The Palladium-Hydrogen System: Part III: Alloy Systems and Hydrogen Permeation

By F. A. Lewis

doi:10.1595/003214082X263121128

ISSN: 0032-1400

oa The Palladium-Hydrogen System

Part III: Alloy Systems and Hydrogen Permeation
By By F. A. Lewis¹
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Affiliations: ¹ The Queen’s University of Belfast
Source: Platinum Metals Review, Volume 26, Issue 3, Jul 1982, p. 121 - 128
DOI: https://doi.org/10.1595/003214082X263121128
- Published online: 01 Jan 1982

Abstract

Hydrogen absorption by series of palladium alloys with several other metals has now been quite extensively investigated with reference to systematic alterations of pressure-composition relationships, other related thermodynamic factors and various physical parameters. Hydrogen permeation has been an important area of both academic and technological interest with relation, for example, to effecting reductions of deformations associated with phase transitions, while retaining the high values of hydrogen solubilities and hydrogen diffusion coefficients in palladium at convenient temperatures.

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1982-01-01

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References

J. Čermák, A. Kufudakis, G. Gardavská, F. A. Lewis, 173Suppl. Trans. Jpn. Inst. Met., 1980, 21, 125; [Google Scholar]
Surf. Technol., 1982, 16, (1), 57 [Google Scholar]
R. R. Arons, J. Bouman, M. Wijzenbeek, P. T. A. Klaase, C. Tuyn, G. Leferink, G. de Vriess, 174Acta Metall., 1967, 15, (1), 144 [Google Scholar]
J. K. Jacobs, C. R. Brown, V. S. Pavlov, F. D. Manchester, 175J. Phys. F, 1976, 6, (12), 2219 [Google Scholar]
F. M. Mazzolai, P. G. Bordoni, F. A. Lewis, 176Internal Friction and Ultrasonic Attenuation in Solids”, Proc. 3rd European Conf., Oxford, Pergamon, 1980, p. 229 [Google Scholar]
B. Ströbel, V. Muller, D. Schilling, K. Länger, H. E. Bömmel, 177J. Phys. F, 1979, 9, L247 [Google Scholar]
R. Burch, N. B. Mason, 178J. Chem. Soc., Faraday Trans. 1, 1980, 76, 2285 [Google Scholar]
S. Engels, 179Z. Anorg. Chem., 1966, 348, (3/4), 219 [Google Scholar]
J. S. Carlow, R. E. Meads, 180J. Phys. C, 1969, 2, (11), 2120; [Google Scholar]
J. Phys. F, 1972, 2, (5), 982 [Google Scholar]
D. Fort, J. P. G. Farr, I. R. Harris, 181J. Less Common Met., 1975, 39, (2), 293 [Google Scholar]
D. Fisher, D. M. Chisdes, T. B. Flanagan, 182J. Solid State Chem., 1977, 20, (2), 149 [Google Scholar]
G. Sicking, 183Z. Phys. Chem. (Frankfurt am Main). 1979, 116, 63 [Google Scholar]
A. Obermann, W. Wanzl, H. Mahnig, E. Wicke, 184J. Less-Common Met., 1976, 49, (1, 2), 75 [Google Scholar]
F. E. Wagner, G. Wortmann, 185op. cit., ref. 17, 28, p. 131;
H. Probst, F. E. Wagner, M. Karger, G. Wortmann, Z. Phys. Chem. (Frankfurt am Main), 1979, 114, 195 [Google Scholar]
F. E. Wagner, M. Karger, F. Probst, M. Karger, F. Probst, B. Schuttler, F. E. Wagner, 186J. Less-Common Met., 1980, 73, 281; op. cit., ref. 16 [Google Scholar]
T. B. Flanagan, S. Majchrzak, B. Baranowski, 187Phil. Mag., 1972, 25, (1), 257 [Google Scholar]
J. B. Darby, K. M. Myles, 188Met. Trans., 1972, 3, (3), 653 [Google Scholar]
H. Husemann, H. Brodowsky, 189Z. Naturforsch., A, 1968, 23, (10), 1693 [Google Scholar]
T. Skośkiewicz, A. W. Szafrański, B. Baranowski, 190Phys. Status Solidi B, 1973, 59, (2), K135 [Google Scholar]
