Cited References
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W.C. Roberts-Austen, “Fifth Report to the Alloys Research Committee: Steel,”Proc. Inst. Meck Eng., 35–102 (1899). (EquiDia- gram; Experimental; #)
H.W. Bakhuis Roozeboom, “Iron and Steel from the Standpoint of Phase Rule,”Z. Phys. Chem.,34,437–487 (1900) in German. (Equi Diagram; Experimental; #)
H.C.H. Carpenter and B.F.E. Keeling, “The Range of Solidification and the Critical Ranges of Iron Carbon Alloys,”J. Iron Steellnst.,65,224–242 (1904). (Equi Diagram; Experimental; #)
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P. Goerens and H. Meyer, “Determination of Transformation Iinesof γ Iron in ß- or α-Iron,”Metallurgie, 7(10), 307–312 (1910) in German. (Equi Diagram; Experimental; #)
H. Hanemann, “Carbon Contents and Structural Appearance of Iron-Carbon Alloys High in Carbon,”Stahl Eisen, 31(9), 333–336 (1911) in German. (Equi Diagram; Experimental; #)
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N.J. Wark, “Determination of Solubility of Iron Carbide (Fe3C) in γ-Iron,”Metallurgie,8(22),704–713(1911)in German; abstr:Stahl Eisen, 31,2108-2109 (1911) in German. (Equi Diagram; Experimen- tal; #)
A. Meuthen, “Calorimetric Investigation of the Iron-Carbon System,”Ferrun, 10(1), 1–21 (1912–1913) in German. (Equi Dia- gram; Experimental; #)
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N.F. Wittorf, “Preliminary Investigation on Primary Crystallization and Subsequent Physicochemical Transformations in the Iron-Carbon System Containing More Than 4% Carbon,Z. Anorg. Chem.,79(1), 1–70 (1912) in German. (Equi Diagram; Experimental; #)
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R. Ruer and R. Klesper, “The yδ Transformation of Pure Iron and Influence of Carbon, Silicon, Cobalt, and Copper on It,”Ferrum, 11(9), 257–261 (1913–1914) in German. (Equi Diagram; Experimen- tal;*)
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P. Saldau and P. Goerens, “Determination of the Curve of Transformation of γ Iron into α and β Iron and of the Curve of Saturation of γ Iron by Cementite,”Zh. Russ. Met Obshch., (1), 789–824 (1914) in Russian; abstr.:Stahl Eisen,38,15-17 (1918). (Equi Diagram; Experimental;#)
K Honda and H. Takagi, “On the Magnetic Transformation of Cementite,”Sci Rep. Tohoku Univ.,4,161–168 (1915). (Magnetism; Experimental)
PJ, Saldau, “ANew line in the Iron-Carbon Diagram at 980 °C (in the Austenite) Region and Tchemoff’s Point V,”Zh. Russ. Met. Obshch., 655–690 (1915), 78–80 (1916) in Russian; abstr.:Stahl. Eisen, 38,39-40 (1918). (Equi Diagram; Experimental; #)
P. Bardenheuer, “Critical Points of Pure Carbon Steels,”Ferrum, 14,129–133,145–151 (1916) in German. (Equi Diagram; Experimen- tal; #)
K. Honda, “On the Temperature of the Reversible A1 Transformation in Carbon Steels,”Sci Rep. Tohoku Univ.,5, 285 (1916). (Equi Diagram; Experimental; #)
K. Honda and T. Murakami, “On the Thermomagnetic Proper- ties of the Carbides Found in Steels,”Sci Rep. Tohoku Univ.,6,23–29 (1917). (Magnetism; Experimental)
T. Ishiwara, “On the Magnetic Analysis of Carbides Found in Different Kind of Steel,”Sci Rep. Tohoku Univ.,6, 285–294 (1917). (Magnetism; Experimental)
