Details

Autor(en) / Beteiligte

• Raj, Sanjay Kumar
• Sahoo, Bamadev
• Nayak, Alok Ranjan
• Panda, L.N.

Titel

Parametrically excited axially accelerating viscoelastic beam subjected to time-varying axial speed, longitudinally varying axial tension and internal resonance

Ist Teil von

• International journal of non-linear mechanics, 2022-12, Vol.147, p.104213, Article 104213

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2022

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• The present work investigates the nonlinear characteristics of an axially moving viscoelastic beam of the Kelvin–Voigt model on a pulley mounting system. The equation of motion is developed by including the terms like external and internal damping, geometric cubic nonlinearity, Coriolis, time-dependent axial speed, and longitudinally varying axial tension. The direct perturbation method of multiple time scales (MMS) is adopted to get an approximate solution for the nonlinear integro-partial differential equation of motion which leads to a set of complex variable modulation equations. These modulated equations are solved numerically to study the trivial state stability plot considering the effect of the support stiffness parameter for the first time. In addition to this, the impact of material, and viscous damping parameters on stability boundary is also studied. Continuation algorithm is implemented to analyse the influence of the support stiffness parameter, internal and parametric detuning parameters, fluctuating velocity component, and longitudinal stiffness parameter on the stability and bifurcation of the steady state solutions. Variation in internal frequency detuning parameter and variable axial speed component reveals different kinds of equilibrium solution curves in the nonlinear travelling system. The stability and bifurcation features observed in the present nonlinear system with change in the above control parameters are interesting and also not available in the existing literature. •An analytical–numerical method is adopted to analyse the nonlinear vibration of an axially accelerating viscoelastic beam moving over pulley mounting system.•The axial speed is modelled as function of time while the variable longitudinal tension is modelled as a function of axial speed, pulley stiffness parameter and spatial co-ordinate.•The MMS is adopted to get an approximate solution for the nonlinear integro-partial differential equation of motion which leads to a set of complex variable modulation equations.•The modulated equations are solved numerically to study the trivial state stability plot considering the effect of the support stiffness parameter for the first time.•Continuation algorithm is used to evaluate the stability and bifurcation of the steady state solutions.