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Cited References
Indicates key paper1897Hey: C. T. Heycock and F. H. Neville, “The Freezing Points of Alloys Containing Zinc and Another Metal”,J. Chem. Soc., 71, 389 (1897). (Equi Diagram).
05She: E. S. Shepard, “Aluminum-Zinc Alloys”,J. Chem. Phys., 9, 504–512 (1905). (Equi Diagram)
10Ewe: D. Ewen and T. Turner, “The Aluminium-Zinc Alloys”,J. Inst. Met., 4, 140–156 (1910). (Equi Diagram)
11Ros1: W. Rosenhain and S. L. Archbutt, “The Constitution of the Alloys of Aluminium and Zinc”,Phil. Trans. Roy. Soc. (London), A211, 315–343 (1911). (Equi Diagram)
11Ros2: W. Rosenhain and S. L. Archbutt, “The Alloys of Aluminium and Zinc”,J. Inst. Met., 6, 236–250 (1911). (Equi Diagram)
Indicates key paper22Han: D. Hanson and M. L. Gayler, “A Further Study of the Alloys of Aluminium and Zinc”,J. Inst. Met., 27, 267–294 (1922). (Equi Diagram).
22Hem: T. Hemmi, “Alloys of Aluminium and Zinc”,Kogyo-Kwaghaku-Zasshi, 25, 511–524 (1922) in Japanese; abstract:J. Inst. Met., 28–644 (1922). (Equi Diagram)
22San: W. Sander and K. L. Meisser, “On the Constitution of the Aluminum-Zinc System”,Z. Metallkd., 14, 385–387 (1922) in German. (Equi Diagram)
23Pie: W. M. Pierce, and M. S. Palmerton, “Studies on the Constitution of Binary Zinc-Base Alloys”,Trans. AIME, 68, 767 (1923). (Equi Diagram)
Indicates key paper24Isi: T. Isihara, “On the Equilibrium Diagram of the Aluminium-Zinc System”,Sci. Rep. Tohoku Univ., 13, 18–21 (1924). (Equi Diagram).
24Nis: H. Nishimura, “On the Age-Hardening of Aluminium-Rich Al−Zn Alloys”,Mem. Coll. Eng. Kyoto Imp. Univ., 3(6), 133–163 (1924). (Equi Diagram)
Indicates key paper26ISi: T. Isihara, “A Further Investigation on the Equilibrium Diagram of the Aluminium-Zinc System”,Sci. Rep. Tohoku Univ., 15, 209–224 (1926). (Equi Diagram).
26Tie1: O. Tiedemann, “Investigations of the Al−Zn System”,Z. Metallkd., 18, 221–223 (1926). (Equi Diagram)
26Tie2: O. Tiedemann, “Investigations of the Al−Zn System”,Z. Metallkd., 18, 18–21 (1926). (Equi Diagram)
32Fin: W. L. Fink and H. R. Freche, “Equilibrium Relations in Aluminum-Zinc Alloys of High Purity”,Trans. AIME, 99, 132–140 (1932). (Equi Diagram)
32Sch: M. V. Schwarz and O. Summa, “Does the Compound Al2Zn3 Exist?”,Metallwirtsch., 11, 369–371 (1932) in German. (Equi Diagram)
34Owe: E. A. Owen and J. Iball, “X-Ray Study of Aluminium-Zinc Alloys”,Philos. Mag., 17, 433–457 (1934). (Equi Diagram, Crys Structure)
34Sch: E. Schmid and G. Wassermann, “On the Aluminum-Zinc System”,Z. Metallkd., 26, 145–150 (1934) in German. (Equi Diagram, Crys Structure)
35Ful: M. L. Fuller and R. L. Wilcox, “Phase Changes During Aging of Zinc-Alloy Die Castings, I-Eutectoidal Decomposition of Beta Aluminum-Zinc Phase and Its Relation to Dimensional Changes in Die Casting”,Trans. AIME, 117, 338–354 (1935). (Equi Diagram)
35Kos: G. F. Kossolapow and A. K. Trapesnikow, “X-Ray Analysis of the Beta Phase in Cu−Be and Al−Zn Alloys at High Temperature”,Metallwirtsch, 14, 45–46 (1935) in German. (Crys Structure)
35Owe: E. A. Owen and L. Pickup, “X-Ray Study of Aluminium-Zinc Alloys at Elevated Temperatures”,Philos. Mag., 20, 761–777 (1935). (Equi Diagram)
Indicates key paper36Aue: H. Auer and K. E. Mann, “Magnetic Investigation of the Aluminum-Zinc System”,Z. Metallkd., 28, 323–326 (1936) in German. (Equi Diagram).
36Bur: A. Burkhardt, “Zinc Alloys as a Substitute Material”,Z. Metallkd., 28(10), 299–308 (1936) in German. (Equi Diagram)
Indicates key paper36Fin: W. L. Fink, “Equilibrium Relations in Aluminum-Zinc Alloys of High Purity, II”,Trans. AIME, 12, 244–260 (1936). (Equi Diagram).
36Ful: M. L. Fuller and R. L. Wilcox, “Phase Changes During Aging of Zinc-Alloy Die Castings, II-Changes in the Solid Solution of Aluminum in Zinc and Their Relation to Dimensional Changes”,Trans. AIME, 122, 231–246 (1936). (Equi Diagram)
37Bro: W. Broniewski, J. Kucharski, and W. Winawer”, On the Structure of Al−Zn Alloys”,Rev. Metall., 34(8), 449–461 (1937) in French. (Equi Diagram)
Indicates key paper38Gay: M. L. V. Gayler, M. Haughton, and E. G. Sutherland, “The Constitution of Aluminium-Zinc Alloys of High Purity: The Nature of the Thermal Change of 443 °C”,J. Inst. Met., 63, 123–147 (1938). (Equi Diagram).
