The phase diagram of the Cd–In–Sn system
-
E. Dichi
and
B. Legendre
Abstract
The phase diagram of the Cd–In –Sn ternary system was studied by X-ray powder diffraction analysis and differential scanning calorimetry. 138 alloys were elaborated on nine vertical sections. Three transition peritectic reactions (U-type), two ternary eutectoid reactions (E-type) and one ternary eutectic reaction (E-type) were characterized.
References
[86Bul] Note of the Editor: Bull. Alloy Phases Diagr. 7 (1986) 602.10.1007/BF02869888Search in Google Scholar
[89Dut] J. Dutkiewicz, L. Zabdyr, Z. Moser, J. Salawa: Bull. Alloy Phase Diag. 10 (1989) 223.10.1007/BF02877499Search in Google Scholar
[90Mas] T.B. Massalski (Editor-in-Chief): Binary Alloy Phase Diagrams, ASM Int., Materials Park, OH (1990) 2295.Search in Google Scholar
[91Che] G.C. Che, M. Ellner, K. Schubert: J. Mater. Sci. 26 (1991) 2417.10.1007/BF01130189Search in Google Scholar
[92Dut] J. Dutkiewicz, L. Zabdyr, W. Zakulski, Z. Moser, J. Salawa, P.J. Horrocks, F.H. Hayes, M.H. Rand: J. Phase Equil. 13 (1992) 261.10.1007/BF02667551Search in Google Scholar
© 2003 Carl Hanser Verlag, München
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- Personal/Personelles
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Articles in the same Issue
- Frontmatter
- Editorial
- Editorial
- Articles/Aufsätze
- On the origins and mechanisms of the indentation size effect
- Nanoindentation testing of gear steels
- Nanoscale materials testing under industrially relevant conditions: high-temperature nanoindentation testing
- Investigation of the properties of candidate reference materials suited for the calibration of nanoindentation instruments
- Approaches of quantifying the entire load–depth curve in terms of hardness
- Effect of interphase boundaries on nanoindentation experiments on a Ni-base alloy
- Nanoindentation measurements on infiltrated alumina–aluminide alloys
- The phase diagram of the Cd–In–Sn system
- Experimental study of the liquid/liquid interfacial tension in immiscible Al–Bi system
- Solid state synthesis of Al-based amorphous and nanocrystalline Al–Nb–Si and Al–Zr–Si alloys
- X-ray diffraction study on the microstructure of an Al–Mg–Sc–Zr alloy deformed by high-pressure torsion
- A laser-remelted complex manganese bronze with shape memory
- Notifications/Mitteilungen
- Personal/Personelles
- Books/Bücher
- Conferences/Konferenzen
