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Theoretical and Experimental Investigation on the Low Temperature Properties of the NbCr2 Laves Phase
LA-UR-99-2687
  • Dan J. Thoma, Los Alamos National Laboratory
  • Chu Fuming, Los Alamos National Laboratory
  • Katherine C. Chen, Los Alamos National Laboratory
  • Paul G. Kotula, Los Alamos National Laboratory
  • Terence E. Mitchell, Los Alamos National Laboratory
  • John M. Wills, Los Alamos National Laboratory
  • Alim Ormeci, Koc University, Turkey
  • Shao Ping Chen, Los Alamos National Laboratory
  • Robert C. Albers, Los Alamos National Laboratory
Publication Date
9-7-1999
Abstract

This is the final report of a three-year, Laboratory Directed Research and Development (LDRD) project at Los Alamos National Laboratory (LANL). The goal of the project was to develop methodologies in which to define and improve the properties of NbCr2 so that the high temperature structural applications of alloys based upon this would not be limited by the low-temperature brittle behavior of the intermetallic. We accomplished this task by (1) understanding the defect structure and deformation mechanisms in Laves phases, (2) electronic and geometric contributions to phase stability and alloying behavior, and (3) novel processing of dual phase (Laves/bcc) structures. As a result alloys with properties that in many cases surpass superalloys were developed. For example, we have tailored alloy design strategies and processing routes in a metal alloy to achieve ambient temperature ultimate strengths of 2.35 GPa as well as ultimate strengths of 1.5 GPa at 1000°C. This results in one of the strongest metal alloys that currently exist, while still having deformability at room temperature.

Publisher statement

U.S. Department of Energy

Citation Information
Dan J. Thoma, Chu Fuming, Katherine C. Chen, Paul G. Kotula, et al.. "Theoretical and Experimental Investigation on the Low Temperature Properties of the NbCr2 Laves Phase" LA-UR-99-2687 (1999) p. 1 - 21
Available at: http://works.bepress.com/kcchen/33/