Abstract
A two-degree-of-freedom shape memory oscillator derived using polynomial constitutive model is investigated. Periodic, quasiperiodic, chaotic, and hyperchaotic oscillations are shown by the shape memory alloy based oscillator for selected values of the operating temperatures and excitation parameters. Bifurcation plots are derived to investigate the system behavior with change in parameters. A fractional order model of the shape memory oscillator is presented and dynamical behavior of the system with fractional orders and parameters are investigated.
Highlights
Research ArticleKarthikeyan Rajagopal ,1,2 Anitha Karthikeyan, Prakash Duraisamy, and Riessom Weldegiorgis
A shape memory alloy (SMA) shows temperature and stress induced martensitic phase transformation, drastically changing the material’s mechanical properties
We study the bifurcation of the FO2DOFSMA with fractional order q and parameter θ2
Summary
Karthikeyan Rajagopal ,1,2 Anitha Karthikeyan, Prakash Duraisamy, and Riessom Weldegiorgis. A two-degree-of-freedom shape memory oscillator derived using polynomial constitutive model is investigated. Quasiperiodic, chaotic, and hyperchaotic oscillations are shown by the shape memory alloy based oscillator for selected values of the operating temperatures and excitation parameters. Bifurcation plots are derived to investigate the system behavior with change in parameters. A fractional order model of the shape memory oscillator is presented and dynamical behavior of the system with fractional orders and parameters are investigated
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