Ramona Henle
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View article: Precipitation and strengthening mechanisms in Cu-0.27wt.% Sc alloy: Linking thermomechanical treatment, microstructure and properties
Precipitation and strengthening mechanisms in Cu-0.27wt.% Sc alloy: Linking thermomechanical treatment, microstructure and properties Open
Enhanced mechanical and electrical conductivity of low alloyed Cu-Sc alloys were systematically investigated with a focus on precipitation, solid solution, and dislocation strengthening. A Cu-0.27 wt% Sc alloy subjected to 50 % cold rollin…
View article: Investigation of the Solid Solution Hardening Mechanism of Low-Alloyed Copper–Scandium Alloys
Investigation of the Solid Solution Hardening Mechanism of Low-Alloyed Copper–Scandium Alloys Open
The addition of alloying elements is a crucial factor in improving the mechanical properties of pure copper, particularly in terms of enhancing its yield strength and hardness. This study examines the influence of scandium additions (up to…
View article: DSC Analysis of the Effect of Cold Deformation on the Precipitation Kinetics of a Binary Cu-Sc Alloy
DSC Analysis of the Effect of Cold Deformation on the Precipitation Kinetics of a Binary Cu-Sc Alloy Open
The present study aimed to investigate the effect of cold deformation on the precipitation kinetics of a binary CuSc alloy containing 0.4 wt.% scandium using the experimental analysis method of differential scanning calorimetry (DSC). Non-…
View article: DSC Analysis of the Effect of Cold Deformation on the Precipitation Kinetics of a Binary Cu-SC Alloy
DSC Analysis of the Effect of Cold Deformation on the Precipitation Kinetics of a Binary Cu-SC Alloy Open
The present study aimed to investigate the effect of cold deformation on the precipitation kinetics of a binary CuSc alloy containing 0.4 wt.% scandium using the experimental analysis method of differential scanning calorimetry (DSC). Non-…
View article: Copper-Based Alloys with Optimized Hardness and High Conductivity: Research on Precipitation Hardening of Low-Alloyed Binary CuSc Alloys
Copper-Based Alloys with Optimized Hardness and High Conductivity: Research on Precipitation Hardening of Low-Alloyed Binary CuSc Alloys Open
Copper alloys, combining optimized strength with high electrical and thermal conductivity, are analyzed in-depth, in order to meet the increasing requirements of today’s and tomorrow’s applications in the electrical and automotive industri…