39Gue: W. Guertler, H. Krause, and F. Voltz, “Experiments on the Al−Zn System”,Metallwirtsch., 18, 97–100 (1939) in German. (Equi Diagram)
Indicates key paper39Mor: T. Morinaga, “On the Equilibrium Diagram of the Aluminium-Zinc System”,Nippon Kinzoku Gakkaishi, 3, 216–221 (1939). (Equi Diagram).
40Ell: E. C. Ellwood, “An X-Ray Study of the Constitution of Aluminium-Zinc Alloys of High Purity above 275 °C, with a Description of a New High-Temperature X-Ray Camera”,J. Inst. Met., 66, 87–97 (1940). (Equi Diagram)
Indicates key paper40Loe: K. Loehberg, “X-Ray Determination of the Solubility of Aluminum and Copper in Zinc”,Z. Metallkd., 32, 86–90 (1940) in German; abstract:Chem. Abstr., 35, 1745 (1945);Met. Abstr., 10, 139 (1943). (Equi Diagram).
40Mor: T. Morinaga, “On the Peritectic Reaction of the Aluminium-Zinc System”,Nippon Kinzoku Gakkaishi, 4, 216–220 (1940) in Japanese. (Equi Diagram)
43But: E. Butchers, G. V. Raynor, and W. Hume-Rothery, “The Constitution of Magnesium-Manganese-Zinc-Aluminum Alloys in the Range 0–5 percent Manganese, 0–8 percent Zinc. I. The Liquidus”,J. Inst. Met., 69, 209–228 (1943). (Equi Diagram)
Indicates key paper43Pel: E. Pelzel and H. Schneider, “Contribution to the Understanding of Zn Alloys”,Z. Metallkd., 35, 124–127 (1943) in German. (Equi Diagram).
Indicates key paper45But: E. Butchers and W. Hume-Rothery, “On the Constitution of Aluminium-Magnesium-Manganese-Zinc Alloys: The Solidus”,J. Inst. Met., 71, 291–311 (1945). (Equi Diagram).
47Pet: D. A. Petrov and T. A. Badaeva, “Structures of Al−Zn Alloys and Structural Analogues in Other Systems”,Zh. Fiz. Khim., 21, 785–797 (1947) in Russian. (Equi Diagram)
48Axo: H. J. Axon and W. Hume-Rothery, “The Lattice Spacings of Solid Solutions of Different Elements in Aluminium”,Proc. Roy. Soc. (London), A193, 1–24 (1948). (Crys Structure)
Indicates key paper48Bor: G. Borelius and L. E. Larsson, “Kinetics of Precipitation in Al−Zn Alloys”,Ark. Mat. Astr. Fys., 35A(13), 1–14 (1948). (Equi Diagram, Meta Phases).
Indicates key paper49Geb1: E. Gebhardt, “Equilibrium Experiments on the Systems Zinc-Aluminum and Zinc-Aluminum-Copper”,Z. Metallkd., 40, 136–140 (1949) in German. (Equi Diagram).
49Geb2: E. Gebhardt, “Zinc-Aluminum Phase Diagram”,Z. Metallkd., 40, 463–464 (1949) in German. (Equi Diagram; Review)
Indicates key paper49Pel: E. Pelzel, “The Positions of the Liquidus and Solidus Curves in the Al−Zn System from 30 to 70 wt.% Al”,Z. Metallkd., 40, 134–136 (1949). (Equi Diagram).
Indicates key paper49Sol: I. S. Solet and H. W. St. Clair, “Liquidus Temperatures and Liquid Densities of Zinc-Aluminum Alloys”, Bureau of Mines Report of Investigations 4553 (1949). (Equi Diagram).
Indicates key paper50Dor: J. E. Dorn, P. Pietrokowsky, and T. E. Tietz, “The Effect of Alloying Elements on the Plastic Properties of Aluminum Alloys”,Trans. AIME, 188, 933–943 (1950)..
Indicates key paper50Hof: W. Hofmann and G. Fahrenhorst, “Precipitation Rates in High Purity Zinc-Aluminum and Zinc-Copper Alloys”,Z. Metallkd., 42, 460–463 (1950) in German. (Equi Diagram).
51Bor: G. Borelius, “Kinetics of Precipitation in Supercooled Solid Solutions”,Trans. AIME, 191, 477–484 (1951). (Equi Diagram, Meta Phases)
51Ell: E. C. Ellwood, “The Solid Solutions of Zinc in Aluminium”,J. Inst. Met., 80, 217–224 (1951). (Equi Diagram)
52Pas: A. Pasternak, “The Solid Solubility of Metals in Lead and Zinc”,Bull. Intern. Acad. Polon. Sci. Ser. A, 177–192 (1952); abstract:Chem. Abstr., 48, 1097–1098 (1954). (Equi Diagram)
Indicates key paper54Hil: J. E. Hilliard, B. L. Averbach, and M. Cohen, “Thermodynamic Properties of Solid Aluminum-Zinc Alloys”,Acta Metall., 2, 621–631 (1954). (Thermo).
Indicates key paper56Mue: A. Muenster and K. Sagel, “Miscibility Gap and Critical Point of the Aluminum-Zinc System”,Z. Phys. Chem., 7, 296–316 (1956) in German. (Equi Diagram).
