Volume deformation and the variation of physical and mechanical properties of the TiFe-Cu(Ni) composite materials during hydrogenation
Powder Materials, Articles, And Coatings
KeywordsHydrogenation Mechanical Property Composite Material Volume Deformation
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- 1.Z. V. Swarterdruba, G. C. Carter, D. V. Kahan, et al., ”Numerical physical property data for metal hydrides utilized for hydrogen storage,” in: Proc. Second World Conf. on Hydrogen Energy. Vol. 4, Zurich (1973), pp. 1973–2012.Google Scholar
- 2.S. M. Katz, High-Temperature Heat Insulating Materials [Russian translation], Metallurgiya, Moscow (1981).Google Scholar
- 3.M. V. Swain, ”Nickel sulfide inclusions in glass: an example of microcracking induced by a volume expanding phase change,” J. Mater. Sci.,16, No. 1, 151–158 (1981).Google Scholar
- 4.O. V. Roman, V. V. Skorokhod, and G. R. Fridmam, Ultrasonic and Resistometric Control in Powder Metallurgy [in Russian], Vysheishaya Shkola, Minsk (1989).Google Scholar
- 5.F. Reidinger and L. J. Reilly, ”On x-ray diffraction examination of the FeTi-H2 system,” J. Phys. F: Met. Phys., No. 12, 49–55 (1982).Google Scholar
- 6.V. V. Skorokhod and S. M. Solonin, Physical Metallurgical Principles of the Sintering of Metal Powders [in Russian], Metallurgiya, Moscow (1984).Google Scholar
- 7.I. F. Martynova, ”A study of the structural features and a rheological analysis of the bulk deformation of porous ductile metals,” Ph.D. Thesis, Kiev (1979).Google Scholar
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