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Cited References
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59Gri: H. H. Grimes, “The Effect of Plastic Deformation on the Diffusion of Hydrogen in Nickel,”Acta Metall., 7, 782–786 (1959). (Equi Diagram; Experimental)
60Jan1: A. Janko and P. Michel, “An Electron Microscopy and Diffraction Study of Nickel Charged Electrolytically with Hydrogen,”C. R. Acad. Sci. (Paris), 251, 1001–1003 (1960) in French. (Equi Diagram, Crys Structure; Experimental)
60Jan2: A. Janko, “The Structure of the Hydrogen-Rich Phase Formed in Cathodically Saturated Nickel,”Bull. Acad. Pol. Sci., Chim., 8, 131–136 (1960). (Crys Structure; Experimental)
61Bau: H. J. Bauer and E. Schmidbauer, “The Influence of Electrolytic Hydrogen Charging on the Magnetization of Nickel,”Z. Phys., 164, 367–373 (1961) in German. (Equi Diagram; Experimental)
61Bon: T. Boniszewski and G. C. Smith, “A Note on Nickel Hydride,”J. Phys. Chem. Solids, 21, 115–118 (1961). (Equi Diagram, Crys Structure; Experimental)
63Sch: N. A. Scholtus and W. K. Hall, “Hysteresis in the Palladium-Hydrogen System,”J. Chem. Phys., 39, 868–870 (1963). (Equi Diagram; Theory)
63Szk: Z. Scklarska-Smialowska and M. Smialowski, “Electrochemical Study of the Nickel-Hydrogen System,”J. Electrochem. Soc., 110, 444–448 (1963). (Equi Diagram; Experimental)
63Wol: E. O. Wollan, J. W. Cablel, and W. C. Koehler, “The Hydrogen Atom Positions in Face Centered Cubic Nickel Hydride,”J. Phys. Chem. Solids, 24, 1141–1143 (1963). (Equi Diagram; Experimental)
64Bar1: B. Baranowski and I. Czarnota, “The Enthalpy of Desorption for Nickel Hydride,”Naturwissenschaften, 51, 262 (1964). (Thermo; Experimental)
64Bar2: B. Baranowski and Z. Szklarska-Smialowska, “A Galvanostatic and Potentiostatic Study of the Nickel-Hydrogen System,”Electrochim. Acta, 9, 1497–1507 (1964). (Equi Diagram, Crys Structure; Experimental)
64Maj: S. Majchrzak and H. Jarmolowicz, “X-Ray Study of Textured Nickel Electrodeposits Charged with Cathodic Hydrogen,”Bull. Acad. Pol. Sci., Chim., 12, 155–158 (1964). (Crys Structure; Experimental)
64Mc1: R. B. McLellan, “The Thermodynamics of Dilute Silver-Oxygen and Iron-Nitrogen Interstitial Solid Solutions,”Trans. Metall. Soc. AIME, 230, 1468–1475 (1964). (Equi Diagram; Theory)
64Pal: W. Palczewska, “Investigations on the Mechanism of Permeation of Hydrogen from the Gas Phase into Metals. Role of Proton in Hydrogen Permeation into Nickel,”Bull. Acad. Pol. Sci., Chim., 12, 817–821 (1964). (Equi Diagram; Experimental)
65Bar: B. Baranowski and K. Bochenska, “The Free Energy and Entropy of Formation of Nickel Hydride,”Z. Phys. Chem. (Neue Folge), 45, 140–152 (1965). (Equi Diagram, Thermo; Experimental)