R. Ruer and F. Goerens, “The Process of Melting and Freezing in Iron-Carbon Alloys,”Ferrum, 14,161–177 (1917) in German. (Equi Diagram; Experimental; #)
N. Tschischewsky and N. Schulgin, “The Determination of the line SEin the Iron Carbon Diagram by Etching Sectionsat High Tem- peratures in Vaaio”J.Iron Steel Inst.,95,189–198(1917). (EquiDia- gram; Experimental; #)
I. Iitaka, “A Study of Cementite Transformation and of the Equilibrium Diagram of the System Iron-Carbon by Means of Electric Resistance Measurements,”Sci Rep. Tohoku Univ.,7,167–175 (1918). (Equi Diagram; Experimental)
R. Ruer and J. Biren, “On the Solubility of Graphite in Molten Iron,”Z. Anorg. Allg. Chem., 113, 98–112 (1920) in German. (Equi Diagram; Experimental; #)
E. Mauer, quoted inStahl Eisen, 41,1696–1706 (1921) in German. (Equi Diagram; Experimental; #)
R. Ruer, “Iron-Carbon Alloys,”Z. Anorg. Chem.,117,249–261 (1921) in German. (Equi Diagram; Experimental; #)
G. Tammann and K. Ewig, “Transformation of Cementite at 210°,”Stahl Eisen, 42(20), 772–775 (1922) in German. (Magnetism; Experimental)
A. Westgren and G. Phragmen, “Crystal Structure of Iron and Steel II,”Z. Phys. Chem.,103,1–25 (1922) in German. (Crys Struc- ture; Experimental)
A. Westgren and G. Phragmen, “X-Ray Studies on the Crystal Structure of Steel,”J. Iron Steellnst.,105(1), 241–262 (1922). (Crys Structure; Experimental)
G. Asahara, “The Solidus Curve of Austenite,”Bull Inst. Phys. Chem. Res. (Tokyo), 2,420–425 (1923). (Equi Diagram; Experimen- tal;#)
J.F.T. Berliner, “Preparation and Properties of Pure Iron. IV. De- termination of the Critical Ranges of Pure Iron-Carbon Alloys by the Thermoelectric Method,”NBS Sci Papers 484,19,347–356 (1923– 1924). (Equi Diagram; Experimental)
S.Konno,“AStudy of the A1 and A3 Transformations in Carbon Steels by Means of a Differential Dilatometer,”Sci. Rep. Tohoku Univ.,12,127–136(1923). (EquiDiagram; Experimental;#)
F. Wever, “Iron Carbide,”Mitt. Kaiser Wilhelm Inst. Eisen- forsch., 4,67–80 (1923) in German. (Crys Structure; Experimental)
F. Wever, “Constitution of Technical Iron,”Z. Elektrochem.,30, 376–382 (1924). (Crys Structure, Magnetism; Experimental)
S. Kaya, “On the Solidus Line in the Iron-Carbon System,”Sci Rep. Tohoku Univ.,14,529–536 (1925). (Equi Diagram; Experimental;#)
O.W. Ellis, “An Investigation into the Effect of Constitution on the Malleability of Steel at High Temperatures,”Iron Steel Inst., Carnegie Schol. Mem.,15,195–215 (1926). (Equi Diagram; Experi- mental; #)
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F. Stablein, “Simple Expansion Apparatus for High Temperatures; Expansion Behavior of Carbon Steels in the Transition Range,”Stahl Eisen, 46,101–104 (1926) in German. (Equi Diagram; Experi- mental; #)
H. Esser, “Dilatometric and Magnetic Investigation of Pure Iron andiron-Carbon Alloys,”Stahl Eisen, 47(9), 337–344 (1927) in Ger- man. (Equi Diagram; Experimental; #)
K. Honda and H. Endo, “Magnetic Analysis As a Means of Studying theStructureofNon-MagneticAlloys,”J.Inst.Met.,37,29- 49 (1927). (EquiDiagram; Experimental; #)
