Publications
Export 13 results:
Sort by: Author Keyword Title Type [ Year
] Filters: Author is Ping, DH [Clear All Filters]
. Microstructure of rapidly solidified high strength Al94V4Fe2 alloy. Mater. Trans. JIM. 2003;44:1993–1998.
. QUASICRYSTAL FORMING ABILITY OF Zr-BASED ALLOYS. Advanced Materials Proceedings of the Indo-Malaysian Joint Workshop (WAM-2002). 2003:40.
. APFIM and TEM study of the oxygen behavior during crystallization of Zr 65 Cu 27.5 Al 7.5 metallic glass. Materials Science and Engineering: A. 2001;304:706–709.
. Influence of heating rate on the microstructure and magnetic properties of Fe 3 B/Nd 2 Fe 14 B nanocomposite magnets. Scripta materialia. 2001;45:355–362.
. Nanoquasicrystalline phase formation in binary Zr–Pd and Zr–Pt alloys. Acta materialia. 2001;49:3453–3462.
. Direct evidence for oxygen stabilization of icosahedral phase during crystallization of Zr 65 Cu 27.5. Applied Physics Letters. 2000;76:55–57.
. Direct evidence for oxygen stabilization of icosahedral phase during crystallization of ZrCuAl metallic glass. Applied Physics Letters. 2000;76:55.
. Icosahedral phase formation by the primary crystallization of a Zr-Cu-Pd metallic glass. Scripta materialia. 2000;43:103–107.
. Influence of oxygen on the crystallization behavior of Zr sub 65 Cu sub 27. 5 Al sub 7. 5 and Zr sub 66. 7 Cu sub 33. 3 metallic glasses. Acta Materialia(USA). 2000;48:3985–3996.
. Influence of oxygen on the crystallization behavior of Zr 65 Cu 27.5 Al 7.5 and Zr 66.7 Cu 33.3 metallic glasses. Acta Materialia. 2000;48:3985–3996.
. Influence of oxygen on the crystallization behavior of Zr65Cu27. 5Al7. 5 and Zr66. 7Cu33. 3 metallic glasses. Acta materialia. 2000;48:3985.
. Nanoquasicrystallization of binary Zr–Pd metallic glasses. Applied Physics Letters. 2000;77:1102–1104.
. APFIM and TEM study of the oxygen behavior during crystallization of Zr sub 65 Cu sub 27. 5 Al sub 7. 5 metallic glass. Materials Science and Engineering A(Switzerland). 1999;304:706–709.