Mechanism investigation on high-performance Cu-Cr-Ti alloy via integrated computational materials engineering
In this work, the influence of different Ti additions on microstructure and property in Cu-Cr
alloys has been studied and the primary relationship of processing-microstructure-property
in Cu-Cr-Ti alloy has been constructed via the CALPHAD-based Integrated Computational
Materials Engineering (ICME) approach and experimental validation. The peak-aged Cu-0.5
Cr-0.2 Ti alloy offers an excellent combination of hardness 192.6 HV, tensile strength 629.3
MPa, yield strength 603.0 MPa, electrical conductivity 51.3% IACS and elongation 10.9 …
alloys has been studied and the primary relationship of processing-microstructure-property
in Cu-Cr-Ti alloy has been constructed via the CALPHAD-based Integrated Computational
Materials Engineering (ICME) approach and experimental validation. The peak-aged Cu-0.5
Cr-0.2 Ti alloy offers an excellent combination of hardness 192.6 HV, tensile strength 629.3
MPa, yield strength 603.0 MPa, electrical conductivity 51.3% IACS and elongation 10.9 …
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