K. Honda and H. Endo, “On the MagneticDeterminationofthe Solidus and Solubility lines in the Iron-Carbon System,”Sci Rep. Tohoku Univ.,16,235–244 (1927). (EquiDiagram; Experimental; #)
K. Honda and H. Endo, “On the Magnetic Susceptibility of the Iron-Carbon Alloys at High Temperatures, and the Equilibrium Dia- gram of the System,”Sci. Rep. Tohoku Univ.,16, 627–637 (1927). (Equi Diagram; Experimental; #)
P. Oberhoffer and W. Grosse, “Specific Heat of Iron,”Stahl Eisen, 47,576–582 (1927) in German. (Equi Diagram; Experimental)
N. Seljakov, G. Kurdjumov, and N. Goodtzov, “An X-Ray Inves- tigation of the Structure of Carbon Steels,”Z. Phys., 45, 384–408 (1927) in German. (Crys Structure, Magnetism; Experimental)
G. Tammann and K. Ewig, “Iron Carbide (FeC3),”Z. Anorg. Chem.,167,384–400 (1927) in German. (Magnetism; Experimental)
G. Kurdjumov and E Kaminski, “X-Ray Studies of the Struc- ture of Quenched Carbon Steel,”Nature, 122,475–476 (1928). (Crys Structure; Experimental)
E. Lehrer,Z. Tech. Phys.,9,142 (1928); quoted in [Hansen]. (Magnetism; Experimental)
A. Mittasch and E. Kuss, “Ammonia Synthesis with Catalysts Derived from Complex Cyanides of Iron” Z.Elektrochem.,34(4), 167–170 (1928) in German. (Magnetism; Experimental)
A. Westgren, G. Phragmen, and T. Negresco, “On the Structure of the Iron-Chromium-Carbon System,”J. Iron Steel Inst.,117,383- 400 (1928). (Crys Structure; Experimental)
J.H. Andrew and D. Binnie, “The Liquidus and Solidus Ranges of Some Commercial Steels,”.J. Iron Steel lnst.,119,309–346 (1929). (Equi Diagram; Experimental; #)
W. Gluud, K.V. Otto, and H. Ritter, “Note of Formation of a Car- bide Fe2C by Reduction of Iron Oxide with Carbon Oxide at Low Temperatures,”Ber. Dtsch. Chem. Ges.,62, 2483–2485 (1929) in German. (Meta Phases; Experimental)
W.E. Jominy, “A Study of Burning and Overheating of Steel — Part II:Trans. ASST, 16,372–392 (1929). (Equi Diagram; Experimental; #)
T. Sato, “On the Critical Points of Pure Carbon Steels,”Tech. Rep. Tohoku Univ.,8,27–52 (1929). (Equi Diagram; Experimental; #)
K. Schkhtel and E. Piwowarsky, “Influence of Alloying Elements Phosphorus, Silicon, and Nickel and the Solubility of Carbon in Liquid Iron,”Arch. Eisenhüttenwes.,3(2), 139–147 (1929–1930) in German. (Equi Diagram; Experimental; #)
S. Sekito, “The Lattice Constant of Quenched Carbon Steels,”Sci. Rep. Tohoku Univ.,18, 69–77 (1929). (Crys Structure; Experimental)
S. Shimura, “Study of the Structure of Cementite,”Proc. World Eng. Congr., Tokyo, 34,223–225 (1929);Strukturbericht, 2,303-304 (1928-1932). (Crys Structure; Experimental)
O.W. Ellis, “The Solidus of the Iron-Carbon System,”Met. Alloys, 1(10), 462–464 (1930). (Equi Diagram; Theory; #)
R.H. Harrington and W.P. Wood, “Critical Ranges in Pure Iron- Carbon Alloys,”Trans. ASST, 18, 632–654 (1930). (Equi Diagram; Experimental; #)
S.B. Hendricks, “The Crystal Structure of Cementite,”Z. Kris- tallogr.,74,534–545 (1930). (Crys Structure; Experimental)
U. Hofmann and E. Groll, “Segregation of Carbon from Carbide Oxide of Iron. III. Formation of Iron Oxides and Iron Carbides in Pre- cipitates,”Z. Anorg. Chem.,191(4), 414–428 (1930) in German. (Meta Phases; Experimental)
