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Author Arajs, S.
Sponsorship USDOE
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword METALS, CERAMICS, AND OTHER MATERIALS ♦ COPPER ♦ ELECTRIC CONDUCTIVITY ♦ FERROMAGNETIC MATERIALS ♦ HELIUM ♦ HIGH TEMPERATURE ♦ LIQUIDS ♦ LOW TEMPERATURE ♦ MAGNETISM ♦ NICKEL ♦ NICKEL ALLOYS ♦ NIOBIUM ♦ NIOBIUM ALLOYS ♦ PALLADIUM ♦ PARAMAGNETISM ♦ QUANTITATIVE ANALYSIS ♦ SOLID SOLUTIONS ♦ STANDARDS
Abstract The electrical resistivities of nickel-rich nickel- niobium solid solutions were determined from liquid-helium temperatures to 1000 deg K. The Matthiessen rule is not obeyed at any temperature. The addition of niobium to nickel increases its ideal electrical resistivity when the alloy is in the ferromagnetic state but decreases it in the paramagnetic region. Dissolved niobium in nickel at liquid-helium temperatures causes considerably larger perturbation for the conduction electron transport than either copper or palladium. (auth)
ISSN 00218979
Educational Use Research
Learning Resource Type Article
Publisher Date 1961-01-01
Publisher Department U.S. Steel Corp. Research Center, Monroeville, Penna.
Journal Journal of Applied Physics
Volume Number 32
Organization U.S. Steel Corp. Research Center, Monroeville, Penna.


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