – C ternary system is plotted in the iron-rich corner using differential thermal analysis, optical microscopy, scanning electron microscopy and X-ray diffraction. This projection contains three primary crystallisation phases (δ(Fe), γ(Fe) and graphite) as well as two univariant lines: peritectic L + δ(Fe) γ(Fe) and eutectic L γ(Fe) + Cgraphite.
References
[1] J.L.Marié: Tiré à part de Travail & Sécurité n° 609 ED 5011–5000ex ISSN 0373-1944 (2001)1–4.Search in Google Scholar
[2] M.Hawkins: Trans. Instn Min. Metall. (Sect. B: Appl. Earth sci.)110(2001)B66–B 70.10.1179/aes.2001.110.2.66Search in Google Scholar
[3] R.Vogel, W.Sundermann: Arch. Eisenhüttenwes.6(1932)35–38.10.1002/srin.193200311Search in Google Scholar
[4] V.G.Rivlin: International Metals Reviews29(1984)96–120.10.1179/imtr.1984.29.1.96Search in Google Scholar
[5] G.V.Raynor, V.G.Rivlin: Phase Equilibria in Iron Ternary Alloys, Institute of Metals London(1988)140–142.Search in Google Scholar
[6] V.Raghavan: J. Phase Equilib.15(1994)416–418.10.1007/BF02647567Search in Google Scholar
[7] V.Raghavan: J. Phase Equilib.23(2002)511–512.10.1361/105497102770331217Search in Google Scholar
[8] A.F.Guillermet: Z. Metallkd.9(1988)317–329.Search in Google Scholar
[9] S.E.Amara, A.Belhadj, R.Kesri, S.Hamar-Thibault: Z. Metallkd.90(1999)116–123.Search in Google Scholar
[10] H.Morrogh, W.J.Williams: J. Iron Steel Inst.155(1947)321–371.Search in Google Scholar
[11] A.P.Rollet, R.Bouaziz: L'analyse Thermique, tome 1: Les changements de phases, Gauthier-Villards edition (1972)74.Search in Google Scholar
[12] Y.Adda, J.M.Dupouy, J.Philibert, Y.Quéré: Techniques du Laboratoire de Science des Matériaux, INSTN, Commisariat à l'Energie Atomique, Collection enseignement, ISBN 2-7272-0163-X (tome 1) (1993)30–31.Search in Google Scholar
[13] S.E.Amara, R.Kesri, N.Valignat, S.Hamar-Thibault: Mikrochim. Acta114-15(1994)157–164.10.1007/BF01244539Search in Google Scholar
[14] L.Adnane, R.Kesri, S.Hamar-Thibault: Microchim. Acta Suppl.13(1996)209–216.Search in Google Scholar
© 2008, Carl Hanser Verlag, München
Articles in the same Issue
- Contents
- Contents
- Basic
- Critical temperature for massive transformation in ultra-low-carbon Fe–C alloys
- Are data correctly fitted by the sin2 ψ and similar methods?
- Liquidus surface projection of the Fe–Co–C ternary system in the iron-rich corner
- Prediction of thermodynamic activities in binary iron-based alloys using two-point Padé approximants
- Study of fatigue dislocation structures in [233] coplanar double-slip-oriented copper single crystals using SEM electronic channelling contrast
- Microstructures at high temperature of Fe-30 wt.% Cr-xC Alloys with x varying from 0 to 2 wt.%
- The effect of cooling rate on the microstructure and mechanical properties of Mg–Zn–Gd-based alloys
- The effect of thermal exposure on the microstructure and hardness of as-cast Mg–Zn–Al alloys with Sn addition
- Applied
- Deformation and fracture of Ti-base nanostructured composite
- Microstructure and some properties of FeCr25Co15 alloy subjected to plastic deformation by complex load
- Determination of the concentration dependent diffusion coefficient of nitrogen in expanded austenite
- Suitability of maraging steel weld cladding for repair of die casting tooling
- Catalytic performance of Fe-, Pd-, and Pd–Fe- mordenites in simulated hydrocarbon-selective catalytic reduction of N2O by methane in a model flue-gas from nitric acid plants
- Thermodynamic consideration and experimental study on the preparation of heat-treated hollow nickel fibres
- A model for the intrinsic kinetic parameters of the direct reduction of MoS2 with hydrogen
- Notification
- DGM News
Articles in the same Issue
- Contents
- Contents
- Basic
- Critical temperature for massive transformation in ultra-low-carbon Fe–C alloys
- Are data correctly fitted by the sin2 ψ and similar methods?
- Liquidus surface projection of the Fe–Co–C ternary system in the iron-rich corner
- Prediction of thermodynamic activities in binary iron-based alloys using two-point Padé approximants
- Study of fatigue dislocation structures in [233] coplanar double-slip-oriented copper single crystals using SEM electronic channelling contrast
- Microstructures at high temperature of Fe-30 wt.% Cr-xC Alloys with x varying from 0 to 2 wt.%
- The effect of cooling rate on the microstructure and mechanical properties of Mg–Zn–Gd-based alloys
- The effect of thermal exposure on the microstructure and hardness of as-cast Mg–Zn–Al alloys with Sn addition
- Applied
- Deformation and fracture of Ti-base nanostructured composite
- Microstructure and some properties of FeCr25Co15 alloy subjected to plastic deformation by complex load
- Determination of the concentration dependent diffusion coefficient of nitrogen in expanded austenite
- Suitability of maraging steel weld cladding for repair of die casting tooling
- Catalytic performance of Fe-, Pd-, and Pd–Fe- mordenites in simulated hydrocarbon-selective catalytic reduction of N2O by methane in a model flue-gas from nitric acid plants
- Thermodynamic consideration and experimental study on the preparation of heat-treated hollow nickel fibres
- A model for the intrinsic kinetic parameters of the direct reduction of MoS2 with hydrogen
- Notification
- DGM News
