[1] D. Eliezer, E. Aghion, F. Froes, Magnesium science, technology and applications, Advanced Performance Materials, 5 (1998) 201-212.
[2] M. Bamberger, G. Dehm, Trends in the Development of New Mg Alloys, Annu. Rev. Mater. Res., 38 (2008) 505-533.
[3] C. Blawert, N. Hort, K.U. Kainer, Automotive applications of magnesium and its alloys, Transactions- Indian Institute of Metals, 57 (2004) 397-408.
[4] B. Mordike, T. Ebert, Magnesium: Properties - Applications - Potential, Materials Science and Engineering 302 (2001) 37-45.
[5] H. Friedrich, B. Mordike, Magnesium Technology, Springer-Verlag, Berlin, 2006.
[6] J.J. Kim, D.S. Han, Recent development and applications of magnesium alloys in the Hyundai and Kia Motors Corporation, Materials Transactions, 49 (2008) 894 to 897.
[7] M. Mezbahul-Islam, A. Mostafa, M. Medraj, Essential magnesium alloys binary phase diagrams and their thermochemical data, Journal of Materials, (2014) Article ID: 704283, (In press).
[8] J. Bohlen, S. Yi, D. Letzig, K.U. Kainer, Effect of rare earth elements on the microstructure and texture development in magnesium–manganese alloys during extrusion, Materials Science and Engineering: A, 527 (2010) 7092-7098.
[9] H.-Y. Qi, G.-X. Huang, H. Bo, G.-L. Xu, L.-B. Liu, Z.-P. Jin, Thermodynamic description of the Mg–Nd–Zn ternary system, Journal of Alloys and Compounds, (2011) 3274–3281.
[10] A. K. Meshinchi, Improving the properties of magnesium alloys for high temperature applications, in: F. Czerwinski (Ed.) Magnesium Alloys – Design, Processing and Properties, InTech, 2011.
[11] B. Mordike, K. Kainer, Magnesium alloys and their applications, Willey-VCH, Weinheim, 2000.
[12] J. Cai, G. Ma, Z. Liu, H. Zhang, A. Wang, Z. Hu, Influence of rapid solidification on the mechanical properties of Mg-Zn-Ce-Ag magnesium alloy, Materials Science and Engineering: A, 456 (2007) 364-367.
[13] J.S. Kirkaldy, Diffusion in multi component metallic systems: II. Solutions for two-phase systems with applications to transformations in steel, Canadian Journal of Physics, 36 (1958) 907-916.
[14] J.S. Kirkaldy, L.C. Brown, Diffusion behaviour in ternary, multiphase systems, Canadian Metallurgical Qarterly, 2 (1963) 89-115.
[15] J.-C. Zhao, Methods for phase diagram determination, Elsevier Science, Amsterdam, 2007.
[16] M. Mezbahul-Islam, M. Medraj, Experimental study of the Cu–Ni–Y system at 700°C using diffusion couples and key alloys, Journal of Alloys and Compounds, 561 (2013) 161-173.
[17] H. Xu, Y. Du, Z. Zhou, Z. Jin, Determination of phase diagrams using the diffusion couple technique, Rare Metals, 25 (2006) 427-430.
[18] J.C. Zhao, M.R. Jackson, L.A. Peluso, Mapping of the Nb–Ti–Si phase diagram using diffusion multiples, Materials Science and Engineering: A, 372 (2004) 21-27.
[19] B. Predel, Si-Ti (Silicon-Titanium), in: O. Madelung (Ed.) Pu-Re – Zn-Zr, Springer Berlin Heidelberg, 1998, pp. 1-3.
[20] A. Kodentsov, G. Bastin, F. Loo, The diffusion couple technique in phase diagram determination, Journal of Alloys and Compounds, 320 (2001) 207-217.
[21] F.C. Campbell, Phase diagrams: Understanding the basics, in, ASM International, Ohio, 2012.
[22] H. Mehrer, Diffusion in solids (Fundamentals, methods, materials, diffusion-controlled processes), Springer-Verlag Berlin Heidelberg, Heidelberg, 2007.
[23] P. Shewmon, Diffusion in solids, Second ed., McGraw-Hill, New york, 1963.