59Cor: H. Corsepius and A. Muenster, “On the Thermodynamic Properties of Solid Aluminum-Zinc Alloys”,Z. Phys. Chem., 22, 1–19 (1959) in German. (Thermo)
60Ere: V. N. Eremenko, “Thermodynamics of Aluminium Zinc Melts”,Zh. Fiz. Khim., 34(7), 1495–1502 (1960) in Russina; TR:Russ. J. Phys. Chem., 34(7), 714–718 (1960). (Thermo)
60Gra: R. Graf and B. Genty, “X-Ray and Electron Microscope Study of Precipitation in an Al-40 wt.% Zn Alloy”,C. R. Acad. Sci. Paris, 251, 2517–2519 (1960) in French. (Meta Phases)
60Mue: A. Muenster and K. Sagel, “Atomic Configurations in the Solid State of the Al−Zn System”,Z. Phys. Chem., 24, 217–239 (1960) in German. (Crys Structure)
60Pan: C. Panseri and T. Federighi, “A Resistometric Study of Pre-Precipitation in Al-10 pct Zn”,Acta Metall., 8, 217–238 (1960). (Meta Phases)
60Wit: R. E. Wittig and L. Schoeffl, “Heat of Formation in the Aluminum-Zinc System at 330, 370, and 430 °C”,Z. Metallkd., 51, 700–707 (1960) in German. (Thermo)
61Fri: F. Frignet and R. Hagege, “The Consistency of Thermodynamic Data and Certain Aspects of the Al−Zn Phase Diagram”,C. R. Acad. Sci. Paris, 253, 1938–1940 (1961) in French. (Thermo; Theory)
61Ger1: V. Gerold and W. Schweizer, “Kinetics of Decomposition of Supersaturated Aluminum-Zinc Alloys”,Z. Metallkd., 52(1), 76–85 (1961) in German. (Meta Phases)
61Ger2: V. Gerold, “Zone Formation in Aluminum-Zinc Alloys”,Physica, 4, 37–49 (1961) in German. (Meta Phases)
Indicates key paper61Pre: A. A. Presnyakov, Y. A. Gorban, and V. V. Chervyakova, “The Aluminium-Zinc Phase Diagram”,Zh. Fiz. Khim., 35, 1289–1290 (1961) in Russian; TR:Russ. J. Phys. Chem., 35(6), 632–633 (1961). (Equi Diagram).
62Fed: T. Federight, “The Concept of Ideal Pre-Precipitation in Super-Saturated Solid Solutions”,J. Phys. Rad., 23, 795–806 (1962). (Meta Phases; Theory)
62Gra: R. Graf, “Study of Pre-Precipitation in an Al-30 pct Zn Alloy”,J. Phys. Rad., 23, 819–822 (1962). (Meta Phases)
Indicates key paper62Hel: W. J. Helfrich and R. A. Dodd, “Density Anomalies in Binary Aluminum Solid Solutions”,Trans. AIME, 224, 757–762 (1962).
62Hil: M. Hillert, “On the Nearest Neighbor Interaction Model with a Concentration Dependent Interaction Energy”,J. Phys. Rad., 23, 835–840 (1962). (Thermo; Theory)
Indicates key paper63Gol: G. R. Goldak and J. G. Parr, “A High-Temperature X-Ray Diffractometer Study of the Zinc-Aluminium System in the Region 40–75 wt.% Zinc”,J. Inst. Met., 92, 230–233 (1963). (Equi Diagram).
63Lut: G. J. Lutz and A. F. Voigt, “A Radioactive Tracer Dew Point Method for Measuring Vapor Pressures of Binary Alloys. The Zinc-Aluminum System”,J. Phys. Chem., 67(12), 2795–2799 (1963). (Thermo)
63Mur: Y. Murakami and O. Kawano, “Electron-Microscopic Investigation on Precipitation Phenomena in Aluminium-Zinc Alloys”,Mem. Fac. Eng. Kyoto U., 25, 303–321 (1963). (Meta Phases)
63Wit: F. E. Wittig and G. Keil, “Heats of Mixing of Binary Liquid Aluminum-B-metal Alloys (Zinc, Cadmium, Indium, Thallium, Tin, Lead and Bismuth)”,Z. Metallkd., 54(10) 576–590 (1963) in German. (Thermo)
64Gra: R. Graf and M. Lenormand, “New Observations of the Transition Phase in Al-40 wt.% Zn”,C.R. Acad. Sci. Paris, 259, 3494 (1964) in French. (Meta Phases)
Indicates key paper64Las: J. Lasek, “Resistometric Experiments on the Coherent Phase Boundary of the Al−Zn System”,Phys. Stat. Solidi, 5, K117-K120 (1964) in German. (Meta Phases).
64Ric: G. L. Richards and R. D. Garwood, “An Electron-Microscope Study of the Isothermal Decomposition of an Aluminium-25 pct Zinc Alloy”,J. Inst. Met., 93, 393–397 (1964). (Meta Phases)
64Syn: V. Synecek and P. Sebo, “On the Configuration of Guinier-Preston Zones in Al−Ag and Al−Zn Alloys”,Czech. J. Phys., 114, 622–628 (1964). (Meta Phases)
65Las: J. Lasek, “On the Influence of the Average Composition on the Position of the Coherent Miscibility Gap in the Al−Zn System”,Czech. J. Phys., B15, 848–857 (1965) in German. (Thermo, Meta Phases)
65Mer: W. Merz, T. Anantharaman, and V. Gerold, “Structure and Properties of Al−Zn Alloys Containing Guinier-Preston Zones”,Phys. Stat. Solidi, 8, K5-K8 (1965) in German. (Meta Phases)
66Bon: A. F. Bonfiglioli and A. Guinier, “The Structure of G. P. Zones in Al−Zn Alloys in the First Stage of the Formation”,Acta Metall., 14, 1213–1224 (1966) in French. (Meta Phases)
66Car: G. J. C. Carpenter and R. D. Garwood, “Hardness Reversion and the Metastable Phase Boundary for G. P. Zones in Aluminium-Zinc Alloys”,J. Inst. Met., 94, 301–303, (1966). (Meta Phases)
66Joh: A. A. Johnson, E. J. Hughes, and P. W. Barton, “The Solvus Curve for Guinier-Preston Zones in Al−Zn Alloys”,J. Inst. Met., 94, 186–187 (1966). (Meta Phases)
66Mer: W. Merz and V. Gerold, “Structural Investigations of Precipitation in Aluminium-Zinc Alloys”,Z. Metallkd., 57, 607–615 (1966) in German. (Meta Phases)
66Rao1: K. K. Rao and H. Herman, “Kinetics of the Decomposition of a Quenched Aluminium-25 wt.% Zinc Alloy”,J. Inst. Met., 94, 420–424 (1966). (Meta Phases)
66Rao2: K. K. Rao, H. Herman, and E. Parthe, “The Structure of a Metastable, Trigonal Transition Phase in Quenched Aluminum-20 at.% Zinc”,Met. Sci. Eng., 1, 162–166 (1966). (Crys Structure, Meta Phases)