66Cza: I. Czarnota and B. Baranowski, “Enthalpy of Formation of Nickel Hydride and Deuteride,”Bull. Acad. Pol. Sci., Chim., 14, 191–196 (1966). (Thermo; Experimental)
66Str: A. Stroka and B. Baranowski, “Phase Character of Nickel Deuteride,”Bull. Acad. Pol. Sci., Chim., 14, 419–424 (1966). (Equi Diagram; Experimental)
67Bar1: B. Baranowski, K. Kochenska, and S. Majchrzak, “The System Ni−H at High Pressures of Gaseous Hydrogen,”Rocz. Chem., 41, 2071–2082 (1967). (Equi Diagram, Crys Structure; Experimental)
67Bar2: B. Baranowski and J. Szymaszek, “The Electrical Resistance Anomaly of Nickel Hydride at Low Temperatures,”Phys. Status Solidi, 20, K37-K39 (1967). (Crys Structure; Experimental)
67Ebi: Y. Ebisuzaki, W. J. Kass, and M., O'Keeffe, “Diffusion and Solubility of Hydrogen in Single Crystals of Nickel and Nickel-Vanadium Alloy,”J. Chem. Phys., 46, 1378–1381 (1967). (Equi Diagram, Thermo; Experimental)
*67Jan: A. Janko and J. Pielaszek, “Lattice Spacing Determination for theα andβ Phases of Nickel-Hydrogen and Nickel-Deuterium Systems,”Bull. Acad. Pol. Sci., Chim., 15, 569–572 (1967). (Crys Structure; Experimental)
*67Maj: S. Majchrzak, “X-Ray Study of the Nickel-Hydrogen System,”Bull. Acad. Pol. Sci., Chim., 15, 485–490 (1967). (Equi Diagram, Crys Structure; Experimental)
68Bau: H. J. Bauer, G. Berninger, and G. Zimmermann, “The Interstitial Occlusion of Hydrogen in Ni−Cu Alloysas Determined by Magnetic and X-Ray Methods,”Z. Naturforsch. A, 23, 2023–2029 (1968) in German. (Equi Diagram, Crys Structure; Experimental)
68Bla: J. A. Blakemore, W. A. Oates, and E. O. Hall, “The Solubility of Hydrogen in Solid Ni−Cu Alloys,”Trans. Metall. Soc. AIME, 332–333 (1968). (Equi Diagram; Experimental)
68Sie: B. Siegel and G. G. Libowitz, “The Covalent Hydrides and Hydrides of the Groups V to VIII Transition Metals,”Metal Hydrides, W. M. Mueller, J. P. Blackledge, and G. G. Libowitz, Ed. Academic Press, New York, 545–574 (1968).
70Com: P. Combette and P. Azou, “The diffusion of Hydrogen in Nickel,”Mém. Sci. Rev. Métall., 67, 17–31 (1970). (Equi Diagram; Experimental)
70Bar: B. Baranowski, S. Majchrzak, and T. B. Flanagan, “The Volume Increase of FCC Metals and Alloys due to Interstitial Hydrogen over a Wide Range of Hydrogen Contents,”J. Phys. F, Met. Phys., 1, 258–261 (1971). (Crys Structure; Experimental)
71Jon: F. G. Jones and R. D. Pehlke, “Solubility of Hydrogen in Solid Ni−Co and Ni−Cu Alloys,”Metall. Trans., 2, 2655–2663 (1971). (Equi Diagram Thermo; Experimental)
71Sko: T. Skoskiewicz, “Investigations of the Thermoelectrical Power at High Hydrogen Pressure in the Ni−H and Pd−H Systems,”Phys. Status Solidi (a), 6 29–32 (1971). (Equi Diagram; Experimental)