[24] C. Matano, On the relation between the diffusion-coefficients and concentrations of solid Metals, Japanese Journal of Physics, 8 (1933) 109-113.
[25] W. Callister, D. Rethwisch, Materials science and engineering: An introduction, 7th ed., John Wiley & Sons, Inc., United States, 2007.
[26] P. Echlin, Handbook of Sample Preparation for Scanning Electron Microscopy and X-Ray Microanalysis, Springer Science and Business Media, LLC, Cambridge, 2009.
[27] J.I. Goldstein, D. Newbury, D. Joy, C. Lyman, P. Echlin, E. Lifshin, L. Sawyer, J.R. Michael, Scanning electron microscopy and X-ray microanalysis, 3 ed., 2003 Kluwer Academic/Plenum Publishers, New York, 2003.
[28] R. Egerton, Physical Principles of Electron Microscopy: An Introduction to TEM, SEM, and AEM, Springer Science and Business Media, Inc, New York, USA, 2005.
[29] Y. Leng, Materials Characterization: Introduction to Microscopic and Spectroscopic Methods, JohnWiley & Sons (Asia) Ltd., Hong Kong 2008.
[30] T. Takenaka, Y. Narazaki, N. Uesaka, M. Kawakami, Improvement of corrosion resistance of magnesium alloys by surface film with rare earth element, Materials Transactions, 49 (2008) 1071-1076.
[31] D. Petrov, M. Mirgalovskaya, I. Strelnikova, E. Komova, The state diagram for magnesium corner of the Mg-Mn-Ce system, Baikov Institute of Metallurgy and Materials Science, 1 (1957) 144-147.
[32] L. Rolla, A. Iandelli, Contributions to the Knowledge of Rare Earth Metals and Their Alloys. The Alloys of Lanthanum with Manganese, Berichte der deutschen chemischen Gesellschaft (A and B Series), 75 (1942) 2091-2095.
[33] A. Iandelli, The Ce-Mn alloys, Proceedings of the National Academy of Sciences, 13 (1952) 265-268.
[34] B. Thamer, The system cerium-manganese in the range of 0-20 atomic percent manganese, Journal of the Less Common Metals, 7 (1964) 341-346.
[35] A. Palenzona, S. Cirafici, The Ce-Mn (Cerium-Manganese) system, Journal of Phase Equilibria, 17 (1996) 53-56.
[36] C. Tang, Y. Du, H. Xu, S. Hao, L. Zhang, Study on the nonexistence of liquid miscibility gap in the Ce-Mn system Journal of Mining and Metallurgy, 43 (2007) 21-28.
[37] C. Tang, Y. Du, L. Zhang, H. Xu, Z. Zhu, Thermodynamic assessment of the Ce-Mn system, Journal of Alloys and Compounds, 437 (2007) 102-106.
[38] Y. Kang, A. Pelton, P. Chartrand, P. Spencer, C. Fuerst, Critical evaluation and thermodynamic optimization of the binary systems in the Mg-Ce-Mn-Y system, Journal of Phase Equilibria and Diffusion, 28 (2007) 342-354.
[39] D. Petrov, M. Mirgalovskaya, I. Strelnikova, E. Komova, The Constitution Diagram for the Magnesium-Manganese System, Institute of Materials Science, Academy of Sciences of the Ukrainian SSR, 1 (1958) 142-143.
[40] N. Tiner, The Solubility of Manganese in Liquid Magnesium, Metals Technology, (1945) 1-7.
[41] A. Nayeb-Hashemi, J. Clark, The Mg−Mn (Magnesium-Manganese) system, Journal of Phase Equilibria, 6 (1985) 160-164.
[42] J. Gröbner, D. Mirkovic, M. Ohno, R. Schmid-Fetzer, Experimental investigation and thermodynamic calculation of binary Mg-Mn phase equilibria, Journal of Phase Equilibria and Diffusion, 26 (2005) 234-239.
[43] M. Asgar-Khan, M. Medraj, Thermodynamic description of the Mg-Mn, Al-Mn and Mg-Al-Mn systems using the modified quasichemical model for the liquid phases, Materials Transactions, 50 (2009) 1113-1122.
