Aslan Ahadi scite author profile

Selective laser melting has been applied as a production technique of nickel titanium (NiTi) parts. In this study, the scanning parameters and atmosphere control used during production were varied to assess the effects on the final component transformation criteria. Two production runs were completed: one in a high (*1800 ppm O 2 ) and one in a low-oxygen (*220 ppm O 2 ) environment. Further solution treatment was applied to analyze precipitation effects. It was found that the transformation temperature varies greatly even at identical energy densities highlighting the need for further in-depth investigations. In this respect, it was observed that oxidation was the dominating factor, increased with higher laser power adapted to higher scanning velocity. Once the atmospheric oxygen content was lowered from 1800 to about 220 ppm, a much smaller variation of transformation temperatures was obtained. In addition to oxidation, other contributing factors, such as nickel depletion (via evaporation during processing) as well as thermal stresses and textures, are further discussed and/or postulated. These results demonstrated the importance of processing and material conditions such as O 2 content, powder composition, and laser scanning parameters. These parameters should be precisely controlled to reach desired transformation criteria for functional components made by SLM.

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Effects of grain size on phase transition behavior of nanocrystalline shape memory alloys

Sun

Ahadi

et al. 2014

Sci. China Technol. Sci.

100

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Grain size dependence of fracture toughness and crack-growth resistance of superelastic NiTi

Ahadi

Sun

2016

Scripta Materialia

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Reversible elastocaloric effect at ultra-low temperatures in nanocrystalline shape memory alloys

et al. 2019

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Grain size effects on NiTi shape memory alloy fatigue crack growth

et al. 2017

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Aslan Ahadi

Stress-induced nanoscale phase transition in superelastic NiTi by in situ X-ray diffraction

Effects of grain size on the rate-dependent thermomechanical responses of nanostructured superelastic NiTi

Stress hysteresis and temperature dependence of phase transition stress in nanostructured NiTi—Effects of grain size

On the Transformation Behavior of NiTi Shape-Memory Alloy Produced by SLM

Effects of grain size on phase transition behavior of nanocrystalline shape memory alloys

Grain size dependence of fracture toughness and crack-growth resistance of superelastic NiTi

Reversible elastocaloric effect at ultra-low temperatures in nanocrystalline shape memory alloys

Grain size effects on NiTi shape memory alloy fatigue crack growth

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