Analytic detection of chaos zones in response of a shape memory alloy beam under simultaneous external and parametric excitations
Alireza Asnafi
Abstract
ABTRACTIn this article, the dynamic stability and chaotic behavior of a shape memory alloy (SMA) beam with large deformation under simultaneous lateral and axial excitations is investigated through a fully analytic approach. First, the nonlinear governing equation of motion is derived. Second, Melnikov’s method, as an analytic approach, is employed to obtain the chaos zones. After that, by introducing non-dimensional parameters, border curves of chaotic areas were evaluated and plotted for some case studies which give a reader a precise and clear look at how the material and load properties can affect the chaos zones. Finally, the sufficient condition is approved via corresponding poincaré maps.
Topics & Concepts
ChaoticParametric statisticsBeam (structure)Nonlinear systemShape-memory alloyStability (learning theory)SMA*CHAOS (operating system)MechanicsClassical mechanicsPhysicsMathematical analysisMathematicsComputer scienceOpticsAlgorithmQuantum mechanicsMachine learningArtificial intelligenceComputer securityStatisticsElasticity and Wave PropagationShape Memory Alloy TransformationsNonlinear Dynamics and Pattern Formation