T. Kase, “Formation of Graphite During the Solidification of Cast Iron,”Scl. Rep. Tohoku Univ.,19,17–35 (1930). (Equi Diagram; Experimental; #)
H. Dunwald and C. Wagner, “Thermodynamic Investigation of the Iron-Carbon-Sulfur System,”Z. Anorg. Allg. Chem.,199(4),32l- 346 (1931) in German. (Thermo; Experimental)
E. Ohman, “X-Ray Investigations on the Crystal Structure of HardenedSteel,”J.Iron Steel Inst,123,445–463(1931).(CrysStruc- ture; Experimental)
E. Sohnchen and E. Piwowarsky, “Influence of Alloying Elements Nickel, Silicon, Aluminum, and Phosphorus on the Solubility of Carbon in Liquid and Solid Iron,”Arch. Eisenhuttenwes.,5(2), 111–120 (1931–1932) in German. (Equi Diagram; Experimental; #)
P. Goerens,Introduction to Metallography, in German (1932). (Equi Diagram; Review)
K. Honda and Z. Nishiyama, “On the Nature of the Tetragonal and Cubic Martensites,”Sci. Rep. Tohoku Univ.,21,299–331 (1932). (Crys Structure; Experimental)
K. Honda and Z. Nishiyama, “On the Nature of the Tetragonal and Cubic Martensites,”Trans. ASST, 20, 464–470 (1932). (Crys Structure; Experimental)
F. Korber and W. Oelsen, “Thermodynamic Considerations on the Equilibrium Curves of the Iron-Carbon Phase Diagram,”Arch. Eisenhuttenwes., 5(11), 569–578 (1932) in German. (Equi Diagram; Theory;#)
A. Westgren, “Crystal Structure of Cementite,”Jernkontrets Ann.,87,457–468 (1932);Strukturbericht, 2,304 (1928-1932). (Crys Structure; Experimental)
H.A. Bahr and V. Jessen, “Fission of Carbon Oxide, on Iron Ox- ide and Iron,”Ber.Dtsch. Chem. Ges.,66,1238–1247 (1933) in Ger- man. (Meta Phases; Experimental)
G. Hagg, “Powder Photograph of a New Iron Carbide,”Z. Kristallogr.,89,92–94 (1934) in German. (Meta Phases; Experimental)
G. Hagg, “The Decomposition of Martensite,”J. Iron Steel Inst.,130,439–451 (1934). (Crys Structure; Experimental)
E. Piwowarsky, “Displacement of Eutectic Temperature in Iron- Carbon Alloys,”Stahl Eisen, 54(4), 82–84 (1934) in German. (Equi Diagram; Experimental)
S. Umino, “Specific Heat of Iron-Carbon System at High Temperatures, and the Heat Changes Accompanying Those of Phase,”Sci. Rep. Tohoku Univ.,23,720–725 (1935). (Equi Diagram; Experimen- tal;#)
S. Epstein,The Alloys of Iron and Carbon, Vol. 1,Constitution, McGraw-Hill, New York (1936). (Equi Diagram; Review; #)
F. Adcock, “An Investigation of the Iron-Carbon Constitutional Diagram,”J. Iron Steel Inst.,135, 281–292 (1937). (Equi Diagram; Experimental;#)
R.F. Mehl and C. Wells, “Constitution of High-Purity Iron- Carbon Alloys,”Trans. AIME, 125,429–469 (1937). (Equi Diagram; Experimental;#)
A.Travers and R. Diebold, “Isolation of Pure Cementite by Acid Attack of Ferrous Materials and Some of Its Physical Properties,”Compt. Rend.,205,797–799 (1937) in French. (Magnetism; Experi- mental)
C. Wells, “Graphitization in High Purity Iron-Carbon Alloys,”Trans. ASM, 26,289–357 (1938). (Equi Diagram; Experimental; #)
M. Arbuzov and G. Kurdjumov, “State of Carbon in Tempered Steel,”Zh. Tekh. Fiz., 10, 1093–1100 (1940) in Russian;J. Phys. USSR, 5(2–3), 101–108 (1941) in German. (Meta Phases; Experimental)
