In-situ synthesis via laser metal deposition of a lean Cu–3.4 Cr–0.6 Nb (at%) conductive alloy hardened by Cr nano-scale precipitates and by Laves phase micro …
Conductive and yet strong copper alloys are essential materials in highly mechanically
loaded electrical devices. We demonstrate a novel in-situ synthesis approach via laser metal …
loaded electrical devices. We demonstrate a novel in-situ synthesis approach via laser metal …
Effect of grain size on the electrical conductivity of copper–iron alloys
Copper–iron alloys (CFAs) are a much anticipated class of materials for electrical contacts,
magnetic recordings, and sensors. In this study, Cu 100-x Fe x alloys (x= 10, 30, or 50 …
magnetic recordings, and sensors. In this study, Cu 100-x Fe x alloys (x= 10, 30, or 50 …
Effect of composition and powder size on magnetic properties of rapidly solidified copper-iron alloys
SF Abbas, KT Park, TS Kim - Journal of Alloys and Compounds, 2018 - Elsevier
Powders of copper-iron alloys with composition of 10, 30 and 50 at% Fe were prepared by
gas atomization process, sintered by Spark Plasma Sintering. The analysis of the as …
gas atomization process, sintered by Spark Plasma Sintering. The analysis of the as …
Laser powder bed fusion of electrically/thermally conductive component by developing inert Cr2O3-coated Cu powder
R Zheng, S Li, RDK Misra, K Kondoh, Y Yang - Additive Manufacturing, 2023 - Elsevier
To enhance the compatibility of Cu with laser powder bed fusion, pre-alloying or powder
surface modification of introducing high laser-absorbing alloying elements is currently …
surface modification of introducing high laser-absorbing alloying elements is currently …
Phase formation of rapidly quenched Cu–Si alloys
N Mattern, R Seyrich, L Wilde, C Baehtz… - Journal of alloys and …, 2007 - Elsevier
The influence of rapid quenching on the phase formation of Cu–Si alloys was investigated
for silicon contents between 10 and 30at.%. Rapid quenching leads to formation of different …
for silicon contents between 10 and 30at.%. Rapid quenching leads to formation of different …
[HTML][HTML] In-situ fabrication of yttria dispersed copper alloys through MA-HIP process
Abstract Yttria (Y 2 O 3) dispersed copper alloys were fabricated by an in-situ process
combining Mechanical Alloying (MA) and Hot Isostatic Pressing (HIP). In this process, CuO …
combining Mechanical Alloying (MA) and Hot Isostatic Pressing (HIP). In this process, CuO …
Surface strengthening of Ti3SiC2 through magnetron sputtering Cu and subsequent annealing
H Guo, J Zhang, F Li, Y Liu, J Yin, Y Zhou - Journal of the European …, 2008 - Elsevier
Magnetron sputtering deposition Cu and subsequent annealing in the temperature range of
900–1100° C for 30–60min were conducted with the motivation to modify the surface …
900–1100° C for 30–60min were conducted with the motivation to modify the surface …
High-temperature lean Cu alloys with Cr-to-Nb atomic ratio of 2
Abstract Two Cu-Cr-Nb alloys, denoted as alloy 1 (comprising Cu-0.89 at% Cr-0.42 at% Nb)
and alloy 2 (comprising Cu-1.84 at% Cr-0.99 at% Nb), were produced through a series of …
and alloy 2 (comprising Cu-1.84 at% Cr-0.99 at% Nb), were produced through a series of …
Microstructural evolution and microhardness of a melt-spun Al–6Ni–2Cu–1Si (in wt.%) alloy
E Karakoese, T Karaaslan, M Keskin, O Uzun - journal of materials …, 2008 - Elsevier
Al–Ni–Cu–Si alloy with nominal composition of Al–6wt.% Ni–2wt.% Cu–1wt.% Si alloy were
rapidly solidified by the using melt spinning technique to examine the influence of the …
rapidly solidified by the using melt spinning technique to examine the influence of the …
Investigations on the formation of multi-modal size distribution of mechanochemically processed Cu-Y-CuO powders
In order to improve the high-temperature stability of copper (Cu) alloys, which have a range
of applications because of their high conductivity, an in-situ mechanochemical process …
of applications because of their high conductivity, an in-situ mechanochemical process …