66Rao3: K. K. Rao, L. E. Katz, and H. Herman, “Decomposition of Quenched Al-29 at.% Zn”,Met. Sci. Eng., 1, 263–280 (1966). (Meta Phases)
Indicates key paper67Car: G. J. C. Carpenter and R. D. Garwood, “The Ageing of a Quenched Aluminum-22.5 pct Zinc Alloy”,Met. Sci. J., 1, 202–211 (1967). (Meta Phases)
67Ger: V. Gerold and W. Merz, “On the Decomposition of an Aluminum-Zinc Alloy”,Scr. Metall., 1, 33–35 (1967). (Meta Phases)
67Kru: A. Krupkowski, R. Ciach, and J. Krol, “Decomposition of the Alpha-Phase in the Al−Zn Alloys with 60–78 percent of Zinc”,Bull. Acad. Pol. Sci., Ser. Tech., 15(11), 25–29 (1967). (Thermo)
67Lar: L. E. Larsson, “Pre-Precipitation and Precipitation Phenomena in the Al−Zn System”,Acta Met., 15, 35–44 (1967). (Equi Diagram)
67Run: K. B. Rundman and J. E. Hilliard, “Early Stages of Spinodal Decomposition in an Aluminum-Zinc Alloy”,Acta Metall., 15, 1025–1033 (1967). (Meta Phases)
Indicates key paper67Sim: M. Simerska and V. Synecek, “The Mechanism of Structure Transformations in Super-Saturated Al−Zn Alloys”,Acta Metall., 15, 223–230 (1967). (Meta Phases)
67Str: B. G. Strongin, “Phase Transformations in Alloys of Aluminum with Zinc”,Fiz. Met. Metalloved., 28(2) 248–256 (1967) in Russian; TR:Phys. Met. Metallogr., 23(2), 55–62 (1967). (Meta Phases)
68Cah: J. W. Cahn, “Spinodal Decomposition”,Trans. AIME, 242, 166–180 (1968). (Meta Phases; Review, Theory)
68Cia: R. Ciach, “Effect of the Zinc Content on the Rhombohedral Distortion of the Transition Phase in Al−Zn Alloys”,Scr. Metall., 2, 575–580 (1968). (Meta Phases; Theory)
68Eli: A. M. Elistratov, G. V. Kleshchev, A. I. Sheinkman, D. V. Shumilov, and V. A. Toldin, “The Nature of the Metastable States in the Aging of AlZn”,Fiz. Tverd. Tela, 9(10), 2811–2819 (1968) in Russian; TR:Sov. Phys.-Solid State, 9(10), 2209–2215 (1968). (Meta Phases)
68Kar: B. K. Kardasev, S. P. Mikandrov, and J. Lasek, “Temperature Dependence of Young's Modulus of Aluminum-Zinc Alloys and Its Influence Upon the Metastable Coherent Phase Diagram”,Czech. J. Phys., B18, 275–283 (1968) in Russian. (Meta Phases, Thermo)
68Kha: N. A. Khatanova and M. I. Zakharova, “Electron Microscopic and X-Ray Diffraction Investigation of the Decomposition of the Solid Solution in the Alloy Al−Zn”,Fiz. Met. Metalloved., 26(5), 955–957 (1968) in Russian; TR:Phys. Met. Metallogr., 26(5), 193–195 (1968). (Meta Phases)
68Oht: M. Ohta, F. Hashimoto, and H. Maeda, “Initial Aging of Al−Zn Binary Alloys”,Nippon Kinzoku Gakkaishi, 32, 1097–1103 (1968) in Japanese. (Meta Phases)
69Ana: T. R. Anantharaman, “The Solvus for the Transition Phase in Aluminium-Zinc Alloys and Its Impact on the Latter's Rhombohedral Distortion at Different Ageing Temperatures”,Scr. Metall., 3, 899–904 (1969). (Meta Phases)
Indicates key paper69Ard: A. J. Ardell, K. Nuttall, and R. B. Nicholson, “The Decomposition of Concentrated Aluminium-(28–59 pct) Zinc Alloys”, Inst. Met. Proc. Internat. Symp. on The Mechanism of Phase Transformations in Crystalline Solids, Manchester, July 1968, 22–26 (1969). (Meta Phases)
69Bol: P. Bolsaitis and P. M. Sullivan, “The Activity of Zinc in Liquid Zn−Al Alloys from Isopiestic Measurements”,Trans. AIME, 245, 1435–1438 (1969). (Thermo)
69Dou1: D. L. Douglass, “Spinodal Decomposition in Al/Zn Alloys-Part 2: X-Ray Diffraction Studies”,J. Mat. Sci., 4, 130–137 (1969). (Meta Phases)
69Dou2: D. L. Douglass and T. W. Barbee, “Spinodal Decomposition in Al/Zn Alloys-Part 3: Metallography and Electron Microscopy”,J. Mat. Sci., 4, 138–151 (1969). (Meta Phases)
69Mim: G. Mima, M. Yamagucha, and Y. Umakoshi, “On the Aging of Al-40 at.% Zn Alloy at High Temperatures”,Nippon Kinzoku Gakkaishi, 33, 527–530 (1969) in Japanese. (Meta Phases)
69Mur: M. Murakami, Y. Kawano, Y. Murakami, and M. Morinaga, “On the Determination of the Spinodal Temperature in an Aluminum-6.8 at.% Zinc Alloy”,Acta Metall., 17, 1517–1521 (1969). (Meta Phases)
69Nik: T. Niklewski, P. Spigelberg, and K. Sunbulli, “The Solvus Curve for Guinier-Preston Zones in Al−Zn Alloys: A Diffuse X-Ray Study”,Met. Sci., 3, 23–25 (1969). (Meta Phases)
69Pre: B. Predel and U. Schallner, “On the Thermodynamic Properties of Binary Aluminum Alloys Containing Gallium and Zinc”,Z. Metallkd., 60(11), 869–877 (1969) in German. (Thermo)
69Wah: R. P. Wahi and T. R. Anantharaman, “Study of Reversion in Aluminium-Zinc Alloys Containing 20 and 30 at.% Zinc”,Current Sci., 38(1), 1–26 (1969). (Meta Phases)
70Cia: R. Ciach, “Reply to T. R. Anantharaman: The Solvus for the Transition Phase in Aluminum-Zinc Alloys and Its Impact on the Latter's Rhombohedral Distortion at Different Ageing Temperatures”,Scr. Metall., 4, 39–42 (1970). (Meta Phases)
70Dut: J. Dutkiewicz, “Electron Microscopy Investigations of the Alpha′-Phase Decomposition in AlZn-50 Alloy”,Bull. Acad. Pol. Sci. Ser. Tech., 18(9), 57–61 (1970). (Meta Phases)
70Jon: R. D. Jones and K. G. Thomas, “The Decomposition of Near-Eutectoid Zinc-Aluminum Alloys”,Philos. Mag., 22, 427–430 (1970). (Meta Phases)
70Kau: L. Kaufman and H. Nesor,Computer Calculation of Phase Diagrams, Academic Press, New York (1970).