H. Iipson and N J. Petch, “The Crystal Structure of Cementite, Fe3C,”J. Iron Steel Inst.,142,95–103 (1940). (Crys Structure; Ex- perimental)
R.W. Gurry, “The Solubility of Carbon as Graphite in Gamma Iron,”Trans. AIME, 150,147–153 (1942). (Equi Diagram; Experi- mental;#)
W. Hume-Rothery, G.V. Raynor, and A.T. little, “The Lattice Spacings and Crystal Structure of Cementite,”J. Iron Steel Inst.,145, 143–149 (1942). (Crys Structure; Experimental)
S. Marshall and J. Chipman, “The Carbon-Oxygen Equilibrium in liquid Iron,”Trans. ASM, 30,695–746 (1942). (Thermo; Experimental)
N J. Petch, “The Positions of the Carbon Atoms in Austenite,”J. Iron Steel Inst., 145, 111–123 (1942). (Crys Structure; Experimental)
N J. Petch, “The Positions of the Carbon Atoms in Martensite,”J. Iron Steel lnst.,147,221–227 (1943). (Crys Structure; Experimental)
H. Lipson and A.M.B. Parker, “The Structure of Martensite,”J. Iron Steel lnst.,149,123–141 (1944). (Crys Structure; Experimental)
N.J. Petch, “The Interpretation of the Crystal Structure of Ce- mentite,”J. Iron Steel Inst., 149,143–150 (1944). (Crys Structure; Experimental)
K.H. Jack, “Iron-Nitrogen, Iron-Carbon, and Iron-Carbon-Ni- trogen Interstitial Alloys,”.Nature, 158,60–61 (1946). (Meta Phases; Experimental)
G. Kurdjumov and L. Lyssak, “The Application of Single Crystals to the Study of Tempered Martensite,”Zh. Tekh. Fiz.,16,1307- 1318 (1946) in Russian;J. Iron Steellnst.,156,29-36 (1947). (Crys Structure; Experimental)
R.P. Smith, “Equilibrium of Iron-Carbon Alloys with Mixtures of CO-CO2 and CH4-H2,”J. Am. Chem. Soc.,68(7), 1163–1175 (1946). (Equi Diagram, Thermo; Experimental; #)
K.H. Jack, “Binary and Ternary Interstitial Alloys. III. The Iron- Carbon System: the Characterization of a New Iron Carbide,”Proc. R. Soc (London) A, 195,56–61 (1948). (Meta Phases, Crys Structure; Experimental)
L.J. Dijkstra, “Precipitation Phenomena in the Solid Solutions of Nitrogen and Carbon in Alpha Iron below the Eutectoid Tempera- ture,”Trans. AIME, 185(3), 252–260 (1949). (Equi Diagram; Experi- mental; #)
H J. Goldschmidt, “Interplanar Spacings of Carbides in Steels,”Metallurgie, 40(6), 103–104 (1949). (Crys Structure; Experimental)
L.J.E. Hofer, E.M. Conn, and W.C. Peebles, “The Modifications of the Carbide, Fe2C; Their Properties and Identification,”J. Am. Chem. Soc.,71,189–195 (1949). (MetaPhases; Experimental)
WA. Pennington, “Thermodynamics in the Decarburization of Steel with Mill Scale,”Trans. ASM, 41,213–258 (1949). (Equi Dia- gram; Experimental; #)
J.K. Stanley, “The Diffusion and Solubility of Carbon in Alpha Iron,”Trans. AIME, 185(10), 752–760 (1949). (Equi Diagram; Ex- perimental;#)
M.I. Temkin and LA. Shvartsman, “Activity of Carbon in Austenite,”Zh. Fiz. Khim., (6), 7,55 (1949) in Russian. (Thermo; Ex-perimental)
WJ. Wrazej, “Lattice Spacing of Retained Austenite in Iron- Carbon Alloys,”Nature, 163,212–213 (1949). (Crys Structure; Experimental)SOArb: M.P. Arbuzov, “The Structure of Martensite Electrolytically Separated from Hardened Steel,”Dokl. Akad Nauk SSSR, 74,1085- 1087 (1950) in Russian;Struct. Rep.,13,62 (1950). (Crys Structure; Experimental)
