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Bulletin of Alloy Phase Diagrams

, Volume 9, Issue 4, pp 494–508 | Cite as

The Be−Fe (Beryllium-Iron) system

  • L. E. Tanner
  • H. Okamoto
Alloy Phase Diagram Evaluations Be−Fe

Keywords

Phase Diagram Beryllium Equi Diagram Alloy Phase Diagram Crys Structure 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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Cited References

  1. 16Oes: G. Oesterheld, “Alloys of Beryllium with Aluminum, Copper, Silver and Iron,”Z. Anorg. Chem., 97, 6–40 (1916) in German. (Equi Diagram, Magnetism; Experimental; Indicates the presence of phase diagram)Google Scholar
  2. 28Mas: G. Masing, “Alloys of Beryllium with Copper, Nickel, Cobalt and Iron,”Z. Metallkd., 20(1), 19–21 (1928) in German. (Equi Diagram; Experimental)Google Scholar
  3. 29Kro: W. Kroll, “The Alloys of Beryllium with Iron,”Wiss. Veroffentl. Siemens-Konzern, 8(1), 223–224 (1929) in German. (Equi Diagram; Experimental)MathSciNetGoogle Scholar
  4. 29Rie: K. Riedel, Diss., Technische Hochschule, Aachen (1929) as quoted in [Hansen]; Abstr.:Gmelins Handbuch der Anorganischen Chemie, No. 59 A, Verlag Chemie, Berlin, 1815(1939) in German. {cm(Equi Diagram; Experimental)}Google Scholar
  5. Indicates key paper.29Wev: F. Wever and A. Muller, “The Binary Systems: Iron-Boron, Iron-Beryllium and Iron-Aluminum Alloys,”Mitt. Kaiser-Wilhelm-Inst. Eisenforsch. Dusseldorf, 11, 193–223 (1929) in German. (Equi Diagram, Magnetism; Experimental; Indicates the presence of phase diagram)Google Scholar
  6. 30Wev: F. Wever and A. Muller “Structures of Mixed Crystals of Iron with Beryllium and Aluminum,”Z. Anorg. Chem., 193, 337–340 (1930). (Equi Diagram, Magnetism; Experimental; #)Google Scholar
  7. 32Slo: H.A. Sloman, “Researches on Beryllium,”J. Inst. Met. 49, 365–388 (1932). (Equi Diagram; Experimental)Google Scholar
  8. 35Lai: J. Laissus, “Cementation of Iron and Ferrous Alloys with Beryllium,”Rev. Metall., 32, 293–301, 351–360, 401–422 (1935). (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  9. Indicates key paper.35Mis1: L. Misch, “Structure of Intermetallic Compounds of Beryllium with Copper, Nickel and Iron,”Z. Phys. Chem. B, 29, 42–58 (1935) in German. (Crys Structure, Magnetism; Experimental)Google Scholar
  10. 35Mis2: L. Misch, “Two Intermetallic Compounds of Beryllium with Iron,”Naturwissenschaften, 18, 287–288 (1935) in German. (Crys Structure; Experimental)CrossRefADSGoogle Scholar
  11. Indicates key paper.37Gae: I.S. Gaev and P.S. Sokolov, “The Iron-Beryllium System,”Metallurg, 12(4), 42–48 (1937) in Russian. (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  12. 48Aic: W. Aichholzer, “Carbon-Beryllium Steels,”Berg. Huttenmann. Monatsh., 93, 100–114 (1948); Abstr.:Met. Progr., 57(2), 254–257 (1950). (Equi Diagram, Experimental)Google Scholar
  13. Indicates key paper.48Gor: P. Gordon, Manhattan Project, unpublished data shown in [48Tei]. {cm(Equi Diagram; Experimental; Indicates the presence of phase diagram)}Google Scholar
  14. Indicates key paper.48Tei: R.J. Teitel, “The Beryllium-Iron System,” U.S. At. Energy Comm., Publ. AECD-2251 (1948). {cm(Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)}Google Scholar
