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Additive Manufacturing of Binary Ni–Ti Shape Memory Alloys Using Electron Beam Powder Bed Fusion: Functional Reversibility Through Minor Alloy Modification and Carbide Formation

Shape memory alloys (SMAs), such as Ni–Ti, are promising candidates for actuation and damping applications. Although processing of Ni–Ti bulk materials is challenging, well-established processing routes (i.e. casting, forging, wire drawing, laser cutting) enabled application in several niche applications, e.g. in the medical sector. Additive manufacturing, also referred to as 4D-printing in this case, is known to be highly interesting for the fabrication of SMAs in order to produce near-net-shaped actuators and dampers. The present study investigated the impact of electron beam powder bed fusion (PBF-EB/M) on the functional properties of C-rich Ni₅₀.₉Ti₄₉.₁ alloy. The results revealed a significant loss of Ni during PBF-EB/M processing. Process microstructure property relationships are discussed in view of the applied master alloy and powder processing route, i.e. vacuum induction-melting inert gas atomization (VIGA). Relatively high amounts of TiC, being already present in the master alloy and powder feedstock, are finely dispersed in the matrix upon PBF-EB/M. This leads to a local change in the chemical composition (depletion of Ti) and a pronounced shift of the transformation temperatures. Despite the high TiC content, superelastic testing revealed a good shape recovery and, thus, a negligible degradation in both, the as-built and the heat-treated state.

Sponsor
Gefördert im Rahmen des Projekts DEAL
Citation
In: Shape Memory and Superelasticity Volume 8 / Issue 4 (2022-11-30) , S. 452-462; eissn:2199-3858
@article{doi:10.17170/kobra-202301057316,
  author    ={Krooß, Philipp and Lauhoff, Christian and Gustmann, Tobias and Gemming, Thomas and Sobrero, Céscar E. and Ewald, Felix Clemens and Brenne, Florian and Arold, Tizian and Nematollahi, Mohammadreza and Elahinia, Mohammad and Thielsch, Juliane and Hufenbach, Julia Kristin and Niendorf, Thomas},
  title    ={Additive Manufacturing of Binary Ni–Ti Shape Memory Alloys Using Electron Beam Powder Bed Fusion: Functional Reversibility Through Minor Alloy Modification and Carbide Formation},
  keywords ={660 and Memory-Legierung and Rapid Prototyping  and Pseudoelastizität and Mikrostruktur and Schmelzen},
  copyright  ={http://creativecommons.org/licenses/by/4.0/},
  language ={en},
  journal  ={Shape Memory and Superelasticity},
  year   ={2022-11-30}
}