71Vyk: V. B. Vykhodets, V. B. Demin, P. B. Geld, A. H. Men, A. Y. Fyshman, and G. I. Chufarov, “Solubility of Hydrogen in F. C. C. Metals,”Izv. Akad. Nauk SSSR, Met., 6(6), 71–77 (1971) in Russian; TR:Russ. Metall., (6), 55–59 (1971). (Equi Diagram; Theory)
71Way: M. L. Wayman and G. C. Smith, “Hydride Formation in Nickel-Iron Alloys,”J. Phys. Chem. Solids, 32, 103–108 (1971). (Equi Diagram, Crys Structure; Experimental)
71Wol: G. Wolf and B. Baranowski, “Specific Heat of Nickel Hydride from 10° to 200 °K,”J. Phys. Chem. Solids, 32, 1649–1655 (1971). (Thermo; Experimental)
72Ale: G. Alefeld, “Phase Transitions of Hydrogen in Metals Due to Elastic Interaction,”Ber. Bunsenges. Phys. Chem., 76, 746–755 (1972). (Equi Diagram; Theory)
72Bar: B. Baranowski, “Thermodynamics of Metal/Hydrogen Systems at High Pressures,”Ber. Bunsenges. Phys. Chem., 76, 714–724 (1972). (Equi Diagram; Review)
72Fla: T. B. Flanagan and W. A. Oates, “Thermodynamics of Metal/Hydrogen Systems,”Ber. Bunsenges. Phys. Chem., 76, 706–714 (1972). (Crys Structure; Review)
73Mcl: R. B. McLellan and W. A. Oates, “The Solubility of Hydrogen in Rhodium Ruthenium, Iridium and Nickel,”Acta Metall., 21, 181–185 (1973). (Equi Diagram, Thermo; Experimental)
Indicates key paper. 73Rob: W. M. Robertson, “Hydrogen Permeation, Diffusion and Solution in Nickel,”Z. Metallkd., 64, 436–443 (1973). (Equi Diagram, Thermo; Experimental, Compilation)
74Sta: S. W. Stafford and R. B. McLellan, “The Solubility of Hydrogen in Nickel and Cobalt,”Acta Metall., 22, 1463–1468 (1974). (Equi Diagram, Thermo; Experimental)
Indicates key paper. 75Mcl: R. B. McLellan and C. G. Harkins, “Hydrogen Interactions with Metals,”Mater. Sci. Eng., 18, 5–35 (1975). (Thermo; Review)
76Boe: N. Boes and H. Zuchner, “Electrochemical Methods for Studying Diffusion, Permeation and Solubility of Hydrogen in Metals,”J. Less-Common Met., 49, 223–240 (1976). (Equi Diagram; Review)
76Fro: E. Fromm and E. Gebhardt Ed.,Gase und Kohlenstoff in Metallen, Springer, Berlin (1976) in German. (Equi Diagram; Review)
76Pon: E. G. Ponyatovskii, V. E. Antonov, and I. T. Belash, “TheT-P Phase Diagram of the Ni−H System for Temperatures up to 630 K and Pressures up to 18 Kilobars,”Dokl. Akad. Nauk SSSR, 229, 391–393 (1976) in Russian. (Equi Diagram; Experimental)
77Ant: V. E. Antonov, I. T. Belash, and E. G. Ponyatovskii, “TheT-P Phase Diagrams of the Ni−D and Ni−H Systems for Temperatures up to 375 °C and Pressures up to 20 Kilobars,”Dokl. Akad. Nauk SSSR, 223, 1114–1117 (1977) in Russian. (Equi Diagram; Experimental; Indicates presence of a phase diagram.)