  15. 49Tei: R.J. Teitel and M. Cohen, “The Beryllium-Iron System,”Trans. AIME, 185(4), 285–296 (1949); discussions:Trans. AIME, 188(8), 1028–1029 (1950). (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  16. 51Mey: A.J.P. Meyer and P. Taglang, “Ferromagnetism of the Alloy FeBe2,”Compt. Rend., 232, 1545–1546 (1951) in French. (Magnetism; Experimental)Google Scholar
  17. 57Bat: F.W. von Batchelder and R.F. Raeuchle, “The Structure of a New Series ofMBe12 Compounds,”Acta Crystallogr., 10, 648–649 (1957). (Equi Diagram, Crys Structure; Experimental)CrossRefGoogle Scholar
  18. 58Ric: R.H. Richman, “Plastic Deformation and Annealing Processes in an Alloy of Five Weight-Percent Beryllium in Iron,” Ph. D. Thesis, Lehigh Univ., (1958);Diss. Abstr., 19, 506–507 (1958). {cm(Equi Diagram; Experimental)}Google Scholar
  19. Indicates key paper.59Gel: S.H. Gelles, R.E. Ogilvie, and A.R. Kaufmann, “The Solid Solubilities of Iron and Nickel in Beryllium,”Trans. Metall. Soc. AIME, 215(8), 695–702 (1959). (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  20. Indicates key paper.60Gel: S.H. Gelles and J.J. Pickett, “Stability of High Temperature Beta Phase in Beryllium and Beryllium Alloys,” U.S. At. Energy Comm. NMI-1218, 44p (1960). {cm(Equi Diagram; Experimental; Indicates the presence of phase diagram)}Google Scholar
  21. Indicates key paper.61Gel: S.H. Gelles, J.J. Pickett, E.D. Levine, and W.B. Nowak, “The Stability of the High-Temperature Phase in Beryllium and Beryllium Alloys,” Institute of Metals Conference on Metallurgy on Beryllium, London, Preprint no. 33, 11p (1961); Inst. Met., Monograph Rept. Ser. No. 28,The Metallurgy of Beryllium, Institute of Metals, London, 588–600 (1963). {cm(Equi Diagram; Experimental; Indicates the presence of phase diagram)}Google Scholar
  22. 61Hin: E.D. Hindle and G.F. Slattery, “A Metallographic Survey of Some Dilute Beryllium Alloys,” Institute of Metals Conference on Metallurgy of Beryllium, London, Preprint no. 58, 8 p (1961); Inst. Met., Monograph Rept. Ser. No. 28,The Metallurgy of Beryllium, Institute of Metals, London, 651–664 (1963). {cm(Equi Diagram; Experimental)}Google Scholar
  23. 61Moo: A. Moore, “Improved Mechanical Properties and Associated Constitutional Changes in Commercially Pure Ingot Beryllium as Affected by Heat Treatment above 700°C,”J. Nucl. Mater., 3(1), 113–114 (1961). (Equi Diagram; Experimental)CrossRefADSGoogle Scholar
  24. 61Oht: K. Ohta and Y. Kobayashi, “Magnetic Properties of the Iron-Beryllium Compounds with the Hexagonal Structure,”Kobayashi Rigaku Kenkyusho Hokoku, 11(3). 61–64 (1961) in Japanese. (Crys Structure, Magnetism; Experimental)Google Scholar
  25. Indicates key paper.62Don: G. Donze, R. Le Hazif, F. Maurice, G. Dutilloy, and Y. Adda, “Diffusion and Solubility of Fe in Be,”Compt. Rend., 254, 2328–2330 (1962) in French. (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  26. 62Roo: H.P. Rooksby, “Intermetallic Phases in Commercial Beryllium,”J. Nucl. Mater., 7(2), 205–211 (1962). (Equi Diagram, Crys Structure; Experimental)CrossRefADSGoogle Scholar
