[HTML][HTML] Laser powder bed fusion of a superelastic Cu-Al-Mn shape memory alloy
Dense and crack-free specimens of the shape memory alloy Cu 71.6 Al 17 Mn 11.4 (at.%)
were produced via laser powder bed fusion across a wide range of process parameters. The …
were produced via laser powder bed fusion across a wide range of process parameters. The …
Tailoring the superelastic properties of an additively manufactured Cu–Al–Mn shape memory alloy via adjusting the scanning strategy
The effects of the scan vector rotation angle in adjacent layers during laser powder bed
fusion of a Cu 71.6 Al 17 Mn 11.4 (at.%) shape memory alloy on the porosity, microstructure …
fusion of a Cu 71.6 Al 17 Mn 11.4 (at.%) shape memory alloy on the porosity, microstructure …
Effects of remelting on the properties of a superelastic Cu–Al–Mn shape memory alloy fabricated by laser powder bed fusion
N Babacan, S Pilz, J Hufenbach… - Shape Memory and …, 2023 - Springer
Laser powder bed fusion (LPBF) constitutes a promising alternative to directly produce Cu-
based shape memory parts with high superelasticity due to the fact that the grain size and …
based shape memory parts with high superelasticity due to the fact that the grain size and …
SMA bending bars as self-centering and damping devices
E Choi, B Mohammadzadeh… - Smart Materials and …, 2019 - iopscience.iop.org
This study proposed a new type of the shape memory alloy (SMA) bending bars with a new
clamping machine and investigated their bending and cyclic behavior subjected to pushing …
clamping machine and investigated their bending and cyclic behavior subjected to pushing …
On mechanical properties of NiTi SMA wires prestrained by cold rolling
E Choi, A Ostadrahimi, J Park - Smart Materials and Structures, 2020 - iopscience.iop.org
This study investigates mechanical properties and recovery stress of NiTi shape memory
alloy (SMA) wires prestrained by different degrees of cold rolling. Using differential scanning …
alloy (SMA) wires prestrained by different degrees of cold rolling. Using differential scanning …
[HTML][HTML] On the decrease in transformation stress in a bicrystal cu-al-mn shape-memory alloy during cyclic compressive deformation
The evolution of the inhomogeneous distribution of the transformation stress (σ s) and strain
fields with an increasing number of cycles in two differently orientated grains is investigated …
fields with an increasing number of cycles in two differently orientated grains is investigated …
Mechanical splicing of superelastic Cu–Al–Mn alloy bars with headed ends
This paper examines the feasibility of mechanical splicing using a steel coupler to connect
headed ends of superelastic Cu–Al–Mn alloy (Camalloy) bars and steel reinforcing bars to …
headed ends of superelastic Cu–Al–Mn alloy (Camalloy) bars and steel reinforcing bars to …
Feasibility of roll-threading superelastic Cu-Al-Mn SMA rods
S Kise, N Kataoka, R Takamatsu, M Nishida… - Journal of Materials in …, 2021 - ascelibrary.org
This paper examines the feasibility of roll-threading superelastic Cu-Al-Mn shape memory
allow (SMA) rods. The key idea behind this study was to perform roll-threading between …
allow (SMA) rods. The key idea behind this study was to perform roll-threading between …
Effect of processing parameters on the phase transformation of a high temperature copper-based shape memory alloy
SV Seyedmohammadi, GG Yapici - Journal of Materials Engineering and …, 2023 - Springer
In the present study, the influence of the processing parameters on the transformation
temperatures and microstructural evolution in a copper-based shape memory alloy was …
temperatures and microstructural evolution in a copper-based shape memory alloy was …
[HTML][HTML] An experimental evaluation of the microstructure, mechanical and functional fatigue properties of the boron-doped Cu-Al-Be SMA wires
An experimental evaluation of the microstructure, mechanical and functional fatigue
properties of the Cu-11.70 Al-0.45 Be doped with Bx (x= 0.05, 0.10, 0.12, and 0.14 wt%) …
properties of the Cu-11.70 Al-0.45 Be doped with Bx (x= 0.05, 0.10, 0.12, and 0.14 wt%) …