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Cited References
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41Hum: Hume-Rothery, W. and Raynor, G. V., “The Apparent Sizes of Atoms in Metallic Crystals with Special Reference to Aluminium and Indium, and the Electronic State of Magnesium,”Proc. Roy. Soc. (London), 177, 27–37 (1941).
42Kue: Kuestner, H., “Efficient Determination of the Mg content of Al−Mg Alloys by an X-Ray Method,”Z. Metallkd., 34(5), 114–116 (1942) in German.
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43Gei: Geisler, A. H., Barrett, C. S., and Mehl, R. F., “Mechanism of Precipitation from Solid Solutions of Zinc in Aluminum, Magnesium in Aluminum and of Some Magnesium-Base Alloys,”Trans. AIME, 152, 201–225 (1943).
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44Per: Perlitz, H., “Crystal Structure of β-Aluminium-Magnesium Alloys,”Nature, 154(3915), 606 (1944).
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48Axo: Axon, H. J. and Hume-Rothery, W., “The Lattice Spacings of Solid Solutions of Different Elements in Aluminum,”Proc. Roy. Soc. (London), A193, 1–24 (1948).
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53Eic: Eickhoff, K. and Vosskuhler, H., “The Phase Diagram of Al−Mg, A Critical Evaluation,”Z. Metallkd., 44, 223–231 (1953) in German.
56Sau: Saulnier, A., “Study of Al−Mg Alloys,”Metallurgie, No. 4, 285–297 (1956).
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57von: von Batchelder, F. W. and Raeuchle, R. F., “Lattice Constants and Brillouin Zone Overlap in Dilute Magnesium Alloys,”Phys. Rev., 105(1), 59–61 (1957).
59Har: Hardie, D. and Parkins, R. N., “Lattice Spacing Relationships in Magnesium Solid Solutions,”Philos. Mag., 4, 815–825 (1959).
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61Cor: Cordier, H. and Detert, K., “Decomposition Study of an Al-10 w/o Mg Alloy at Several Temperatures,”Z. Metallkd., 52(5), 321–328 (1961) in German.
62Hel: Helfrich, W. J. and Dodd, R. A., “Density Anomalies in Binary Aluminium Solid Solutions,”Trans. AIME, 224, 757–762 (1962).
62Sam: Samson, S., “Crystal Structure of NaCd2,”Nature, 195(4838), 259–262 (1962).
63Bol: Bol'shakov, K. A., Fedorov, P. I., and Smarina, E. I., “β′ Phase of the Aluminum-Magnesium System,”Zh. Neorg. Khim., 8(6), 1412–1418 (1963) in Russian; TR:Russ. J. Inorg. Chem., 8(6), 734–739 (1963).
64Fel: Feller-Kniepmeier, M., Detert, K., and Thomas, L., “Investigation of Precipitation in Aluminum-Magnesium Alloys by TEM,”Z. Metallkd., 55(2), 83–87 (1964) in German.
Indicates key paper64Luo: Luo, H. L., Chao, C. C., and Duwez, P., “Metastable Solid Solutions in Aluminum-Magnesium Alloys,”Trans. AIME, 230, 1488–1490 (1964).
65Mir: Miroshnichenko, I. S., “The Influence of the Rate of Cooling During Crystallization on Liquidation Microinhomogeneity and Composition of Solid Solutions in Al−Mg Alloys,”Dokl. Akad. Nauk SSSR, 164(1), 137–139 (1965) in Russian; Tr:Dokl. Phys. Chem., 164(1), 647–649 (1965).
Indicates key paper65Sam: Samson, S., “The Crystal Structure of the Phase β Mg2Al3”Acta Cryst., 19, 401–413 (1965).
66Bag: Bagaryatskiy Yu. A., Nosova, G. I., and Travina, N. T., “Structural Changes in Al−Mg and Al−Mg−Zn Alloys During Aging and their Effect on the Mechanical Properties of the Alloys,”Izv. Akad. Nauk SSSR Met., No. 1, 126–133 (1966) in Russian; Tr:Russ. Met., No. 1, 126 (1966).
Indicates key paper68Sam: Samson S. and Gordon, E. K., “The Crystal Structure of ε-Mg23Al30,”Acta Cryst., B24, 1004–1013 (1968).
