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Comparative study of Sc and Er addition on microstructure, mechanical properties, and electrical conductivity of Al-0.2Zr-based alloy cables

Authors :
H. Wang
Danqing Yi
Bin Wang
Jiayi Zhang
Haisheng Wang
Source :
Materials Characterization. 145:126-134
Publication Year :
2018
Publisher :
Elsevier BV, 2018.

Abstract

The effect of the addition of 0.1 wt% Sc and 0.1 wt% Er on the deformation microstructure, Vickers microhardness, and electrical conductivity of Al-0.2 wt% Zr-based alloy cables annealed at 400 °C for different times was investigated. The comprehensive properties of Al-0.2Zr-0.1Sc were better than those of Al-0.2Zr-0.1Er. The optimal conditions for the Al-0.2Zr-01Sc alloy cable were a microhardness of 575 MPa, an electrical conductivity of 34.5 MS/m for an annealing time of 36 h, and those for the Al-0.2Zr-0.1Er alloy cable were a microhardness of 550 MPa, an electrical conductivity of 33.6 MS/m for an annealing time of 8 h. During the annealing process, dispersed Al3(Zr,Sc/Er) precipitates were generated, which substantially impeded recrystallization by Zener pining of grain boundaries. Based on the ratio of volume fraction (FV) to average diameter ( d ¯ ) of the precipitates, their capability to inhibit recrystallization was as follows: Al3(Zr, Sc) > Al3(Zr, Er) > Al3Zr. Moreover, the electrical conductivity of Al-0.2Zr-0.1Sc was better than that of Al-0.2Zr-0.1Er, probably because Sc could better inhibit recrystallization than Er, leading to fewer grain boundaries and hence lesser electron scattering.

Details

ISSN :
10445803
Volume :
145
Database :
OpenAIRE
Journal :
Materials Characterization
Accession number :
edsair.doi...........7ca3a3e574cdd3e315c20d104549dc83