Thermal conductivity and electrical resistivity dependences on growth rate in the directionally solidified Al–Cu–Ni eutectic alloy - ScienceDirect
THERMAL CONDUCTIVITY OF COPPER-NICKEL AND SILVER-PALLADIUM ALLOY SYSTEMS C. Y. Ho, M. W. Ackerman, and K. Y. Wu Center for Infor
Effects of Nb Element on Mircostructure, Thermal Conductivity and Melting Point of Cu-Ni-Nb Alloy Prepared by Vacuum Arc-Melting | Scientific.Net
Figure 7 from THERMAL CONDUCTIVITY OF COPPER-NICKEL ALLOYS AT 4.2 K | Semantic Scholar
Figure 3 from THERMAL CONDUCTIVITY OF COPPER-NICKEL ALLOYS AT 4.2 K | Semantic Scholar
Figure 6 from THERMAL CONDUCTIVITY OF COPPER-NICKEL ALLOYS AT 4.2 K | Semantic Scholar
Copper Alloy 110 for Thermal Conductivity
Figure 5 from THERMAL CONDUCTIVITY OF COPPER-NICKEL ALLOYS AT 4.2 K | Semantic Scholar
Study on thermal conductivity and electrical resistivity of Al-Cu alloys obtained by Boltzmann transport equation and first-principles simulation: Semi-empirical approach - ScienceDirect
Copper Nickel (CuNi) | Coil elements, resistance wire, kilns, foam cutting | Resistance Wire | A Division of Hyndman
Copper-Nickel Alloys: Properties, Processing, Applications Source: German Copper Institute (DKI) 1. GENERAL INFORMATION ON Cu-Ni
Minimizing Thermal Conductivity for Boosting Thermoelectric Properties of Cu –Ni-Based Alloys through All-Scale Hierarchical Architectures | ACS Applied Energy Materials