Differential-integral quadrature numerical solution for free and forced vibration of bidirectional functionally graded Terfenol-D curved beam
Mukund A. Patil, Ravikiran Kadoli, Suvarna Saraf, Susmita Naskar
Abstract
The dynamic behaviour of a bidirectional functionally graded Terfenol-D curved beam under a moving load is the focus of this study. Combined differential and integral quadrature solve the curved beam boundary value problem. A bidirectional functionally graded Terfenol-D curved beam's damping, damped frequencies for different boundary conditions, and mode shapes were examined in free vibration investigations. Based on accessible literature data, the findings are reliable. Furthermore, DQ-IQ numerical technique findings examine the impact of many factors, including control gain, thickness, moving load velocity, bidirectional gradation index, and multi-moving load.
Topics & Concepts
Boundary value problemQuadrature (astronomy)Nyström methodVibrationBeam (structure)Moving loadTerfenol-DMathematicsMathematical analysisStructural engineeringPhysicsAcousticsEngineeringOpticsMagnetostrictionMagnetic fieldQuantum mechanicsComposite Structure Analysis and OptimizationVibration and Dynamic AnalysisNumerical methods in engineering