Shape Memory Alloy (SMA) dynamical systems may exhibit a rich response that can include periodic, quasi-periodic, chaotic and hyperchaotic behaviors. In this regard, diagnostic tools are important in order to identify the different types of behaviors. This paper aims to analyze systems with SMA elements through a nonlinear dynamics perspective with a specific focus on the use of 0–1 test to quantify the chaoticity of the dynamical response of SMA oscillators. The investigation includes different constitutive models for the restitution force on both single- and two-degree of freedom oscillators. Results of the 0–1 test are compared with Lyapunov exponents calculated with different algorithms. The analyses show that the 0–1 test can be consid...
The dynamical response of systems with shape memory alloy (SMA) presents a different behavior due to...
A constitutive model for the restoring force in pseudoelastic shape memory oscillators is proposed. ...
This paper aimed to explore analytically the influences of random excitation on a shape memory alloy...
It is well known that dynamical systems that include devices based on shape memory alloys (SMA) can ...
The dynamical response of systems with shape memory alloy (SMA) elements presents a rich behavior du...
The nonlinear dynamics of Shape Memory Alloys (SMA) oscillators with pseudoelastic behaviour has bee...
The recurrence analysis is a promising tool for diagnostics of periodic and chaotic solutions, as we...
In this two-part paper the problem of evaluating robustness and strength of chaos in thermomechanica...
In this paper, the dynamical response of a coupled oscillator is investigated, taking in considerati...
In this two-part paper the problem of evaluating robustness and strength of chaos in thermomechanica...
Shape memory oscillators are thermomechanical hysteretic systems that, in a wide range of model para...
The remarkable properties of shape memory alloys have been motivating the interest in applications i...
Shape memory materials exhibit strong thermomechanical coupling, so that temperature variations occu...
International audienceShape Memory Alloys (SMAs) present unusual behaviour compared to more standard...
The nonlinear dynamics of Shape Memory Alloys (SMA) oscillators has been studied by various authors ...
The dynamical response of systems with shape memory alloy (SMA) presents a different behavior due to...
A constitutive model for the restoring force in pseudoelastic shape memory oscillators is proposed. ...
This paper aimed to explore analytically the influences of random excitation on a shape memory alloy...
It is well known that dynamical systems that include devices based on shape memory alloys (SMA) can ...
The dynamical response of systems with shape memory alloy (SMA) elements presents a rich behavior du...
The nonlinear dynamics of Shape Memory Alloys (SMA) oscillators with pseudoelastic behaviour has bee...
The recurrence analysis is a promising tool for diagnostics of periodic and chaotic solutions, as we...
In this two-part paper the problem of evaluating robustness and strength of chaos in thermomechanica...
In this paper, the dynamical response of a coupled oscillator is investigated, taking in considerati...
In this two-part paper the problem of evaluating robustness and strength of chaos in thermomechanica...
Shape memory oscillators are thermomechanical hysteretic systems that, in a wide range of model para...
The remarkable properties of shape memory alloys have been motivating the interest in applications i...
Shape memory materials exhibit strong thermomechanical coupling, so that temperature variations occu...
International audienceShape Memory Alloys (SMAs) present unusual behaviour compared to more standard...
The nonlinear dynamics of Shape Memory Alloys (SMA) oscillators has been studied by various authors ...
The dynamical response of systems with shape memory alloy (SMA) presents a different behavior due to...
A constitutive model for the restoring force in pseudoelastic shape memory oscillators is proposed. ...
This paper aimed to explore analytically the influences of random excitation on a shape memory alloy...