Microstructure and elastocaloric effect of NiTi shape memory alloy in-situ synthesized by laser directed energy deposition additive manufacturing

The NiTi SMAs were successfully in-situ synthesized by LDED additive manufacturing, and the microstructural evolution and elastocaloric effect of the NiTi SMAs along parallel and perpendicular to the build direction (BD) were investigated. The NiTi SMAs at room temperature consisted of B2 austenite,...

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Bibliographic Details
Published in:Materials characterization 2024-04, Vol.210, p.113831, Article 113831
Main Authors: Wang, Shuyao, Shi, Yongjun, Fan, Kaijun, Wang, Qin, Li, Ying, Teng, Xiangjie
Format: Article
Language:English
Subjects:
Additive manufacturing
Elastocaloric effect
Laser directed energy deposition
Martensitic phase transformation
Shape memory alloys
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Summary:The NiTi SMAs were successfully in-situ synthesized by LDED additive manufacturing, and the microstructural evolution and elastocaloric effect of the NiTi SMAs along parallel and perpendicular to the build direction (BD) were investigated. The NiTi SMAs at room temperature consisted of B2 austenite, B19’ martensite and the precipitation phase Ti2Ni, which was diffusely distributed within the B2 grains and at grain boundaries. Grain morphology that crosses the molten pool boundary and elongates along the thermal gradient is found in the plane parallel to the BD direction. NiTi SMAs loaded perpendicular to the BD direction have less energy loss and fewer stress mechanical training times to obtain fully recoverable stress-strain behavior, which shows better stress-strain response behavior than that loaded parallel to the BD direction. The maximum strain and adiabatic temperature changes follow a monotonically increasing trend from the maximum stress when the compressive stress was applied along parallel and perpendicular to the BD direction and rapidly removed. When the 900 MPa stress was removed, the adiabatic temperature changes reached −5.2 K and −5.9 K, respectively. The degradation of the elastocaloric effect of loading parallel to the BD direction reaches 15% after 100 stress-strain cycles (800 MPa). In contrast, the degradation of loading perpendicular to the BD direction is negligible. This work provides a new idea to realize the preparation of NiTi SMAs and to study the elastocaloric effect of NiTi SMAs. [Display omitted] •NiTi shape memory alloys can realize solid-state cooling technology.•Microstructure of NiTi SMAs prepared by LDED in different directions was analyzed.•Elastocaloric of NiTi SMAs along different directions were studied.•Cyclic stability of elastocaloric effect along different directions was compared.
ISSN:1044-5803
1873-4189
DOI:10.1016/j.matchar.2024.113831