69Bel: Belton, G. R. and Rao, Y. K., “A Galvanic Cell Study of Activities in Mg−Al Liquid Alloys,”Trans. AIME, 245, 2189–2193 (1969).
69Ber: Bernole, M., Raynal, J., and Graf, R., “Structure and Orientation of Precipitates Appearing in Quenched Al−Mg Alloys with 10 pct Magnesium,”J. Microsc., 8, 831–840 (1969).
69Tre: Trehan, Y. N., “On the Structure of β Al−Mg,”Indian J. Pure Appl. Phys., 7, 209–210 (1969).
Indicates key paper70Ban: Bandyopadhyay, J. and Gupta, K. P., “Phase Relationship and Structural Transformations in Al−Mg System in the Composition Range 39 to 56 at Per Cent Mg,”Trans. Indian Inst. Met., 23(4), 65–70 (1970).
70Bro: Brown, J. A. and Pratt, J. N., “The Thermodynamic Properties of Solid Al−Mg Alloys,”Met. Trans., 1, 2743–2750 (1970).
70Gui: Guillot, M. J. and Grilhe, J., “Effect of Cooling Rate on the State of Solid Solutions After Quenching: Al-7 pct Mg,”Mem. Sci. Rev. Metall., No. 6, 377–385 (1970) in French.
70Kau: Kaufman, L. and Nesor, H.,Computer Calculation of Phase Diagrams, Academic Press, New York (1970).
70Kum: Kumada, K., Sumitomo, Y., Nenno, S., and Yamamoto, M., “Formation of L12 Type Superlattice Al3Mg in Liquid-Quenched Al−Mg Alloys,”J. Jpn. Inst. Met., 34, 1062–1066 (1970) in Japanese.
70Mir: Miroshnichenko, I. S. and Brekharya, G. P., “Influence of Cooling Rate on the Supercooling of Metal Melts,”Fiz. Metal. Metalloved., 29(3), 664–666 (1970) in Russian; TR:Phys. Met. Metallogr., 29(3), 223–224 (1970).
70Sch: Schobinger-Papamantellos, P. and Fischer, P., “Neutron Diffraction Study of Mg17Al12”Naturwissenschaften, 57(3), 128–129 (1970) in German.
70Ven: Vengrenovich, R. D. and Psarev, V. I., “Composition of Solid Solutions in the Non-Equilibrium Crystallization of Binary Alloys Based on Aluminum,”Zh. Fiz. Khim., 44(8), 1979–1982 (1970) in Russian; TR:Russ. J. Phys. Chem.: 44(8), 1119–1122 (1970).
71Dau: Dauger, A., Guillot, J. P., and Caisso, J., “Observations of Guinier-Preston Zones in an Al-12 pct Mg Alloy by Large Angle Diffuse X-ray Scattering,”C. R. Acad. Sci. Paris B, 273, 915–918 (1971) in French.
71Tak: Taketoshi, K., “Structural Analyses of the beta and gamma Alloys Al−Mg,”Jpn. J. Appl. Phys., 10(10), 1311–1328 (1971).
72Ber: Bernole, M. and Graf, R., “New Observations on Pre-Precipitation Phenomena in Al−Mg and Al−Mg−Zn Alloys,”C. R. Acad. Sci. Paris B, 274, 1233–1236 (1972) in French.
72Fun: Funamizu, Y. and Watanabe, K., “Interdiffusion in the Al−Mg System,”Trans. Jpn. J. Inst. Met., 13, 278–283 (1972).
72Hon: Honda, F. and Hirokawa, K., “Isolation of the Intermetallic Compounds Al2Cu, Al12Mg17, Al3Fe, Al9Co2 and Al3Ni in Binary Aluminium Alloys by Application of an Organic Solvent,”Z. Anal. Chem, 262(3), 170–179 (1972).
72Ten1: Tensi, H. M., Schmid, R., and Borchers, H., “Investigations of the Crystallization During Zone Melting of Rods of Binary Aluminium Alloys with Variable Melting Volume and Different Velocities of the Liquid Zone,”Z. Metallkd., 63(1), 22–28 (1972).
72Ten2: Tensi, H. M., “Determination of the Concentration Distribution in the Range of Migrating Plane Phase Interfaces During Crystallization of Binary Alloys,”Z. Metallkd. 63(1), 17–21 (1972).