H.C. Eckstrom and W.A. Adcock, “A New Iron Carbide in Hydrocarbon Synthesis Catalysts,”J. Am. Chem. Soc.,72(2), 1042–1043 (1950). (Meta Phases; Experimental)
K.H. Jack, “Results of Further X-Ray Structural Investigations of the Iron-Carbon and Iron-Nitrogen System and of Related Interstitial Alloys,”Acta Crystallogr.,3, 392–394 (1950). (Meta Phases, Crys Structure; Experimental)
J. Mazur, “Lattice Parameters of Martensite and Austenite,”Nature, 166,828 (1950). (Crys Structure; Experimental)
C.A. Wert, “Solid Solubility of Cementite in Alpha Iron,”Trans. AIME, 188,1243–1244 (1950). (Equi Diagram, Thermo; Experimental;#)
G. Borelius, “Kinetics of Precipitation in Supercooled Solid Solutions,”Trans. AIME, 191(6), 477–484 (1951). (Equi Diagram; Experimental; #)
G. Borelius and S. Berglund, “Calorimetric Study of the Pre- cipitation of Carbon Dissolved in α-Iron,”.Ark Fys.,4(4), 173–182 (1951). (Equi Diagram; Experimental; #)
L.S. Darken and R.W. Gurry, “Free Energy of Formation of Cementite and the Solubility of Cementite in Austenite,”Trans. AIME, 191(11), 1015–1018(1951). (EquiDiagram; Experimental;#)
E. Scheil, “Thermodynamics and Synthesis of Iron-Carbon Al- loys,”Arch. Eisenhuttenwes.,22(1–2), 37–52 (1951) in German. (Thermo; Theory;#)
J. Chipman, R.M. Alfred, LW. Gott, R.B. Small, DM Wilson, C.N. Thomson, D.L. Guermsey, and J.C. Fulton, “The Solubility of Carbon in Molten Iron and in Iron-Silicon and Iron-Manganese Al-loys,”Trans. ASM, 44,1215–1232 (1952). (Equi Diagram; Experi- mental;#)
G. Falkanhagen and W. Hofmann, “Observation of Rapidly Quenched Iron-Carbon Melts,”Arch. Eisenhuttenwes.,25(1–2), 73- 74 (1952) in German. (Equi Diagram, Crys Structure; Experimental; #)
J.A. Kitchener, J.O.M. Bockris, and DA. Spratt, “Solutions in Liquid Iron. Part 2. The Influence of Sulphur on the Solubility and Activity Coefficient of Carbon,”Trans. Faraday Soc., 48, 608–617 (1952). (Equi Diagram; Experimental; #)
E.M. Cohn and L.J.E. Hofer, “Some Thermal Reactions of the Higher Iron Carbides,”J. Chem.Phys.,21(2), 354–359(1953). (Meta Phases, Crys Structure, Magnetism; Experimental)
L.S. Darken and R.W. Gurry,Physical Chemistry of Metals, McGraw-Hill, Inc., New York, (1953). (Equi Diagram, Thermo;The- ory;#)
E. Houdremont and O. Krisement, “Study on Undercooling of Transformation Processes as the Groundwork for Martensitic Transformation,”Arch Eisenhüttenwes.,24(1-2), 53–68 (1953) in Ger- man. (Crys Structure; Experimental)
F.D. Richardson and W.E. Dennis, “Thermodynamic Study of Dilute Solutions of Carbon in Molten Iron,”Trans. Faraday Soc.,49, 171–180 (1953). (Thermo; Experimental)
C.S. Roberts, “Effect of Carbon on the Volume Fractions and Lattice Parameters of Retained Austenite and Martensite,”J. Met.,5(2), 203–204 (1953). (Crys Structure; Experimental)
K. Sanbongi and M. Ohtani, “On Activities of Coexisting Elements in Molten Iron. I. The Activity of Carbon in Molten Iron,”Sci. Rep. Res. Inst. Tohoku Univ. A, 5,263–270 (1953). (Thermo; Experimental)
G.K. Williamson and R.E. Smallman, “X-Ray Evidence for the Interstitial Position of Carbon in a Iron,”Acta Crystallogr.,6,361- 362 (1953). (Crys Structure; Experimental)
