Journal
INTERMETALLICS
Volume 92, Issue -, Pages 119-125Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.intermet.2017.10.002
Keywords
Intermetallics (Ni-3(Si, Ti) alloys); Thermal properties; Microstructure; Physical properties
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Funding
- Japan Society for the Promotion of Science (JSPS) [26420663]
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Thermal conductivities of Ni-3(Si,Ti) single-phase alloys with an L1(2) structure as functions of composition and temperature were measured to provide information for high-temperature structural applications. It was confirmed that the Ni-3(Si,Ti) alloy has an extremely large single-phase region for the compositions Ni-28(Si22-x,Ti-x) (x = 0-12 at.%), Ni89-y(Si-11,Ti-y) (y = 9.5-12 at.%), and Ni89-z(Si-z,Ti-11) (z = 9.5-12 at.%). The thermal conductivities at 293 K of all the Ni-3(Si,Ti) single-phase alloys were estimated to be between 8 W/mK and 12 W/mK, which are lower than those of almost all other stoichiometric compounds. In the Ni3(Si,Ti) single-phase region, the thermal conductivity increased more significantly by increasing the Ni content than by varying the Si and Ti contents. The thermal conductivity of all the Ni-3(Si,Ti) single-phase alloys increased monotonically with an increase in temperature. The temperature coefficient of thermal conductivity increased as the value of the thermal conductivity at 293 K was low, according to Mooij's relationship. Consequently, the thermal conductivity in the Ni-3(Si,Ti) single-phase region became larger and less sensitive to the composition at higher temperatures above 1073 K, ranging between 22 W/mK and 24 W/mK.
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