[44] X. Zhang, D. Kevorkov, I.-H. Jung, M. Pekguleryuz, Phase equilibria on the ternary Mg-Mn-Ce system at the Mg-rich corner, Journal of Alloys and Compounds, 482 (2009) 420-428.
[45] D. Wood, E. Cramer, Phase relations in the magnesium-rich portion of the cerium-magnesium system, Journal of the Less Common Metals, 9 (1965) 321-337.
[46] Q. Johnson, G. Smith, The crystal structure of Ce5Mg42, Acta Crystallographica, 22 (1967) 360-365.
[47] J. Pahlman, J. Smith, Thermodynamics of formation of compounds in the Ce-Mg, Nd-Mg, Gd-Mg, Dy-Mg, Er-Mg, and Lu-Mg binary systems in the temperature range 650to 930K, Metallurgical and Materials Transactions B, 3 (1972) 2423-2432.
[48] A. Nayeb-Hashemi, J. Clark, The Ce-Mg (Cerium-Magnesium) system, Journal of Phase Equilibria, 9 (1988) 162-172.
[49] A. Saccone, D. Macciò, S. Delfino, F. Hayes, F. Ferro, Mg-Ce alloys. Experimental investigation by Smith thermal analysis, Journal of Thermal Analysis and Calorimetry, 66 (2001) 47-57.
[50] ASM Handbook, Volume 03 - Alloy Phase Diagrams, ASM International, Ohio, 1992.
[51] X. Zhang, D. Kevorkov, M. Pekguleryuz, Stoichiometry Study on the Binary Compounds in the Mg-Ce System: Part I, Journal of Alloys and Compounds, 475 (2009) 361-367.
[52] H. Okamoto, Ce-Mg (Cerium-Magnesium), Journal of Phase Equilibria and Diffusion, 32 (2011) 265–266.
[53] X. Zhang, D. Kevorkov, M. Pekguleryuz, Study on the binary Intermetallic compounds in the Mg-Ce system, Intermetallics, 17 (2009) 496-503.
[54] X. Zhang, D. Kevorkov, M. Pekguleryuz, Study on the intermetallic phases in the Mg-Ce system: Part II. Diffusion couple investigation, Journal of Alloys and Compounds, 501 (2010) 366-370.
[55] P. Villars, L. Calvert, Pearson’s Crystal Data, Crystal Structure Database for Inorganic Compounds, CD-ROM software version 1.3, (2009).
[56] G. Raynor, Constitution of Ternary and Some Complex Alloys of Magnesium, International metals reviews, 22 (1977) 65-96.
[57] M. Pezat, A. Hbika, B. Darriet, Study of alloy composition CeMg11M (M = V, Cr, Mn, Fe, Co) and their application in hydrogen storage, Materials Research Bulletin, 15 (1980) 139-146.
[58] PANalytical, Ver2.2b (2.2.2), in, Almelo, The Netherlands, 01-11-2006.
[59] Y.-N. Zhang, D. Kevorkov, F. Bridier, M. Medraj, Experimental study of the Ca–Mg–Zn system using diffusion couples and key alloys, Science and Technology of Advanced Materials, 12 (2011) 1-13.
[60] J.A. Gann, A.W. Winston, Magnesium and its alloys, Industrial and Engineering Chemistry, 19 (1927) 1193-1201.
[61] Y. Xu, L.S. Chumbley, F.C. Laabs Liquid metal extraction of Nd from NdFeB magnet scrap, Journal of Materials Research, 15 (2000) 2296-2304.
[62] D. Wellbeloved, P. Craven, J. Waudby, Manganese and Manganese Alloys, in:  Ullmann's Encyclopedia of Industrial Chemistry, Wiley-VCH Verlag GmbH & Co., 2000.
[63] V.T. Witusiewicz, F. Sommer, E.J. Mittemeijer, Reevaluation of the Fe-Mn phase diagram, Journal of Phase Equilibria and Diffusion, 25 (2004) 346-354.
[64] A. Saccone, S. Delfino, R. Ferro, Systematics of rare earth-manganese alloys: Nd-Mn phase diagram, International Journal of Materials Research, 84 (1993) 563-568.
[65] Y. Kang, A. Pelton, P. Chartrand, P. Spencer, C. Fuerst, Thermodynamic database development of the Mg-Ce-Mn-Y system for Mg alloy design, Metallurgical and Materials Transactions A, 38 (2007) 1231-1243.