77Bau: H. J. Bauer and B. Baranowski, “In-Situ Observation of the Disappearance of the Ferromagnetism of Nickel Under High Pressure Gaseous Hydrogen,”Phys. Status Solidi (a), 40, K35-K38 (1977). (Equi Diagram; Experimental)
78Bar: B. Baranowski, “Metal-Hydrogen Systems at High Hydrogen Pressures,”Topics in Applied Physics, Vol. 29,Hydrogen in Metals II, G. Alefeld and J. Volkl, Ed., Springer-Verlag, Berlin, 157–200 (1978). (Equi Diagram; Review)
78Bau: H. J. Bauer, M. Becker, H. Pretsch, and M. Zwick, “Magnetic Study of the Activation Energy of the Phase Transition Kinetics Between Nickel and Nickel Hydride,”Phys. Status Solidi (a), 47, 445–450 (1978). (Equi Diagram; Experimental)
78Jon: D. Jonitz and H. J. Bauer, “Studies of the Decomposition Process of Nickel Hydride by Bitter Powder Pattern and the Laue Method,”Hydrogen in Metals, III, Proc. 2nd Int. Cong. Hydrogen in Metals, Paris, 1977, Pergamon Press, New York, Vol. III, Paper No. 1E3, 1–5 (1978). (Equi Diagram; Experimental)
78Pie: J. Pielaszek and E. Lunarska, “Effect of the Real Structure of Nickel on the Kinetics of Nickel Hydride Decomposition,”Bull. Akad. Pol. Sci., Chim., 26, 87–90 (1978). (Equi Diagram; Experimental)
Indicates key paper. 78Pon: E. G. Ponyatovskii, V. E. Antonov, and I. T. Belash, “Group VI–VIII Transition Metals at High Hydrogen Pressures,”Neorg. Mater., 14, 1570–1580 (1978) in Russian. (Equi Diagram, Crys Structure; Experimental; Indicates presence of a phase diagram.)
79Bar: B. Baranowski, “Metal-Hydrogen Systems in the High Pressure Range,”Z. Phys. Chem. (Neue Folge) 114, 71–93 (1979). (Equi Diagram; Review)
79Kep: J. B. Kepka and E. W. Czaputowicz, “Analysis of Some Results on Pd−H and Ni−H Systems Studied in High-Pressure-Hydrogen Conditions,”Phys. Rev. B, 19, 2414–2416 (1979). (Equi Diagram; Experimental)
79Sha1: V. I. Shapovalov and N. P. Serdyuk, “On the Phase Diagrams of the Nickel-Hydrogen and Cobalt-Hydrogen Systems.”Dop. Akad. Nauk Ukr. RSR A, Fiz.-Mat. Tekh., 151–154 (1979) in Ukrainian. (Equi Diagram; Experimental; Indicates presence of a phase diagram.)
79Sha2: V. I. Shapovatov and N. P. Serdyuk, “Certain Thermodynamic Characteristics of the Nickel-Hydrogen and Cobalt-Hydrogen Systems,”Zh. Fiz. Khim., 53, 2187–2191 (1979) in Russian; TR:Russ. J. Phys. Chem., 53, 1250–1252 (1979) (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram.)
80Bar: B. Baranowski and M. Tkacz, “Ab- and Desorption Isotherms of Hydrogen in Ni−Cu Alloys in the High Pressure Range,”Pol. J. Chem., 54, 819–825 (1980). (Equi Diagram, Thermo; Experimental)
80Bor: P. C. Borbe, F. Erdmann-Jesnitzer, and W. Schoebel, “Studies of Formation and Decomposition of Nickel-Hydride,”Z. Metallkd., 71, 227–230 (1980) in German. (Equi Diagram; Experimental)
80Kit: S. Kitagawa, “Mechanism of Surface Crack Formation by Hydrogen in Pure Nickel,”Hydrogen in Metals, Proc. 2nd Jpn. Inst. Met. Int. Symp., suppl. toTrans. Jpn. Inst. Met., 21, 497–501 (1980). (Equi Diagram; Experimental)
Indicates key paper. 80Ser: N. P. Serdyuk and A. L. Chuprina, “High Pressure Anomalies in the Solubility of Hydrogen and Nickel and Cobalt,”Russ. J. Phys. Chem., 54, 1615–1618 (1980). (Equi Diagram, Thermo; Experimental; Indicates presence of a phase diagram.)
