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Cited References
39FAS: Fast, J.D., “The Transition Point Diagram of the Zirconium-Titanium System”,Rec. Trav. Chim.:58, 973 (1939).
51HAY: Hayes, E.T., Roberson, A.H. and Paasche, O.G., “Zirconium-Titanium System: Constitution Diagram and Properties”, U.S. Bur. Mines Rept. Invest. No. 4826: (1951).
52DUW: Duwez, P., “Allotropic Transformation in Titanium-Zirconium Alloys”,J. Inst. Met.:80, 525 (1952).
53MCH: McHargue, C.J., Adair, S.E. and Hammond, J.P. “Effect of Solid Solution Alloying on the Cold-Rolled Texture of Titanium”,Trans. AIME:197, 1199 (1953).
57AUS: Austin, A.E. and Doig, J.R., “Structure of the Transition Phase Omega in Ti−Cr Alloys”,Trans. AIME:209, 27 (1957).
57HAT: Hatt, B.A., Roberts, J.A. and Williams, G.I., “Occurrence of the Meta-stable Omega Phase in Zirconium Alloys”,Nature:180, 1406 (1957).
58BAG: Bagariatskii, Iu.A. and Nosova, G.I., “Exact Determination of the Atomic Coordinates in the Metastable ω-phase of Ti−Cr Alloys”,Kristallografiya:3(1), 17 (1958); TR:Sov. Phys. Crystallogr.: 3(1), 15 (1958).
58SIL: Silcock, J.M., “An X-Ray Examination of the ω Phase in TiV, TiMo and TiCr Alloys”,Acta Metall.:6, 481 (1958).
58SPA: Spachner, S.A., “Comparison of the Structure of the Omega Transition Phase in Three Titanium Alloys”,Trans. AIME:212, 57 (1958).
59HAT: Hatt, B.A. and Williams, G.I., “Some Observations on the Retention of the β-phase in Quenched Zr-50 a/o Ti Alloys”,Acta Metall.:7, 682 (1959).
59KAU: Kaufman, L., “The Lattice Stability of Metals-I. Titanium and Zirconium”,Acta Metall.:7, 575 (1959).
60GRI: Gridnev, V.N., Trefilov, V.I. and Minakov, V.N., “Martensitic Transitions in the System Titanium-Zirconium”,Dokl. Akad. Nauk SSSR:134(6), 1334 (1960); TR:Sov. Phys. Dokl.: 5(6), 1094 (1960).
61ENC: Ence, E. and Margolin, H., “Observations on the Ti−Zr System”,Trans. AIME:221, 205 (1961).
62IMG: Imgram, A.G., Williams, D.N. and Ogden, H.R., “Tensile Properties of Binary Titanium-Zirconium and Titanium-Hafnium Alloys”,J. Less-Common Met.:4, 217 (1962).
66BRO: Brown, A.R.G. and Jepson, K.S., “Physical Metallurgy and Mechanical Properties of Titanium-Niobium Alloys”,Mem. Sci. Rev. Metall.:63(6), 575 (1966).
66FAR: Farrar, P.A. and Adler, S., “On the System Titanium-Zirconium”,Trans. AIME:236, 1061 (1966).
66KUP: Kuprina, V.V., Bernard, V.B., Grigor’ev, A.T. and Sokolovskaya, E.M., “Investigation of Solid State Transformations in Alloys of the Titanium-Zirconium System”,Vestn. Mosk. Univ. Khim:21(5), 69 (1966); TR:Rept. Mosc. Univ. Chem.: 21(5), 396 (1966).
69HIC: Hickman, B.S., “The Formation of Omega Phase in Titanium and Zirconium Alloys: A Review”,J. Mater. Sci.:4, 554 (1969).
69RUD: Rudy, E., “Compilation of Phase Diagram Data”, Technical Rept. AFML-TR-65-2, Part V, Wright Patterson Air Force Base (1969).
69SAS: Sass, S.L., “The ω Phase in a Zr-25 a/o Ti Alloy”,Acta Metall.:17, 813 (1969).
70HUA: Huang, Y.C., Suzuki, S., Kaneko, H. and Sato, T., “Thermodynamics of the Mg Points in Titanium Alloys”, Sci. Technol. Appl. Titanium Proc. Intl. Conf., R.I. Jaffee, Ed.: 695 (1970).
70KAU: Kaufman, L. and Bernstein, H.,Computer Calculations of Phase Diagrams, Academic Press, NY (1970).
71CHA: Chatterji, D., Hepworth, M.T. and Hruska, S.J., “On the System Ti−Zr”,Metall. Trans.:2, 1271 (1971).
71PEY: Peyzulayev, Sh.I., Sumin, V.V., Bykov, V.N. and Popova, L.K., “Activities of Titanium and Iron in Binary Alloys with Zirconium”,Izv. Akad. Nauk SSSR Met.: (4), 144 (1971); Tr:Russ. Metall.: (4), 98 (1971).
73BAN: Banerjee, S. and Krishnan, R., “Martensitic Transformation in Zr−Ti Alloys”,Metall. Trans.:4, 1819 (1973).
74DON: Donohue, J.,The Structures of the Elements, J. Wiley and Sons, NY (1974).
75SAN: Sandler, R.A., Aleksandrovskii, S.V., Likhterman, V.A., Golubev, A.A. and Kuzmenko, A.S. “Structure of Spongy Ti−Zr Alloys Obtained by Thermal Reduction with Mg”,Izv. Akad. Nauk SSSR Met. (5), 30 (1975); TR:Russ. Metall.: (5), 25 (1975).
75UNT: Unterricker, S. and Hausbrand, J., “PAC Studies on Titanium-Zirconium (TixZr1−x) Alloys”,Zentralinst. Kernforsch.: ZfK-295, 86 (1975).
77CAH: Cahn, J.W., “The Symmetry of Martensites”,Acta Metall.:25, 721–724 (1977).
77ETC: Etchessahar, J. and Debuigne, J., “Study of the Allotropic Transformation in Equiatomic Titanium-Zirconium Alloys: Influence of Purity of the Materials and Nitrogen on the Phase Transition”,Mem. Sci. Rev. Metall.:74(3), 195 (1977).
79ASM: ASM Metals Handbook Ninth Edition—Volume 2, Properties and Selection: Nonferrous Alloys and Pure Metals, American Society for Metals, Metals Park, OH 44073.
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Thermodynamic calculations have been made using computer programs generously made available by E.-Th. Henig and H. L. Lukas, of the Max-Planck Institute, Stuttgart, Federal Republic of Germany. This work was supported by Office of Naval Research funds through the Joint Program on Critical Compilations of Physical and Chemical Data coordinated by the office of Standard Reference Data, National Bureau of Standards. Bibliography through 1979. Dr. Murray is the ASM/NBS Data Program’s Category Editor for binary titanium alloys.
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Murray, J.L. The Ti−Zr (Titanium-Zirconium) system. Bulletin of Alloy Phase Diagrams 2, 197–201 (1981). https://doi.org/10.1007/BF02881478
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DOI: https://doi.org/10.1007/BF02881478