[66] A. Nayeb-Hashemi, J. Clark, The Mg−Nd system (Magnesium-Neodymium), Bulletin of Alloy Phase Diagrams, 9 (1988) 618-623.
[67] S. Delfino, A. Saccone, F. Ferro, Phase relationships in the neodymium-magnesium alloy system, Metallurgical and Materials Transactions A, 21 (1990) 2109-2114.
[68] R. Joseph, K. Gschneidner, Solid solubility of magnesium in some lanthanide metals, Transactions of the American Institute of Mining and Metallurgical Engineers, 233 (1965) 2063-2069.
[69] J.J. Park, L.L. Wyman, Phase Relationships in Magnesium Alloys., in, WADC Technical report: Astia Document No. AD142110, 1957, pp. 1-27.
[70] M. Drits, E. Padezhnova, N. Miklina, The combined solubility of noedymium and zinc in solid magnesium, Russian Metallurgy (Metally), 3 (1974) 143-146.
[71] L.L. Rokhlin, Magnesium alloyscontaining rare earth metals: Structure and properties, Taylor and Francis, New York, 2003.
[72] H. Kirchmayr, W. Lugscheider, Die Zustandsbilder Neodym-Samarium- und Terbium-Mangan, Zeitschrift für Metallkunde, 61 (1970) 22-23.
[73] S. Makhalenko, Y. Kuz'ma, X-ray diffraction investigations of the Nd-Mn system, Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy (Inorganic Materials (USSR)), 26 (1990) 2432-2433.
[74] A.O. Mostafa, A.E. Gheribi, D. Kevorkov, M. Mezbahul-Islam, M. Medraj, Experimental investigation and first-principle calculations coupled with thermodynamic modeling of the Mn–Nd phase diagram, Calphad, 42 (2013) 27-37.
[75] M. Drits, Z. Sviderskaya, L. Rokhlin, Alloys of the Mg-Mn-Nd system adjacent to the magnesium corner, Zhurnal neorganjoheskoi Khimii (Journal of Inorganic Chemistry), 7 (1963) 2771-2777.
[76] M. Drits, N. Bochvar, Phase equilibria in the Mg-Nd-Mn-Ni system, Doklady Akademii Nauk SSSR 178, No. 2 (1968) 403-405.
[77] V.I. Dybkov, Growth Kinetics of Chemical Compound Layers, Cambridge Int Science Publishing, Cambridge, UK, 2004.
[78] A.A. Kodentsov, G.F. Bastin, F.J.J. Van Loo, The diffusion couple technique in phase diagram determination, Journal of Alloys and Compounds, 320 (2001) 207-217.
[79] S. Gorsse, C. Hutchinson, B. Chevalier, J. Nie, A thermodynamic assessment of the Mg-Nd binary system using random solution and associate models for the liquid phase, Journal of Alloys and Compounds, 392 (2005) 253-262.
[80] M. Huang, H. Li, H. Ding, Y. Ren, G. Qin, S. Hao, Partial phase relationships of Mg-Zn-Ce system at 350°C, Transactions of Nonferrous Metals Society of China, 19 (2009) 681-685.
[81] P. Ghosh, M. Mezbahul-Islam, M. Medraj, Critical assessment and thermodynamic modeling of Mg–Zn, Mg–Sn, Sn–Zn and Mg–Sn–Zn systems, Calphad, 36 (2012) 28-43.
[82] Y.M. Zhu, A.J. Morton, J.F. Nie, Improvement in the age-hardening response of Mg–Y–Zn alloys by Ag additions, Scripta Materialia, 58 (2008) 525-528.
[83] G. Omori, S. Matsuo, H. Asada, Precipitation process in a Mg-Ce alloy, Transactions of the Japan Institute of Metals, 16 (1975) 247-256.
[84] M.-l. Huang, H.-x. Li, H. Ding, L. Bao, X.-b. Ma, S.-m. Hao, Intermetallics and phase relations of Mg-Zn-Ce alloys at 400 °C, Transactions of Nonferrous Metals Society of China, 22 (2012) 539-545.