70Sat: K. G. Satyanarayana, R. P. Wahi, and T. R. Anantharaman, “Effect of Micro-Addition of Magnesium on Side-Band Formation in Aluminium-Zinc Alloys”,Current Sci., 39(15), 335–339 (1970). (Meta Phases)
71Dob: A. V. Dobromyslov and N. N. Buinov, “X-Ray Diffraction Study of the Decomposition of Supersaturated Solid Solutions of Al Alloys. Pt. 2. Existence of a Transition Phase During the Aging of an Al−Zn Alloy”,Fiz. Met. Metalloved., 32(6), 1277–1282 (1971) in Russian; TR:Phys. Met. Metallogr., 32(6), 156–163 (1971). (Meta Phases)
71Mel: K. N. Melton and J. W. Edington, “Comments on ‘Spinodal Decomposition in Al/Zn Alloys’”,J. Mat. Sci., 6, 449–450 (1971). See also [69Dou1, 69Dou2]. (Meta Phases)
71Mur: M. Murakami, O. Kawano, and Y. Murakami, “On the Determination of the Solvus Temperature for Guinier-Preston Zones in an Al-6.8 at.% Zn Alloy”,J. Inst. Met., 99, 160–163 (1971). (Meta Phases)
71Pta: W. Ptak and L. Zabdyr, “Determination of Thermodynamic Properties of Al−Zn Solutions by Electromotive Force Measurements”,Arch. Hutn., 16(3), 253–267 (1971) in Polish. (Thermo)
71Ray: J. Raynal, R. Anthore, and R. Graf, “Diffuse X-Ray Scattering Study of Pre-Precipitation in a Series of Al-Rich Binary Al−Zn Alloys”,C. R. Acad. Sci. Paris, 272, 1761–1764 (1971) in French. (Meta Phases)
71Uma: Y. Umakoshi, M. Yamaguchi, and G. Mima, “The Characteristics of Phase Transformation During the Aging in Aluminum-Rich Zinc Alloys at High Temperature”,Trans. Jpn. Inst. Met., 12, 7–12 (1971). (Meta Phases)
71Wah: R. P. Wahi and T. R. Anantharaman, “The Metastable Miscibility Gap and Reversion in Aluminium-Zinc Alloys”,Trans. Indian Inst. Met., 61–65 (1971). (Meta Phases)
72Hir: K. Hirano and H. Hori, “The Solvus Curve of the G. P. Zones in the Al−Zn System”,Nippon Kinzoku Gakkaishi, 36, 97–104 (1972) in Japanese. (Meta Phases)
Indicates key paper72Jac: M. H. Jacobs, “The Morphology and Crystal Structure of a New Precipitate in Rapidly Quenched Aluminium-zinc Alloys”,Met. Sci. J., 6, 143–148 (1972). (Meta Phases)
72Mel: K. N. Melton and J. W. Edington, “Spinodal Decomposition in an Aluminium 29 at.% Zinc Alloy”,Scr. Metall., 6, 501–502 (1972). (Meta Phases)
Indicates key paper72Riv: G. Rivaud, J. Guillot, and J. Grilhe, “Determination of the Miscibility Gap by Resistivity Measurements-Al−Zn”,Scr. Metall., 6, 411–416 (1972). (Meta Phases)
72Seb: J. Sebkova, M. Beranek, and J. Koritta, “Activity of Zn in Liquid Al−Zn Alloy”,Kovove Mater., 10(3), 234–239 (1972) in Czech. (Thermo)
72Vel: J. Velisek, “Determination of Thermodynamic Functions in the Aluminum-Zinc System by Quantitative Thermal Analysis”,Sb. Prednasek-Semin. Difuse Termodyn. Kovu Slitin, 171–174 (1972) in Czech. (Thermo)
73Aga: S. Agarwal and H. Herman, “Spinodal Decomposition in Liquid-Quenched Al-22 at.% Zn”,Scr. Metall., 7, 503–508 (1973). (Meta Phases)
73Ana: T. R. Anantharaman and K. G. Satyanarayana, “The Metastable Solvus for Guinier-Preston Zones in Aluminum-Zinc Alloys”,Scr. Metall., 7, 189–192 (1973). (Meta Phases)
73But: E. P. Butler, V. Ramaswamy, and P. R. Swann, “In Situ Observation of Cellular Precipitation in an Al-28 at.% Zn Alloy by High Voltage Electron Microscopy”,Acta Met., 21, 517–524 (1973). (Meta Phases)
73Mue: A. Muenster, “Critical Points and Higher Order Transitions in Binary Alloys”,Z. Phys. Chem., 86, 230–251 (1973). (Equi Diagram; Theory)
73Nay: A. K. Nayak, “Thermal and Quantitative Thermal Analysis of Al−Zn Alloys and Determination of the Equilibrium Diagram of the Binary System”,J. Inst. Met., 101, 309–314 (1973). (Equi Diagram)
73Rob: R. Roberge and H. Herman, “On the Microstructure of Liquid-Quenched Monotectoid Al−Zn”,J. Inst. Met., 101, 339 (1973). (Meta Phases)
73Smi: A. E. W. Smith and G. A. Hare, “Controlling the Zinc-Aluminium Eutectoid Reaction”,J. Inst. Met., 101, 320–328 (1973). (Equi Diagram)
73Tru: W. Truszkowski and J. Dutkiewicz, “Spinodal Decomposition and Discontinuous Precipitation in the Aging of Aluminium-Zinc Alloys Within the Range of Miscibility Gap”,Bull. Acad. Pol. Sci. Ser. Tech., 21(10), 19–24 (1973). (Meta Phases)
