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Non-isothermal finite element modeling of a shape memory alloy actuator using ANSYS
Authors:P Terriault  F Viens  V Brailovski
Affiliation:

Mechanical Engineering Department, École de technologie supérieure, Université du Québec, 1100 Notre-Dame Street West, Montreal, Que., Canada H3C 1K3

Abstract:Many applications involve actuated devices made of shape memory alloys, but the lack of efficient numerical tools hinders the development of such technologies. Software using a finite element method like ANSYS allows the user to predict complex responses of a system without extensive programming. In this paper, a homemade phenomenological 1D bilinear model is programmed through the USERMAT procedure in ANSYS. The model allows the representation of both mechanical and thermal hystereses. The martensitic transformation is controlled by transformation criteria similar to those used in conventional plasticity, and subcycles are modeled by a simple elastic return through the hysteresis. The model is validated through isothermal tensile testing, assisted two-way shape memory testing and stress generation testing, and a good agreement with experimental results is shown. Finally, thermomechanical response of a single-degree-of-freedom actuator is simulated as a typical application and a case study involving the shape change of a radio controlled aircraft wing shows the potential of the numerical simulations.
Keywords:Shape memory alloys  Superelasticity  Finite element method  ANSYS  Actuator  Hysteresis
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