80Yur: I. A. Yurichev and E. G. Ponyatovskii, “Isomorphic Transitions and Critical Phenomena in F. C. C. Metals under Hydrogen Pressure,”Phys. Status Solidi (a), 58, 57–66 (1980). (Equi Diagram; Theory)
Indicates key paper. 81Bar: B. Baranowski, “Hydride Formation at High Hydrogen Pressure,”Metal Hydrides, G. Bambakidis, Ed., Plenum Press, New York, 193–213 (1981). (Equi Diagram; Review)
81Bau: H. J. Bauer, “Phase Transitions in Hydrogenated Nickel and Nickel Alloys Investigated by Magnetic Methods,”Metal Hydrides, G. Bambakidis, Ed., Plenum Press, New York, 313–327 (1981). (Equi Diagram; Review)
81Sha: V. I. Shapovalov, L. M. Poltoratskii, V. V. Trofimenko, and N. P. Serdyuk, “Phase Diagram of a Metal-Hydrogen System,”Fazorye Ravnovesiya Met. Splavakh, M. E. Drits, Ed., Izd. Nauk, Moscow, 280–285 (1981) in Russian. (Equi Diagram, Thermo; Experimental)
83Fuk: Y. Fukai and H. Sugimoto, “Enhanced Solubility of Hydrogen in Metals under High Pressure: Thermodynamical Calculation,”Trans. Jpn. Inst. Met., 24, 733–740 (1983). (Equi Diagram, Thermo; Theory)
83Kiu: K. Kiuchi and R. B. McLellan, “The Effect of Surface Contamination on the Measured Hydrogen Solubilities of Metals,”J. Less-Common Met., 95, 283–292 (1983). (Equi Diagram; Experimental)
83Sha: V. I. Shapovalov and L. B. Boyko, “Anomaly of Hydrogen Solubility in Ferromagnetic Metals near the Curie Point,”Fiz. Met. Metalloved., 55, 1220–1221 (1983) in Russian. (Equi Diagram, Thermo; Experimental)
83Vya: A. F. Vyatkin, P. V. Zhorin, and E. M. Tseitlin, “Influence of Magnetic Ordering on the Solubility of Hydrogen in Pure Nickel,”Zh. Fiz. Khim., 57, 419–422 (1983) in Russian; TR:Russ. J. Phys. Chem., 57, 249–251 (1983). (Equi Diagram, Thermo; Experimental)
84Bar: B. Baranowski, “Investigation of Some Metal-Hydrogen Systems in the High Pressure Region,”J. Less-Common Met., 101, 115–129 (1984). (Equi Diagram; Review)
Indicates key paper. 84Mcl: R. B. McLellan and P. L. Sutter, “Thermodynamics of the Hydrogen-Nickel Systems,”Acta Metall., 32, 2233–2239 (1984). (Equi Diagram; Experimental, Compilation)
85Tka: M. Tkacz and B. Baranowski, “Heats of Formation and Decomposition of Nickel and Ni0.8Cu0.2 Hydrides Measured in High Pressures of Gaseous Hydrogen,”J. Less-Common Met., 113, 83–87 (1985). (Thermo; Experimental)
86Lee: S.-M. Lee and J.-Y. Lee, “The Trapping and Transport Phenomena of Hydrogen in Nickel,”Metall. Trans. A, 17, 181–187 (1986). (Equi Diagram, Thermo; Experimental)
86Suz: Y. Suzuki and R. B. McLellan, “Thermodynamic Study of Ternary Nickel-Cobalt-Hydrogen Solid Solution,”Acta Metall., 34, 125–130 (1986). (Thermo; Experimental)
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This work was supported by Ontario Hydro as a contribution from the Canadian Council of ASM INTERNATIONAL to the joint ASM/NIST Binary Alloy Phase Diagram Program. Literature searched through 1986. Part of the bibliographic search was provided by ASM INTERNATIONAL and part by other sources. Professor Weatherly is the ASM/NIST Data Program Co-Category Editor for binary hydrogen alloys.
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Wayman, M.L., Weatherly, G.C. The H−Ni (Hydrogen-Nickel) system. Bulletin of Alloy Phase Diagrams 10, 569–580 (1989). https://doi.org/10.1007/BF02882416
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DOI: https://doi.org/10.1007/BF02882416