Tailoring the superelastic properties of an additively manufactured Cu–Al–Mn shape memory alloy via adjusting the scanning strategy
J Hufenbach - Materials Science and Engineering: A, 2023 - Elsevier
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 …
Tailoring the Superelastic Properties of an Additively Manufactured Cu-Al-Mn Shape Memory Alloy Via Adjusting the Scanning Strategy
N Babacan, S Pilz, S Pauly, JK Hufenbach… - Available at SSRN … - papers.ssrn.com
The effect 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 …
of a Cu 71.6 Al 17 Mn 11.4 (at.%) shape memory alloy on the porosity, microstructure …
Tailoring the superelastic properties of an additively manufactured Cu–Al–Mn shape memory alloy via adjusting the scanning strategy
N Babacan, S Pilz, S Pauly, J Hufenbach… - Materials Science and …, 2023 - Elsevier
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 …