M. Hillert, “Solubility of Carbon in Ferrite,”Acta Metall.,2(1), 11 -14 (1954). (Equi Diagram, Thermo; Theory; #)
M. Hillert, “Solubility of Cementite in Liquidlron”Acta Metal.,3(1), 37–38 (1955). (Equi Diagram, Thermo; Theory;#)
G. Lagerberg and A. Josefsson, “Influence of Grain Boundaries on the Behavior of Carbon and Nitrogen in α-Iron,”Acta Metall.,3(5), 235–244 (1955). (Equi Diagram; Experimental)
E. Lindstrand, “A Method for the Measurement of Elastic Relaxation, and its Use for Determination of the Solubility of Carbon in α-Iron,”Acta Metall.,3(9), 431–435 (1955). (Equi Diagram; Experimental;*)
S. Matoba and S. Banya, “Equilibrium of Carbon and Oxygen in Molten Iron Saturated with Carbon,”Tech. Rep. Tohoku Univ.,20, 131–141 (1955). (EquiDiagram; Experimental; #)
E.T. Turkdogan and L.E. Leake, “Thermodynamics of Carbon Dissolved in Iron Alloys. Part I: Solubility of Carbon in Iron-Phosphorus, Iron-Silicon, and Iron-Manganese Melts,”J. Iron Steel lnst.,179(l),39–43(1955). (Equi Diagram; Experimental;#)
S. Nagakura, “Study of Iron Carbides by Electron Diffraction. II. Phase Transition of the Carbides,”Nippon Kinoku Gakkai-shi, 20, 465–468 (1956) in Japanese. (Meta Phases; Experimental)
Z.G. Pinsker and S.V. Kaverin, “Electron-Diffraction Determination of the Structure of Iron Carbide Fe4C,”Kristallografiya, 1(1), 66–72 (1956) in Russian; TR:Sov. Phys. Crystallogr.,1(1), 48–53 (1956). (Meta Phases, Crys Structure; Experimental)
N.M. Popova, “Carbide Analysis of Steel,” Moscow (1956); quoted in [Elliott]. (Crys Structure; Experimental)
A. Rist and J. Chipman, “Activity of Carbon Dissolved in Liquid Iron,”Rev. Metall., Mem.,53,796–807 (1956) in French. (Thermo; Experimental)
E.T. Turkdogan, L.E. Leake, and C.R. Masson, “Thermodynamics of Iron-Carbon Melts,”Acta Metall.,4(1), 396–406 (1956). (Equi Diagram, Thermo; Theory)
R. Fruchart and A. Michel, “New Nickel Boride Ni3B with the Same Structure as Cementite,”Compt. Rend., 245(2), 171–172 (1957) in French. (Crys Structure; Experimental)
N.V. Gudkova, E.I. Levina, and V.A. Tolomasov, “Investigation of the Carbide Phases of Tempered Carbon Steel,”Fiz. Met. Metal- loved.,4(3), 500–504 (1957) in Russian; TR:Phys. Met. Metallogr.,4(3), 91–94 (1957). (Crys Structure; Experimental)
Z.G. Pinsker and S.V Kaverin, “Electron Diffraction Study of Nitrides and Carbides ofTransition Metals,”Kristallografiya,2,386- 392 (1957) in Russian; TR: Sov.Phys. Crystallogr.,2, 380–387 (1957). (Meta Phases; Experimental)
E.Z. Vintaikin, “The Determination of the Vapor Pressure of Iron over Austenile,”Dokl Akad Nauk USSR, 117, 632–634 (1957). (Thermo; Experimental)
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This work was supported by ASM International. Literature searched through 1989. Dr. Okamoto is the Alloy Phase Diagram Program Category Editor for miscellaneos binary alloys.
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Okamoto, H. The C-Fe (carbon-iron) system. JPE 13, 543–565 (1992). https://doi.org/10.1007/BF02665767
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DOI: https://doi.org/10.1007/BF02665767