73Ber: Bernole, M., Graf, R., and Guyot, P., “Electron Microscope and X-ray Study of Precipitation in an Al-10 Mg Alloy at Ambient Temperature,”Philos. Mag., 28(4), 771–782 (1973).
Indicates key paper73Gud: Gudzenko, V. N. and Polesya, A. F., “Metastable Phases in the Al−Mg System,”Izv. VUZ Tsvetn. Met., No. 4, 144–148 (1973).
73Dau: Dauger, A., Denanot, M. F., and Caisso, J., “Observations of Electron Diffraction Effects due to Guinier-Preston Zones in Al−Ag, Al−Zn, and Al−Mg”Phys. Stat. Sol. (a), 15, 161–167 (1973) in French.
73Ray: Raynal, J. M., Roth, M., Bernole, M., Guyot, P., and Graf, R., “Neutron Scattering Study of Pre-precipitation Phenomena in Al-Rich Al−Mg Alloys,”C. R. Acad. Sci. Paris B, 227, 225–228 (1973) in French.
74Dau: Dauger, A., Guillot, J. P., and Caisso, J., “Study of the Deformations of the Lattice due to the Guinier-Preston Zones of Al−Ag, Al−Zn and Al−Mg by Diffusion of X-rays in the Neighborhood of the Bragg Spots,”Acta Met. 22, 733–739 (1974) in French.
75Gau1: Gault, C., Dauger, A., and Boch, P., “Elastic Moduli Variations During the Decomposition of Aluminum-Magnesium Solid Solutions,”Phys. Stat. Sol. (a), 31, 179–185 (1975).
75Gau2: Gault, C., Vergnol, J., Dauger, A., Villain, J. P., and Boch, P., “Application of Ultrasonic Methods to the Study of the Effect of Structure on the Elastic Moduli of Aluminum-Magnesium Alloys,”Mem. Sci. Rev. Met., 72, 921–928 (1975) in French.
75Lip: Lipchin, T. N. and Nikulin, L. V., “Nonequilibrium Diagrams of Nonferrous Alloys,”Metall. Term. Obrab. Metallov., No. 1, 69–71 (1975) in Russian; TR:Met. Sci. Heat Treat., 17(1–2), 76–78 (1975).
75Ray: Raynal, J. M. and Roth, M., “Neutron Small-Angle Scattering in Aged Al−Mg,”J. Appl. Cryst., 8, 535–537 (1975).
76Bha: Bhatt, Y. J. and Garg, S. P., “Thermodynamic Study of Liquid Aluminum-Magnesium Alloys by Vapor Pressure Measurements,”Met. Trans., 7B, 271–275 (1976).
76Dau: Dauger, A., Boudili, E. K., and Roth, M., “Internal Structure of Guinier-Preston Zones in Al−Mg by Neutron Diffraction,”Scr. Metall., 10, 1119–1124 (1976) in French.
76Fis: Fischer, A., “Studies of the Melting Equilibrium and the Mechanical Properties of the Binary Phase Diagrams, Al−Mg, Mg−Si and Also of the Ternary System Al−Mg−Si”, thesis, Tech. Univ. Clausthal, 107 p (1976) in German.
77Bou: Boudili, E. K., Denanot, M. F., and Dauger, A., “Decomposition of Supersaturated Solid Solutions of Al−Mg at 20 C,”Scripta Met., 11, 543–548 (1977).
77Sab: Saboungi, M. L. and Hsu, C. C., “Computation of Isothermal Sections of the Al−Li−Mg System,”CALPHAD, 1(3), 237–251 (1977).
Indicates key paper77Sch: Schurmann, E. and Fischer, A., “Melting Equilibria in the Ternary System of Aluminum-Magnesium-Silicon: I. Binary System of Aluminum-Magnesium; II. Binary System of Magnesium-Silicon,”Giesereiforschung, 29(3), 107–113 (1977).
78Lip: Lipchin, T. N. and Nikulin, L. V., “Relationship of the Properties of Aluminium-Magnesium Alloys with the Non-Equilibrium Constitutional Diagram,”Metalloved. Term. Obrab. Met., No. 7, 13–15 (1978) in Russian; TR:Met. Sci. Heat Treat.; No. 7 526–528 (1978).
Indicates key paper78Pre1: Predel, B. and Hulse, K., “Some Thermodynamic Properties of Aluminum-Magnesium Alloys,”Z. Metallkd., 69(10), 661–666 (1978) in German.