74Acu: R. Acuna and A. Bonfiglioli, “Experimental Study of Random Fluctuation Effects on Spinodal-Like Decomposition of Al-15 at.% Zn”,Acta Metall., 22, 399–408 (1974). (Meta Phases)
74All: J. Allain and A. Naudon, “Small Angle X-Ray Scattering Evidence of G. P. Zones Formed by Nucleation and Growth in an Al-6.8 at.% Zn Alloy”,Scr. Metall., 8, 831–836 (1974). (Meta Phases)
74Ana: T.R. Anantharaman, V. Ramaswamy, and E. P. Butler, “Effect of Matrix Precipitation on Cellular Growth Kinetics in an Al-28 at.% Zn Alloy”,J. Mat. Sci., 9, 240–244 (1974). (Meta Phases)
74Che: D. Cheetham and F. R. Sale, “Enthalpy of Transformation and Interfacial Enthalpy of a Zinc-Aluminium Eutectoid Alloy”,Acta Metall., 22, 333–337 (1974). (Thermo)
74Cia: R. Ciach, R. Kroggel, H. Loeffler, and G. Wendrock, “The Isochronous Phase Transformations of the Al-38 at.% Zn Alloy at 273 °K”,Arch. Hutn., 19, 183–190 (1974) in Czech. (Equi Diagram, Meta Phases)
74Jun: A. Junqua, J. Mimault, J. Delafond, and J. Grilhe, “Distinction Between Nucleation and Spinodal Decomposition by Magnetic Susceptibility Measurements on an Al-15 wt.% Zn Alloy”,Scr. Metall., 8, 317–322 (1974) in French. (Meta Phases)
74Mue: A. Muenster,Statistical Thermodynamics Vol. II, Springer-Verlag, Berlin-Heidelberg-New York (1974). (Thermo; Theory)
74Nau: A. Naudon and J. Allain, “On Nucleation-Growth and Spinodal Decomposition in Al-6.8 at.% Zn”,Scr. Metall., 8, 1105–1112 (1974). (Meta Phases)
Indicates key paper74Sim1: M. Simerska, V. Synecek, and V. Sima, “Solvus Line of the Metastable Rhombohedral Phase in the Al−Zn System for Al-Rich Alloys”,Czech. J. Phys., B24, 543–552 (1974). (Meta Phases)
Indicates key paper74Sim2: M. Simerska and P. Bartuska, “The X-Ray Diffraction and Electron Microscopic Investigation of Stable and Metastable Equilibria in Al-Rich Al−Zn Alloys”,Czech. J. Phys., B24, 553–559 (1974). (Equi Diagram, Meta Phases)
Indicates key paper74Sim3: M. Simerska, V. Sima, and P. Bartuska, “The Formation of Rhombohedral Phase During the Slow Cooling of the Al−Zn Solid Solutions”,Czech. J. Phys., B24, 654–659 (1974). (Meta Phases)
75Bar1: T. L. Bartel and K. B. Rundman, “Decomposition in Al−Zn Alloys: Part I. Isothermal Decomposition in an Al-22 at. pct Zn-0.1 at. pct. Mg Alloy”,Met. Trans., 6A, 1887–1893 (1975). (Meta Phases)
75Bar2: P. Bartuska, M. Simerska, and V. Sima, “Effect of Iron and Silicon on Structure Transformations and on Microhardness of Al-30 wt.% Zn Alloy Aged at 90 °C”,Czech. J. Phys. B, 25, 1139–1148 (1975). (Meta Phases)
75Def: D. de Fontaine, “Clustering Effects in Solid Solutions”,Treatise on Solid State Chemistry, Vol. 5,Changes of State, N. B. Hannay, Ed., Plenum Press (1975). (Meta Phases; Theory)
75Del: J. Delafond, A. Junqua, J. Mimault, and J. P. Riviere, “Confirmation by Electric Resistivity of Two Mechanisms of Zone Formation in AlZn: Spinodal Decomposition and Germination-Growth”,Acta Metall., 23, 405–411 (1975) in French. (Meta Phases)
75Gay: H. Gaye and C. H. P. Lupis, “Numerical Techniques for the Calculation of Binary Phase Diagrams”,Met. Trans. A, 6A, 1049–1056 (1975). (Thermo; Theory)
75Koj: T. Kojima, K. Kuribayashi, and M. Doyama, “The Effect of Precipitation in Al−Zn Alloy on Positron Annihilation”,Scr. Metall., 9, 1071–1072 (1975). (Equi Diagram, Meta Phases)
75Lew: D. T. Lewandowski and K. B. Rundman, “Decomposition in Al−Zn Alloys: Part. II. Decomposition During Continuous Cooling”,Met. Trans., 6A, 1895–1900 (1975). (Meta Phases)
75Loe: H. Loeffler and O. Simmich, “On the Calculation of the Spinodal Curves in the Al−Zn System”,Phys. Stat. Solidi(a), 30A, 495–500 (1975). (Thermo; Theory)
75Sim: M. Simerska and V. Synecek, “The Kinetics of Formation and Decomposition of the Transition Rhombohedral Phases in the Al-30 wt.% Zn Alloy”,Acta Cryst., A31, 185 (1975). (Meta Phases)
75Ter: H. Terauchi, N. Sakamoto, K. Osamura, and Y. Murakami, “Small Angle X-Ray Critical Scattering in an Al−Zn Alloy with the Critical Composition”,Trans. Jpn. Inst. Met., 16, 379–383 (1975). (Equi Diagram)
