Abstract
Small ingots of Nb-Si alloys were made from high-purity, solid-form (not powder) Nb and Si by arc-melting and suction-casting into a copper mold. Samples from these ingots were tested for the presence of a superconducting transition temperature ( T c ) and were found to be superconducting (with a T c near 7·5°K) up to 37·5 at.% silicon. Metallographic and microprobe studies to determine the superconducting phase in the system led to the discovery of an unreported compound, Nb 3Si, and indicated that Nb 4Si does not exist. Further investigation showed that Ta 3Si also exists and that Ta 4Si does not, these alloys being similarly prepared from solid-form, high-purity Ta and Si. Nb 3Si and Ta 3Si were found to have isomorphous tetragonal structures with parameters a 0 = 10.21 ± 0.01 A ̊ , c 0 = 5.19 ± 0.01 A ̊ , and a 0 = 10.17 ± 0.01 A ̊ and c 0 = 5.16 ± 0.01 A ̊ , respectively. The Ta 3Si pattern was found to be nearly identical to one reported by Brewer for TaSi 0.20 ± 0.05. Nb 3Si was determined to be essentially a line compound which melts peritectically at 1945° ± 20 °C. It was found to be non-superconducting above 4.2°K. The superconducting phase was determined to be Nb solid solution, which was present as a Nb-Nb 3Si eutectic up to 37.5 at.% Si.
Published Version
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