A transient (subsecond) technique for measuring heat of fusion of metals |
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Authors: | A. Cezairliyan A. P. Miiller |
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Affiliation: | (1) Thermophysics Division, National Bureau of Standards, 20234 Washington, D.C., USA |
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Abstract: | A transient technique is described for measuring the heats of fusion of metals with melting temperatures above 1500 K. The specimen configuration consists of a strip of the metal under study sandwiched between two strips of another metal with a higher melting temperature. The basic method consists of rapidly heating the composite specimen by passing a subsecond-duration electrical current pulse through it and simultaneously measuring the radiance temperature of the containment metal surface, as well as the current through and voltage drop across the specimen. The melting of the metal under study is manifested by a plateau in the temperature versus time function for the containing metal surface. The time integral of the power absorbed by the specimen during melting yields the heat of fusion. Measurements on several tantalum-niobium-tantalum specimens yield a value of 31.5 kJ · mor–1 for the heat of fusion of niobium, with an estimated maximum inaccuracy of ± 5%. |
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Keywords: | dynamic techniques heat of fusion high temperatures melting niobium |
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