TERNARY PHASE EQUILIBRIUM IN TRANSITION METAL-BORON-CARBON-SILICON SYSTEMS. PART 2. TERNARY SYSTEMS. VOLUME 7. TI-ZR-B SYSTEM. INVESTIGATION OF PSEUDO-BINARY SYSTEMS ZRB2-NBB2, ZRB2-TAB2, AND HFB2-NBN2

Abstract

The ternary system titanium-zirconium-boron was investigated from 1000 C to 3245 C, the melting temperature of zirconium diboride. The equilibria which exist have been determined except for the boron-rich equilibria which have been estimated. The following notable features were found: minimum melting occurs in the titanium rich corner of the ternary; a four-phase reaction involving beta-metal phase, monoboride, diboride, and liquid occurs at a temperature slightly higher than the minimum melting; zirconium exchanges with titanium in titanium monoboride to about 9 At.% zirconium; and the metal diborides form a continuous series of solid solutions. No ternary compounds were found. The techniques used in the investigation were X-ray analysis, melting point determination, and metallographic examination. Lattice parameter plots of the pseudo-binary systems ZrB2-NbB2, ZrB2-TaB2, and HfB2-NbB2 indicate that in each of these systems the diborides form a continuous series of solid solutions. Melting point temperatures for these systems have been determined.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 1966

Accession Number

AD0803913

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