  27. 63Hei: M.v. Heimendahl and U. Heubner, “Ordering and Dissociation of β-Iron-Beryllium Alloys”Acta Metall., 11(9), 1115–1117 (1963) in German. (Meta Phases; Experimental)CrossRefGoogle Scholar
  28. Indicates key paper.63Heu: U. Heubner, “Segregation and Age-Hardening of Iron-Beryllium Alloys,”Arch. Eisenhuttenwes, 34, 547–552 (1963) in German. (Equi Diagram, Meta Phases; Experimental; Indicates the presence of phase diagram)Google Scholar
  29. 63Moo: A. Moore, F. Morrow, V.D. Scott, and D.A. Cheer, “Precipitation-Aging and Improved Mechanical Properties in Commercially Pure Beryllium and Beryllium Alloys,” Inst. Met., Monograph Rept. Ser. No. 28,The Metallurgy of Beryllium, Institute of Metals, London, 112–136 (1963) (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  30. 64Leh: R. Le Hazif, G. Donze, J.M. Dupouy, and Y. Adda, “Contribution to the Study on the Precipitation of Iron in Beryllium,”Mem. Sci, Rev. Met., 61(6), 464–474 (1964) in French. (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  31. 65Bol: G.F. Bolling and R.H. Richman, “Continual Mechanical Twinning,”Acta Metall., 13(7), 709–757 (1965). (Equi Diagram, Meta Phases; Experimental)CrossRefGoogle Scholar
  32. Indicates key paper.65Ham: M.L. Hammond, A.T. Davinroy, and M.I.Jacobson, “Beryllium-Rich End of Five Binary Systems,” Tech. Rept., AFML-TR-65-223(AD468484), 77p (1965). {cm(Equi Diagram; Experimental; Indicates the presence of phase diagram)}Google Scholar
  33. 66Dag: K.J. Daguet, P. Desre, P. Potard, and B. Schaub, “Estimation by the Partition Method of the Activity of Small Amounts of Iron in Liquid Beryllium at 1645 K,” International Conference on the Metallurgy of Beryllium, 3rd Int. Conf., Grenoble, Fr., 1965; Press. Univ. Paris, 19–20 (1966). {cm(Thermo; Experimental)}Google Scholar
  34. 66Dav: R.G. Davies and R.H. Richman, “A Survey of Decomposition Processes in Supersaturated Fe-27 at. Pct Be,”Trans. Metall. AIME, 236(11), 1551–1557 (1966). (Crys Structure, Meta Phases; Experimental)Google Scholar
  35. 66Sam: G.V. Samsonov, “Chemistry of the Beryllides,”Usp. Khim., 35(5), 779–822 (1966) in Russian; TR:Russ. Chem. Rev., 35(5), 339–361 (1966). (Equi Diagram; Review; Indicates the presence of phase diagram)Google Scholar
  36. 67Bie: G. Bienvenu, C. Potard, B. Schaub, and P. Desre, “Determination of the Thermodynamic Activity of Iron, Nickel, Aluminum and Copper in Dilute Solutions in Liquid Beryllium,”Thermodynamics of Nuclear Materials, Proc. IAEA Conf., Vienna, 777–787 (1967) in French. {cm(Thermo; Experimental)}Google Scholar
  37. 67Her: A. Herr and A.J.P. Meyer, “Magnetic Properties and Electron State Transfers in Fe−Be, Co−Be, and Ni−Be Systems,”Compt. Rend. B, 265, 1165–1168 (1967) in French. (Magnetism; Experimental)Google Scholar
  38. 67Jac: M.I. Jacobson and M.L. Hammond, Presented at AIME Meeting in Los Angeles (1967) as quoted in [Hultgren]. {cm(Equi Diagram; Experimental)}Google Scholar
  39. 67Ols: C.E. Olsen, B.T. Matthias, and H.H. Hill, “On the Superconductivity in β-Beryllium and Related Phases,”Z. Phys., 200, 7–12 (1967). (Equi Diagram; Experimental)CrossRefADSGoogle Scholar
