Force-displacement relationships for NiTi alloy helical springs by using ANSYS: Superelasticity and shape memory effect

• Main Authors: El Mtili, C. (Author), Hessissen, L. (Author), Khamlichi, A. (Author), Waqas Badar, H.M (Author)
• Format: Article
• Language: English
• Published: Akademiai Kiado ZRt. 2022
• Subjects: ANSYS; finite element analysis; helical spring; shape memory alloys; shape memory effect; superelasticity; thermomechanical loading
• Online Access: View Fulltext in Publisher

 Shape memory alloys are smart materials which have remarkable properties that promoted their use in a large variety of innovative applications. In this work, the shape memory effect and superelastic behavior of nickel-titanium helical spring was studied based on the finite element method. The three-dimensional constitutive model proposed by Auricchio has been used through the built-in library of ANSYS® Workbench 2020 R2 to simulate the superelastic effect and one-way shape memory effect which are exhibited by nickel-titanium alloy. Considering the first effect, the associated force-displacement curves were calculated as function of displacement amplitude. The influence of changing isothermal body temperature on the loading-unloading hysteretic response was studied. Convergence of the numerical model was assessed by comparison with experimental data taken from the literature. For the second effect, force-displacement curves that are associated to a complete one-way thermomechanical cycle were evaluated for different configurations of helical springs. Explicit correlations that can be applied for the purpose of helical spring's design were derived. © 2021 The Author(s).