75Vel: J. Velisek, “Determination of Thermodynamic Activities in the Al−Zn System by Calorimetric Method”,Kovove Mater., 13(3), 303–313 (1975). (Thermo)
76Bar: P. Bartuska, “Investigation of the Precipitation Processes, in Al-35-75 wt.% Zn Alloys Annealed at 280 °C”,Kovove Mater., 14(3), 225–249 (1976) in Czech. (Meta Phases)
76Jun: A. Junqua, J. Mimault, and J. Delafond, “Study of Various Domains of GP Zone Formation in the Al−Zn Phase Diagram”,Acta Metall., 24, 779–787 (1976) in French. (Meta Phases)
76Loe: H. Loeffler and O. Simmich, “A Rough Approximation to Calculate the Free Enthalpy of Mixing of theR-Phase in the Al−Zn System”,Bull. Acad. Pol. Sci. Ser. Techn., 24(5), 13–16 (1976). (Thermo; Theory)
77Bos: P. G. Boswell and G. A. Chadwick, “Eutectoid Decomposition of Zn−Al Splat-Quenched and Bulk Specimens”,Acta Metall., 25, 779–792 (1977). (Thermo)
77Fla: A. M. Flank and A. Naudon, “In Situ Study by Diffuse X-Ray Scattering of the Effect of Small Additions of Mg on the Precipitation Mechanisms in an Al-15 wt.% Zn Alloy”,J. Appl. Cryst., 10, 151–155 (1977) in French. (Meta Phases)
77Fum: M. Fumeron, J. P. Guillot, and A. Dauger, “Model of Diffuse X-Ray Scattering by Guinier-Preston Zones for the Case of Al−Zn”,Phys. Stat. Solidi (a), 42, 687–697 (1977) in French. (Meta Phases)
Indicates key paper77Kro: R. Kroggel, H. Loeffler, and O. Kabisch, “Experimental Investigations on the Position of the Coherency Spinodal Curve in Al−Zn (15, 16, and 18 at.%) Alloys”,Phys. Stat. Solidi, 40A, K163–164 (1977). (Meta Phases).
77Las1: G. Laslaz and P. Guyot, “Electron Microscope Study of Decomposition of an Al-6.8 at.% Zn Alloy”,Acta Met., 25, 277–285 (1977). (Meta Phases)
77Las2: G. Laslaz, G. Kostorz, M. Roth, P. Guyot, and R.J. Stewart, “Interparticle Interference in Neutron Small-Angle Scattering of Al-6.8 at.% Zn During Aging at 133 °C”,Phys. Stat. Solidi(a), 41A, 577–583 (1977). (Meta Phases)
77Sat: K. G. Satyanarayana and K. Hirano, “Metastable Solvus Curves and Structural Changes in Al−Zn Alloys”,Trans. Jpn. Inst. Met., 18, 403–411 (1977). (Meta Phases; Review)
Indicates key paper77Sch: D. Schwahn, “Neutron Small Angle Scattering from the Alloy Al−Zn Above the Critical Point”,Kernforsch, Julich GmbH (1977) in German. (Meta Phases).
77Sim1: M. Simerska and P. Bartuska, “The Influence of Quenching Rate on the Kinetics of Transformations of Metastable Phases in the Al-30 wt.% Zn Alloy”,Czech. J. Phys., B 27, 663–671 (1977). (Meta Phases)
77Sim2: M. Simerska and P. Bartuska, “Precipitation Sequences and Transformation Kinetics in the Al-30 wt.% Zn Alloy Aged Below 160 °C”,Czech. J. Phys., B27, 655–662 (1977). (Meta Phases)
78Aga: S. C. Agarwal and H. Herman, “Early-Stage Phase Separation in Liquid-Quenched Al-7 at.% Zn”,J. Mat. Sci., 13, 1549–1554 (1978). (Meta Phases)
78Cia1: R. Ciach, J. Salawa, O. Kabisch, and G. Wendrock, “Effect of the Miscibility Gap on the Segregation Structure and Physical Properties of Al−Zn Alloys”,Arch. Hutn., 23, 233–255 (1978) in German. (Equi Diagram)
78Cia2: R. Ciach, B. Dukiet-Zawadzka, and T. D. Ciach, “A Study of the Homogenization Process of Aluminum-Zinc Alloys”,J. Mat. Sci., 13, 2676–2686 (1978). (Equi Diagram)
78Loe: H. Loeffler, O. Kabisch, and R. Kroggel, “About a Relation Between Microhardness and the Average Radius of the Guinier-Preston Zones in Al−Zn Alloys”,Phys. Stat. Solidi(a), 49A, 299–303 (1978). (Meta Phases)
78Pel: J. M. Pelletier, J. Merlin, and R. Borrelly, “Study of the Development of Al−Zn Solid Solutions by Measurements of Thermo-Electric Power”,Mat. Sci. Eng., 33(1), 95–100 in French. (Meta Phases)
Indicates key paper78Sch: D. Schwahn and W. Schmatz, “Neutron Small Angle Scattering from the Alloy Al−Zn Above the Critical Point”,Acta Metall., 26, 1571–1578 (1978). (Meta Phases).
Indicates key paper78Sim: M. Simerska, P. Bartuska, and V. Synecek, “Structure Transformations in Supersaturated Al−Zn Alloys”,Acta Crystallogr. A:34(S4), S304 (1978). (Meta Phases).