  40. 68Dzh: M.V. Dzhibuti and Yu.D. Tyapkin, “A Three-Dimensional Modulated Structure in an Aging Fe−Be Alloy,”Krystallografiya., 13(2), 307–310 (1968) in Russian; TR:Sov. Phys. Crystallogr., 13(2), 240–244 (1968). (Crys Structure, Meta Phases; Experimental)Google Scholar
  41. 68Jac: M.I. Jacobson and M.L. Hammond, “The Solid Solubilities of Silver, Aluminum, Chromium, Copper, and Iron in Zone-Refined Beryllium,”Trans. Metall. AIME, 242, 1385–1391 (1968). (Equi Diagram; Experimental; Indicates the presence of phase diagram)Google Scholar
  42. 68Jan: C. Janot and G. Le Caer, “Study of the Solid Solution of Iron in Beryllium by the Mössbauer Effect. Variation of the Gradient of the Electric Field with Iron Concentration,”Compt. Rend. B, 267(18), 954–957 (1968) in French. (Magnetism; Experimental)Google Scholar
  43. 68Nak: Y.G. Nakagawa, K. Kirano, and S. Koda, “On the Ageing and Precipitation in Fe−Be Alloys,”J. Jpn. Inst. Met., 32(6), 510–515 (1968) in Japanese. (Meta Phases; Experimental; Indicates the presence of phase diagram)Google Scholar
  44. 68Oht: K. Ohta, “Mössbauer Effect and Magnetic Properties of Iron-Beryllium Compounds,”J. Appl. Phys., 39(4), 2123 (1968). (Magnetism; Experimental)CrossRefADSGoogle Scholar
  45. 69Her: A. Herr, R. Kuentzler, and A.J.P. Meyer, “Magnetization and Specific Heat of Fe−Be Alloys,”J. Appl. Phys., 40(3), 1375–1376 (1969). (Magnetism; Experimental)CrossRefADSGoogle Scholar
  46. 69Mor: S. Morozumi, N. Tsuno, and S. Koda, “Precipitation in Beryllium-Iron Alloys,”Trans. Jpn. Inst. Met., 10(1), 64–69 (1969). (Equi Diagram; Experimental)Google Scholar
  47. 69Yag: K. Yagisawa and H. Yoshida, “Structure Changes in Fe-23 at.% Be Alloy,”Trans. Nat. Res. Inst. Met. (Japan), 11(3), 135–145 (1969). (Equi Diagram; Experimental)Google Scholar
  48. 70Joh: Q. Johnson, G.S. Smith, O.H. Krikorian, and D.E. Sands, “Crystal Structure of RhBe6.6,”Acta Crystallogr. B, 26(2), 109–113 (1970). (Equi Diagram, Crys Structure; Experimental)CrossRefGoogle Scholar
  49. 70Tia: Yu. D. Tiapkin, A.V. Gavrilova, V.A. Golikov, and V.D. Vasin, “Electronmicroscopic and X-Ray Diffraction Study of Atomic Mechanism of Supersaturated Solid Solutions Decomposition of Some Metallic Alloys,” 7th Int. Conf. Electronmicrosc., Grenoble, Fr., 175–176 (1970). {cm(Meta Phases; Experimental)}Google Scholar
  50. 71Jan: C. Janot and M. Piecuch, “Mössbauer Effect Studies of Beryllium-Iron Compounds with the Same Structure as Be5Fe,”Acta Metall., 19(7), 713–717 (1971) in French. (Magnetism; Experimental)CrossRefGoogle Scholar
  51. 71Lev: E. Levine and G. Lutjering, “Precipitation in the Beryllium-Iron System,”J. Less-Common Met., 23, 343–357 (1971). (Equi Diagram; Experimental)CrossRefGoogle Scholar
  52. 71Wal: K.A. Walsh, A.J. Stonehouse, and A.J. Sandor, “Altering Beryllium Properties by Heat Treatment and Chemistry Control,” BBC-TR-465 (1971). {cm(Equi Diagram; Experimental)}Google Scholar
  53. 72Bae: H. G. Baer and I. Pfeiffer, “Hardness-Controlling Additions in Transition Metal-Beryllium Alloys,”Z Metallkd., 63(11), 740–744 (1972). in German. (Equi Diagram; Experimental).Google Scholar
  54. 72Jan: C. Janot and P. Delcroix, “Study of Mechanically Strained Beryllium-Iron Alloys by Mössbauer Effect,”Acta Metall., 20(4), 637–643 (1972) in French. (Magnetism;Experimental)CrossRefGoogle Scholar