Indicates key paper78Pre2: Predel, B. and Hulse, K., “Metastable Phases in the Aluminium-Magnesium System,”Z. Metallkd., 69(11), 690–696 (1978) in German.
Indicates key paper78Sur: Suryanarayana, C., Tiwari, S. K., and Anantharaman, T.R., “A New Metastable Phase in the Aluminium-Magnesium System,”Z. Metallkd., 69, 155–156 (1978).
79Kaz: Kazimirov, V. P. and Batalin, G. I., “Calculation of the Energy of Mixing of Liquid Alloys”,Fiz. Met. Metalloved. 47 (4), 689–694 (1979) in Russian; TR:Phys. Met. Metall., 47(4), 9–14 (1979).
79Kov1: Kovacova, K., “Crystallization Interface of the Selected Binary Alloys of Al−Mg System,”Kovove Mater., 17(1), 130–133 (1979).
79Kov2: Kovacova, K. and German, D., “Distribution of Liquid Magnesium at the Liquid-Solid Interface in Binary Al−Mg Alloys,”Kovove Mater., 17(2), 144–151 (1979).
79Noz: Nozdrev, V. F., Stremousov, V. I., and Tekuchev, V. V., “Acoustic Viscosity Measurements on Molten Aluminium Alloys,”Zh. Fiz. Khim., 53(5), 1199–1202 (1979) in Russian; TR:Russ. J. Phys. Chem., 53(5), 677–679 (1979).
79Sch: Schwellinger, P., Timm, J., Warlimont, H., and Zogg, H., “Diffusionless Phase Transformations in Al4Ca and Al3Mg2,” Proc. Intl. Conf. Martensitic Transf. ICOMAT, June 24–29 (1979).
79Sti: Stiller, W. and Hoffmeister, H., “Determination of Liquid/Solid Phase Equilibria of Aluminum-Magnesium-Zinc Alloys,”Z. Metallkd., 70(12), 817–824 (1979).
79Tek: Tekuchev, V. V. and Stremousov, V. I., “Investigation of the Surface Tensions of Liquid-Metallic Aluminium Systems on the Basis of Acoustic Measurements,”Zh. Fiz. Khim., 53(10), 2632–2634 (1979) in Russian; TR:Russ. J. Phys. Chem., 53 (10), 1502–1503 (1979).
Indicates key paper80Gau: Gault, C. Dauger, A., and Boch, P., “Decomposition of Aluminium-Magnesium Solid Solutions Studied by Ultrasonic measurements of Elastic Properties and Electron Microscopy,”Acta Met., 28, 51–60 (1980).
80Kov1: Kovacova, K., “Distribution of a Solute at the Solid/Liquid Interface in Binary Al−Cu and Al−Mg Systems,”Phys. Status Solidi (a), 57(2), K97-K99 (1980).
80Kov2: Kovacova, K. and Kubo, S., “Stability of Planar Interface During Solidification of the Diluted Binary Alloys—II.”,Kovove Mater., 18(2), 252–258 (1980).
80Lip: Lipchin, T.N. and Tomsinskaya, M.A., “Phase Diagrams of Nonferrous Alloys Crystallized Under Nonequilibrium Conditions”,Metall. Cerm. Obrab. Metall., No. 10, 37–39 (1980). in Russian; TR:Met. Sci. Heat Treat.,222(9–10), 746–749 (1980).
80Tek: Tekuchev, V.V. and Stremousov, V.I., “Ultrasonic Study of the Structural Factors in Molten Aluminium-Containing Systems”,Zh. Fiz. Khim., 54(6), 1500–1503 (1980) in Russian; TR:Russ. J. Phys. Chem., 54(6), 854–856 (1980)
Indicates key paper80Tim: Timm, J. and Warlimont, H., “A Diffusionless Phase Transformation of Al3Mg2”,Z. Metallkd., 71(7), 434–437 (1980).
80Wan: Wang, S. and Lai, S.K., “Structure and Electrical Resistivities of Liquid Binary Alloys”,J. Phys. F, 10(12), 2717–2737 (1980).
81Sam: Samson, S., private communication (1981).
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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. 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−Mg (Aluminum−Magnesium) system. Bulletin of Alloy Phase Diagrams 3, 60–74 (1982). https://doi.org/10.1007/BF02873413
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DOI: https://doi.org/10.1007/BF02873413