78Tol: V. A. Toldin, A. A. Burykin, and G. V. Kleshchev, “Natural Aging of Aluminum-Zinc Alloys with a High Zinc Concentration”,Fiz. Met. Metalloved., 45(2), 342–346 (1978) in Russian; TR:Phys. Met. Metallogr., 45(2), 97–106 (1978). (Meta Phases)
79Bos: P. G. Boswell, “Solidification Models for High Cooling Rates”,Met. Forum, 2(1), 40–54 (1979). (Meta Phases)
79Cia: R. Ciach, H. Loeffler, J. Salawa, and G. Wendrock, “Modulated Structures and Position of the Coherent Spinodal Curve in Al−Zn (22 at.%)-Cu(x) Alloys”,Phys. Stat. Solidi, 53(a), 441–446 (1979). (Meta Phases)
79Fab: H. G. Fabian, R. Kroggel, H. Loeffler, and O. Simmich, “On the Description of the Growth and Decomposition Kinetics of Supersaturated Alloys”,Phys. Stat. Solidi(a), 56A, 143–148 (1979). (Meta Phases)
79Fum: M. Fumeron, J. P. Guillot, A. Dauger, and J. Caisso, “Study of Diffuse X-Ray Scattering by Guinier-Preston Zones and the Effect of Their Shape, in a 6.8 at.% Zn Alloy”,Phys. Stat. Solidi(a), 53, 605–610 (1979) in French. (Meta Phases)
79Sat: T. Sato, Y. Kojima, and T. Takahashi, “A Study on the Temperature Limit for G. P. Zone Formation in Al−Zn Alloys”,Trans. Jpn. Inst. Met., 20, 475–482 (1979). (Meta Phases)
79Zah1: A. Zahra, C. Y. Zahra, and J.-C. Mathieu, “Calorimetric Aging Study of an Al-15 pct Zn Alloy”,Z. Metallkd., 70(10), 54–56 (1979). (Meta Phases)
79Zah2: A. Zahra, C. Y. Zahra, and J.-C. Mathieu, “Calorimetric Aging Study of an Al-10 pct Zn Alloy”,Z. Metallkd., 70(10), 669–673 (1979). (Meta Phases)
80Acu: R. J. Acuna, “Pre-Precipitation of Al−Zn Alloys in the Range 30 to 40 wt.% Zn”,J. Mat. Sci., 15, 20–24 (1980). (Meta Phases)
80Cha: K. Chattopadhyay, S. Lele, and P. Ramachandrarao, “On the Occurrence of Twinned Dendrites in Rapidly Solidified Aluminium Alloys”,J. Cryst. Growth, 49(2), 322–324 (1980). (Meta Phases)
80Duk: B. Dukiet-Zawadzka, “The Problem of Micro-Heterogeneities in Aluminum-Zinc Alloys”,Pol. Akad. Nauk Pr. Kom. Metal.-Odlew, Metal., 28, 25–59 (1980) in Polish. (Equi Diagram)
80Fum: M. Fumeron, J. P. Guillot, A. Dauger, and J. Caisso, “Diffuse X-Ray Scattering Study of the Internal Structure of G. P. Zones in an Al-6.8 at.% Zn Alloy. Comparison with the alpha ′R Phase”,Scr. Metall., 14, 189–194 (1980). (Meta Phases)
80Lui: N. Luiggi, J. P. Simon, and P. Guyot, “Residual Resistivity During Clustering in Al−Zn Solid Solutions”,Acta Metall., 28, 1115–1122 (1980). (Meta Phases)
80Pra: P. R. Prasad and H. Prasad, “Determination of Metastable Zone-Boundary of G. P. Zones in Al−Zn Alloys by Hardness Reversion Technique”,Trans. Ind. Inst. Met., 33(1), 82–84 (1980). (Meta Phases)
81BAP: “Melting Points of the Elements”,Bull. Alloy Phase Diagrams,2(1), 145–146 (1981).
81Def: D. de Fontaine, “Ordering Instabilities and Pretransitional Effects”,Met. Trans., 12A, 559–566 (1981). (Thermo; Theory)
81Loe: H. Loeffler, V. Synecek, M. Simerska, G. Wendrock, P. Bartuska, and R. Kroggel, “On the Mode of Decomposition of Al−Zn alloys”,Phys. Stat. Solidi(a), 65, 197–204 (1981). (Meta Phases; Review)
81Sat1: K. G. Satyanarayana, “Metastable Solvus Curves in Al−Zn Alloys. I. The Guinier-Preston Zones”,J. Mat. Sci., 16, 1233–1239 (1981). (Meta Phases; Review)
81Sat2: K. G. Satyanarayana, “Metastable Solvus Curves in Al−Zn Alloys. Pt. 2. The Transition Phase”,J. Mat. Sci., 16, 1240–1248 (1981). (Meta Phases; Review)
81Ung: T. Ungar, J. Bendvai, and I. Kovacs, “Determination of the Spinodal Temperature in a Series of Al−Zn (6–21 at.%) Alloys”,Philos. Mag. A, 43(4), 927–934 (1981).
82Hen: M. Hennion, D. Ronzaud, and P. Guyot, “Kinetics of Unmixing in Al−Zn Single Crystals Studied by Neutron Small Angle Scattering”,Acta Metall., 30, 599–610 (1982). (Meta Phases)
82Paw: A. Pawlowski and W. Truszkowski, “Cellular Dissolution in the Aged Aluminium-40% Zinc Alloy”,Acta Metall., 30, 37–50 (1982). (Meta Phases)
82Vij: M. Vijayalakshmi, V. Seetharaman, and V. S. Raghunathan, “On the Various States of Spinodal Decomposition in an Al-38 at.% Zn Alloy”,J. Mat. Sci., 17, 126–134 (1982).
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This work was jointly funded by the Defense Advanced Research Project Agency (DARPA) and the National Bureau of Standards through the Metallurgy Division and through the Office of Standard Reference Data. The author wishes to thank John W. Cahn for many valuable discussions on many aspects of this system. Literature searched through 1980. Dr. Murray and Dr. A. J. McAlister are the ASM/NBS Data Program Category Editors for binary aluminum alloys.
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Murray, J.L. The Al−Zn (Aluminum-Zinc) system. Bulletin of Alloy Phase Diagrams 4, 55–73 (1983). https://doi.org/10.1007/BF02880321
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DOI: https://doi.org/10.1007/BF02880321