[85] A.M. Korolkov, Y.P. Saldau, Solubility of Zn and Ce in Mg in the Solid State, Izvestiia Sektora fiziko-khimicheskogo analiza, 16 (1946) 295-306.
[86] E.V. Melnik, M.F. Kostina, Ya.P. Yarmlyuk, O.F. Zmii, Study of the Magnesium-Zinc-Cerium and Magnesium-Zinc-Calcium Ternary Systems, Magnievye Splavy, Mater.Vses. Soveshch. Issled., Razrab. Primen. Magnievyhk Splavov, (1978) 95-99.
[87] M.E. Drits, E.I. Drozdova, I.G. Korolkova, V.V. Kinzhibalo, A.T. Tyvanchuk, Investigation of Polythermal Sections of the Mg-Zn-Ce System in the Mg-Rich Region, Russian Metallurgy (Metally), 2 (1989) 195-197.
[88] U. Kolitsch, P. Bellen, S. Kaesche, D. Maccio, N. Bochvar, Y. Liberov, P. Rogl, Cerium-Magnesium-Zinc, in: G. Effenberg, G. Petzow (Eds.) Ternary Alloys –A Comprehensive Compendium of Evaluated Constitutional Data and Phase Diagrams, VCH Verlagsgesellscahft, MSI GmbH,Weinheim, Stuttgart, Germany, 2000, pp. 168–176.
[89] R. Agarwal, S. G. Fries, H. L. Lukas, G. Petzow, F. Sommer, T. G. Chart, G. Effenberg, Assessment of the Mg-Zn system, Zeitschrift für Metallkunde, 83 (1992) 216-223.
[90] D. Kevorkov, M. Pekguleryuz, Experimental study of the Ce-Mg-Zn phase diagram at 350°C via diffusion couple techniques, Journal of Alloys and Compounds, 478 (2009) 427-436.
[91] C.-n. Chiu, J. Gröbner, A. Kozlov, R. Schmid-Fetzer, Experimental study and thermodynamic assessment of ternary Mg–Zn–Ce phase relations focused on Mg-rich alloys, Intermetallics, 18 (2010) 399-405.
[92] V. Pavlyuk, B. Marciniak, E. Różycka-Sokołowska, The isothermal section of the phase diagram of Ce–Mg–Zn ternary system at 470 K, Intermetallics, 20 (2012) 8-15.
[93] H. Okamoto, Supplemental literature review of binary phase diagrams: Cs-In, Cs-K, Cs-Rb, Eu-In, Ho-Mn, K-Rb, Li-Mg, Mg-Nd, Mg-Zn, Mn-Sm, O-Sb, and Si-Sr, Journal of Phase Equilibria and Diffusion, 34 (2013) 251-263.
[94] Available online: www.MagNET.ubc.ca, (accessed on May 22, 2014).
[95] R. Ferro, A. Saccone, G. Borzone, Rare earth metals in light alloys, Journal of Rare Earths, 15 (1997) 45-61.
[96] X. Tao, Y. Ouyang, H. Liu, Y. Feng, Y. Du, Y. He, Z. Jin, Phase Stability of Magnesium-Rare Earth Binary Systems From First-Principles Calculations, Journal of Alloys and Compounds, 509 (2011) 6899-6907.
[97] X.K. Zhu, R.K. O'Nions, Monazite chemical composition: some implications for monazite geochronology, Contrib Mineral Petrol, 137 (1999) 351-363.
[98] N. Stanford, D. Phelan, The formation of randomly textured magnesium alloy sheet through rapid solidification, Acta Materialia, 58 (2010) 3642-3654.
[99] K. Lal, V. Levy, Study of the diffusion of cerium and lanthanum in magnesium, Comptes rendus hebdomadaires des séances. Série C: Sciences chimiques, 262 (1966) 107-109.
[100] Y. Xu, L. Chumbley, G. Weigelt, F. Laabs Analysis of interdiffusion of Dy, Nd, and Pr in Mg, Journal of Materials Research, 16 (2001) 3287-3292 
[101] S. Brennan, K. Bermudez, Y. Sohn, Intermetallic growth and interdiffusion in the Mg-Nd system, in: W. Pool, K. Kainer (Eds.) 9th International Conference on Magnesium Alloys and th