  55. 73Gol: O. von Goldbeck, “Phase Diagrams,” inBeryllium: Physico-Chemical Properties of Its Compounds and Alloys, Atomic Energy Review: Special Issue No. 4, O. Kubaschewski, Ed., UNIPUB, New York, 45–61 (1973). (Equi Diagram, Meta Phases; Review; Indicates the presence of phase diagram)Google Scholar
  56. 73Yag: K. Yagisawa, “Mössbauer Studies of Iron-23 at.% Beryllium Alloy Aged above 400°C,”Phys. Status Solidi (a), 16(1), 291–297 (1973). (Equi Diagram, Magnetism; Experimental)CrossRefGoogle Scholar
  57. 74Gup: S. Gupta K.B. Lai, T.M. Srinivasan, and G.N. Rao, “Mössbauer Studies of Fe−Be, Fe−Nb, Fe−Ru, Fe−Te, and Fe−Ir Alloys,”Phys. Status Solidi (a), 22(2), 707–713 (1974). (Magnetism; Experimental)CrossRefGoogle Scholar
  58. 74Hig: J. Higgins, R.B. Nicholson, and P. Wilkes, “Precipitation in the Iron-Beryllium System,”Acta Metall., 22(2), 201–217 (1974). (Equi Diagram, Meta Phases; Experimental)CrossRefGoogle Scholar
  59. 74Vin: I. Vincze, M.C. Cadeville, R. Jesser, and L. Takacs, “Investigation of Mixed Intermetallic Compounds,”J. Phys. (Paris) 35(12suppl.), C6.533-C6.536 (1974). (Magnetism; Experimental)Google Scholar
  60. 74Wan: F.E. Wang, Proc. 1st JOWOG 22 Phys. Metall. Beryllium Task Force Mtg.,1, (1974), Sandia, Livermore, CA, 36–49. (Equi Diagram; Experimental)Google Scholar
  61. Indicates key paper.75Ko: M. Ko and T. Nishizawa, “Effect of Magnetism on the Solubility of Beryllium in Alpha Iron,”Trans. Jpn. Inst. Met., 16(6), 369–371 (1975). (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  62. 75Tya: Yu.D. Tyapkin, Y.V. Evtushenko, N.T. Travina, and V.I. Kovalenko, “Nature of Quasiperiodic (Modulated) Structure in Iron-Beryllium Alloys,”Ukr. Fiz. Khim., 20(5), 858–860 (1975) in Russian. (Meta Phases; Experimental)Google Scholar
  63. 76Mye: S.M. Myers and J.E. Smugeresky, “Phase Equilibria and Diffusion in the Be−Al−Fe System Using High-Energy Ion Beams,”Metall. Trans. A., 7(6), 795–802 (1976). (Equi Diagram; Experimental)Google Scholar
  64. 78Ino: H. Ino, “A Pairwise Interaction Model for Decomposition and Ordering Processes in B.C.C. Binary Alloys and Its Application to the Fe−Be System,”Acta Metall., 26(5), 827–834 (1978). (Meta Phases; Theory; Indicates the presence of phase diagram)CrossRefGoogle Scholar
  65. Indicates key paper.78Mye: S.M. Myers and J.E. Smugeresky, “Phase Equilibria in the Be−Al−Fe System Using High-Energy Ion Beams: II,”Metall. Trans. A, 9(12), 1789–1794 (1978). (Equi Diagram; Experimental; Indicates the presence of phase diagram)CrossRefGoogle Scholar
  66. 78Tya: Yu.D. Tyapkin, T.V. Yevtushenko and N.T. Travina, “Concerning the Four-Phase Model of the Structure of Iron-Beryllium Alloys at Early Stages of Aging,”Fiz. Met. Metalloved., 45(2), 315–326 (1978) in Russian; TR:Phys. Met. Metall., 45(2), 72–82 (1978). (Meta Phases; Experimental; Indicates the presence of phase diagram)Google Scholar
  67. 79Ald: F.Aldinger and G. Petzow, “Constitution of Beryllium and its Alloys,” inBeryllium Science and Technology, D. Webster and G.J. London, Ed.,1, 235–305 (1979). {cm(Equi Diagram, Crys Structure; Review; Indicates the presence of phase diagram)}Google Scholar