B. Stritzker, H. L. Luo, 191J. Less-Common Met., 1980, 73, (2), 301 [Google Scholar]
M. L. H. Wise, J. P. G. Farr, I. R. Harris, J. R. Hirst, M. L. H. Wise, D. Fort, J. P. G. Farr, I. R. Harris, 192op. cit., 1975, 41, (1), 115; ibid., 1976, 49, (1, 2), 193
E. Wicke, 193op. cit., 1980, 74, (1), 185
A.J. Maeland, G.G. Libowitz, 194op.cit., 1980, 74, 295
T. B. Flanagan, G. E. Biehl, J. D. Clewley, S.− Rundquist, Y. Andersson, 195J. Chem. Soc., Faraday Trans. 1, 1980, 76, 196 [Google Scholar]
A. W. Szafra, ński, B. Baranowski, 196Phys. Status Solidi A, 1972, 9, (2), 435 [Google Scholar]
T. Skośkiewicz, 197op. cit., 1978, 48, (2), K165
P. Vignet, R. Gabilly, J. Lutz, R. Zermizoglon, 198French Atomic Energy Comm. (Saclay) Report DPC 1s. sc 1/63–346 PV/DG, 1963 [Google Scholar]
J. G. Early, 199Acta Metall., 1978, 26, (8), 1215 [Google Scholar]
E. F. W. Seymour, R. M. Cotts, W. D. Williams, P. P. Davis, E. F. W. Seymour, D. Zamir, W. D. Williams, R. M. Cotts, R. M. Cotts, 200Phys. Rev. Lett., 1975, 35, (3), 165; J. Less-Common Met., 1976, 49, (1, 2), 159; op. cit., ref. 17, 28, p. 227 [Google Scholar]
K. Sköld, 201op. cit., ref. 17, 28, p. 267
J. Völkl, G. Alefeld, 202op. cit., ref. 17, 28, p. 321
Y. Ebisuzaki, W. J. Kass, M. O’Keefe, 203J. Chem. Phys., 1968, 49, (8), 3329 [Google Scholar]
H. K. Birnbaum, C. A. Wert, J. Hauck, 204Ber. Bunsenges. Phys. Chem., 1972, 76, (8), 806; see also Z. Phys. Chem. (Frankfurt am Main), 1979, 114, 165 [Google Scholar]
M. Kuballa, B. Baranowski, 205Ber. Bunsenges. Phys. Chem., 1974, 78, (4), 335 [Google Scholar]
H. Buchold, G. Sicking, E. Wicke, B. Huber, G. Sicking, 206op. cit., 1976, 80, (5), 446; Phys. Status Solidi A, 1978, 47, (1), K85 [Google Scholar]
A. M. Stoneham, 207Ber. Bunsenges. Phys. Chem., 1972, 76, (8), 816 [Google Scholar]
K. W. Kehr, 208op. cit., ref. 17, 28, p. 197
A. G. Knapton, 209Platinum Metals Rev., 1977, 21, (2), 44 [Google Scholar]
D. T. Hughes, I. R. Harris, D. T. Hughes, J. Evans, I. R. Harris, 210Z. Phys. Chem. (Frankfurt am Main), 1979, 117, 185; J. Less-Common Met., 1980, 76, 119; [Google Scholar]
A. D. Spektor, Iu. D. Kozmanov, F. E. Kagan, V. V. Lobanov, see also Fiz. Met. Metalloved., 1981, 51, (2), 354 [Google Scholar]
A. KÜssner, 211J. Int. Etudes des Piles a Combustible, Brussels, serai, 1965, 2, p. 116 [Google Scholar]
F. A. Lewis, R. Burch, A. S. Darling, G. L. Selman, 212Solid State Commun., 1967, 5, (7), 613 [Google Scholar]
K. Allard, A. Maeland, J. W. Simons, T. B. Flanagan, 213J. Phys. Chem., 1968, 72, (1), 136 [Google Scholar]
A. Küssner, 214Z. Naturforsch., A, 1966, 21, (4), 515 [Google Scholar]
R. G. Hickman, 215J. Less-Common Met., 1969, 19, (4), 369 [Google Scholar]
F. M. Mazzolai, F. A. Lewis, M. Nuovo, R. Franco, 216Internal Friction and Ultrasonic Attenuation in Solids”, Proc. 6th Int. Conf., Univ. of Tokyo Press, 1977, p. 467; [Google Scholar]
Z. Phys. Chem. (Frankfurt am Main), 1979, 114, 185 [Google Scholar]

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The Palladium-Hydrogen System

Platinum Metals Review 26, 121 (1982); https://doi.org/10.1595/003214082X263121128

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oa The Palladium-Hydrogen System

Part III: Alloy Systems and Hydrogen Permeation

Abstract

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