Journal ArticleDOI
Influence of nonlinear elastomer on isolated lag dynamics and rotor/fuselage aeromechanical stability
TLDR
In this paper, the effect of nonlinearities of an elastomeric bearing on isolated lag dynamics and coupled rotor/fuselage ground resonance stability of an idealized bearingless rotor blade is studied.Abstract:
This paper presents a study on the effect of nonlinearities of an elastomeric bearing on isolated lag dynamics and coupled rotor/fuselage ground resonance stability of an idealized bearingless rotor blade. The rotor blade is modeled as an elastic beam with a nonlinear elastomer and a rigid torque tube. First, amplitudedependent natural frequency of the blade in lag mode is analyzed using numerical perturbation technique. Then the problem of amplitudedependent stability of the coupled rotor/fuselage system under ground resonance condition is investigated. The stability of the system is analyzed by two approaches, namely, 1) by eigenanalysis of the linearized equations and 2) by response of the nonlinear system to an initial disturbance by time integration. The results of the eigenanalysis indicate that the effect of amplitude seems to be more dominant on the progressive lag mode damping than on regressive lag mode damping. It is also observed that so far as the stability in ground resonance is concerned there exist optimum locations for the attachment of both the elastomer and torque tube. Results of the time-domain analysis of the nonlinear equations indicate clearly that the stability of the system is dependent on the magnitude of initial disturbance.read more
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Journal ArticleDOI
Free vibration analysis of a rotating beam with nonlinear spring and mass system
S. K. Das,P. C. Ray,G. Pohit +2 more
TL;DR: In this paper, the free, out-plane vibration of a rotating beam with nonlinear spring-mass system has been investigated, where the nonlinear constraint is connected to the beam between two points on the beam through a rigid rod.
Journal ArticleDOI
Effect of cracks on nonlinear flexural vibration of rotating Timoshenko functionally graded material beam having large amplitude motion
B. Panigrahi,G. Pohit +1 more
Abstract: This study investigates the stiffening effect due to rotation on the nonlinear vibrational characteristics for cracked Timoshenko beam for the first time. Fixed end of the beam is attached to a rotating hub. Functionally graded material is taken into consideration, in which the properties vary as a continuous function along the depth of the beam. An elastic mass-less rotational spring is assumed in the place of crack, which splits the beam into two different parts. The point on the neutral axis at the fixed end is assumed to be the center of rotation of the beam. Centrifugal force is considered to act towards the spanwise direction and along the neutral axis. An additional displacement due to rotation of the beam along with the centrifugal force is incorporated with the energy formulation. Timoshenko beam theory and classical Ritz method is employed to derive the governing equations. In order to solve the nonlinear governing equations, direct substitution iterative technique is used. Effects of various parameters such as rotating speeds, radius of hub, depth of crack, location of crack, and different functionally graded material properties on linear and nonlinear vibration characteristics are studied. Validity of the present methodology is assured by comparing the results with some of the results from the existing literatures.
Journal ArticleDOI
Large Amplitude Free Vibration Analysis of a Rotating Beam with Non-linear Spring and Mass System:
S. K. Das,P. C. Ray,G. Pohit +2 more
TL;DR: In this article, the free, out-of-plane vibration of a rotating beam with a non-linear spring-mass system was investigated and the solution was obtained by applying the method of multiple time-scales directly to the nonlinear partial differential equations and the boundary conditions.
Journal ArticleDOI
Large Amplitude Free Vibration of a Rotating Nonhomogeneous Beam With Nonlinear Spring and Mass System
TL;DR: In this paper, the free out-of-plane vibration of a rotating nonhomogeneous beam with nonlinear spring and mass system was investigated and the solution was obtained by applying the method of multiple time scales directly to the nonlinear partial differential equations and the boundary conditions.
Reference BookDOI
Linear and Non-Linear Deformations of Elastic Solids
Arabinda Roy,Rasajit Kumar Bera +1 more
TL;DR: Linear and Non-Linear Deformations of Elastic Solids as discussed by the authors aims to compile the advances in the field of linear and non-linear elasticity through discussion of advanced topics.
References
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Journal ArticleDOI
A Theoretical Basis for the Application of Fractional Calculus to Viscoelasticity
Ronald L. Bagley,Peter J. Torvik +1 more
TL;DR: In this article, the authors established a link between molecular theories that predict the macroscopic behavior of certain viscoelastic media and an empirically developed fractional calculus approach to visco-elasticity.
Journal ArticleDOI
Time Domain Modeling of Linear Viscoelasticity Using Anelastic Displacement Fields
TL;DR: In this paper, a time domain model of linear viscoelasticity is developed based on a decomposition of the total displacement field into two parts: one elastic, the other anelastic.
Journal ArticleDOI
Nonlinear Behavior of an Elastomeric Lag Damper Undergoing Dual-Frequency Motion and its Effect on Rotor Dynamics
Journal ArticleDOI
Nonlinear vibrations of a beam-spring-mass system
Mehmet Pakdemirli,Ali H. Nayfeh +1 more
TL;DR: In this paper, the nonlinear response of a simply supported beam with an attached spring-mass system to a primary resonance is investigated, taking into account the effects of beam midplane stretching and damping.
Journal ArticleDOI
A time-domain non-linear viscoelastic damper model
Farhan Gandhi,Inderjit Chopra +1 more
TL;DR: In this paper, a viscoelastic solid model consisting of a combination of linear and non-linear springs and dashpots is developed to represent an elastomeric damper, and a nonlinear constitutive differential equation is derived to characterize the damper behaviour in the time domain.
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