  68. 79Ko: M. Ko and T. Nishizawa, “Effect of Magnetic Transition on the Solubility of Alloying Elements in Alpha Iron,”J. Jpn. Inst. Met., 43(2), 118–126 (1979) in Japanese. (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  69. 80Tan: L.E. Tanner, “The Stable and Metastable Phase Relations in the Hf−Be Alloy System,”Acta Metall., 28, 1805–1816 (1980). (Meta Phases; Theory)CrossRefADSGoogle Scholar
  70. 81Nis1: T. Nishizawa and M. Hasebe, “Computer Calculation of Phase Diagrams of Iron Alloys (1),”Tetsu to Hagane, 67(11), 1887–1898 (1981) in Japanese. (Equi Diagram; Review; Indicates the presence of phase diagram)Google Scholar
  71. 81Nis2: T. Nishizawa and M. Hasebe, “Computer Calculation of Phase Diagrams of Iron Alloys (2),”Tetsu to Hagane, 67(14), 2086–2097 (1981) in Japanese. (Equi Diagram; Review; Indicates the presence of phase diagram)Google Scholar
  72. 81Tak: T. Takayama, M.Y. Wey, and T. Nishizawa, “Effect of Magnetic Transition on the Solubility of Alloying Elements in BCC Iron and FCC Cobalt,”Trans. Jpn. Inst. Met., 22(5), 315–325 (1981). (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  73. Indicates key paper.82Jon: S. Jonsson K. Kaltenbach, and G. Petzow, “Phase Relation in the Beryllium-Rich Section of the System Beryllium-Copper-Iron,”Z. Metallkd., 73(8), 534–539 (1982). (Equi Diagram, Crys Structure; Experimental; Indicates the presence of phase diagram)Google Scholar
  74. 82Swa: L.J. Swartzendruber, “The Fe (Iron) System,”Bull. Alloy Phase Diagrams, 3(2), 161–165 (1982). (Equi Diagram, Magnetism; Compilation)Google Scholar
  75. 83Cha: M.W. Chase, “Heats of Transition of the Elements,”Bull. Alloy Phase Diagrams, 4(1), 123–124 (1983). (Thermo; Compilation)Google Scholar
  76. 83Nie: A.K. Niessen, F.R. de Boer, R. Boom, P.F. de Chatel, W.C.M. Mattens, and A.R. Miedema, “Model Predictions for the Enthalpy of Formation of Transition Metal Alloys II”Calphad, 7(1), 51–70 (1983). (Thermo; Theory)CrossRefGoogle Scholar
  77. 84Kau: L. Kaufman, and L.E. Tanner, “Coupled Phase Diagrams and Thermochemical Descriptions of the Iron-Beryllium, Cobalt-Beryllium, and Copper-Beryllium Systems,”Calphad, 8(2), 121–133 (1984). (Thermo; Theory; Indicates the presence of phase diagram)CrossRefGoogle Scholar
  78. 84Mill: M.K. Miller, S.S. Brenner, M.G. Burke, and W.A. Soffa, “Atom Probe Field-Ion Microscopy Studies of Triaxially Modulated Microstructures in Fe−Be Alloys,”Scr. Metall. 18 111–116 (1984). (Meta Phases; Experimental; Indicates the presence of phase diagram)CrossRefGoogle Scholar
  79. 84Mil2: M.K. Miller, M.G. Burke, S.S. Brenner, W.A. Soffa, K.B. Alexander, and D.E. Laughlin, “Identification of aB32 Metastable Precipitate in the Fe−Be System,”Scr. Metall., 18 285–290 (1984). (Meta Phases; Experimental; Indicates the presence of phase diagram)CrossRefGoogle Scholar

Copyright information

© Springer 1988

Authors and Affiliations

  • L. E. Tanner
    • 1
  • H. Okamoto
    • 2
  1. 1.L-355, Lawrence Livermore National LaboratoryLivermore
  2. 2.ASM InternationalMetals Park

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