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Part-through cracks computation in an Euler–Bernoulli beam model
The reduction of the equations of a slender, brittle continuum to a one-dimensional theory and the possibility of accounting for the cracking of this...
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Event-triggered robust fault-tolerant control of a class of Euler–Bernoulli beam equations via sliding mode control
In this article, a robust fault-tolerant sliding mode controller is proposed for a class of non-homogeneous Euler–Bernoulli beams which contains...
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Sliding mode vibration control of an Euler–Bernoulli beam with unknown external disturbances
This paper addresses the stabilization problem of an Euler–Bernoulli beam system subject to an unknown time-varying distributed load and boundary...
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Thermoelectric interactions in Euler–Bernoulli microbeams under the influence of a thermal pulse via the size-dependent couple stress model
A novel comparative examination is conducted on homogeneous flexible microbeams to explore the impact of various electrical voltage sources on their...
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Dynamic analysis of high-speed train moving on perforated Timoshenko and Euler–Bernoulli beams
This study investigates the numerical simulation of the interaction between a high-speed train and perforated beams. The perforated bridge beam is...
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Equivalent Models of an Infinite Track for Frequency and Time Domain Analyses
PurposeRailway track models for the study of train-track interaction are generally based on beam structures on viscoelastic foundations and...
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On the Calculation of Differential Parametrizations for the Feedforward Control of an Euler–Bernoulli Beam
We are concerned with the motion planning for underactuated Euler–Bernoulli beams. The design of the feedforward control is based on a differential... -
A numerical study on an infinite linear elastic Bernoulli-Euler beam on a viscoelastic foundation subjected to harmonic line loads
This paper presents a numerical study on the low-amplitude responses of an infinite Bernoulli-Euler beam resting on a viscoelastic foundation...
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Beam Models: Refinement and Reduction
We here study the beam theory that has served for long time as the ’bread and butter’ to structural engineers. We first present the beam theory as... -
Dynamics and buckling loads for a vibrating damped Euler–Bernoulli beam connected to an inhomogeneous foundation
In this paper, the dynamics and the buckling loads for an Euler–Bernoulli beam resting on an inhomogeneous elastic, Winkler foundation are studied....
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Dynamics of a Euler–Bernoulli beam on nonlinear viscoelastic foundations: a parameter space analysis
The dynamics and spectrum of vibrations of an uniform Euler–Bernoulli beam on nonlinear viscoelastic foundations are investigated in parameter space....
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Investigation of Thermoelastic Wave Propagation in Euler–Bernoulli Beam via Nonlocal Strain Gradient Elasticity and G-N Theory
The size-dependent effect arising in micro/nano-structures has attracted considerable attention in academic and industrial communities. The theories...
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Influence of beam models on dynamic responses of ballasted railway track subjected to moving loads
This research presents a development of the dynamical model for ballasted railway tracks by combining two models: a periodically supported beam model...
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Beam Model
This chapter provides thorough analyses of the dynamics of axially moving beams. The equations of motion are derived using diverse beam theories: the... -
Variation of fraction in FOPID controller for vibration control of Euler–Bernoulli beam
Fractional-order derivatives and integrals have gained serious attention by the researchers in past few decades. It has been observed that fractional...
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Dynamic modeling and infinite-dimensional observer-based control for manipulation of flexible beam by a multi-link robot
This paper concerns an infinite-dimensional observer for manipulation of flexible beam by a rigid arm robot. The complex dynamic of the system is...
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Optimum design of vibration absorber for cracked beam under the effect of moving concentrated force utilizing genetic optimization algorithm
This study presents a multi-objective optimization method for designing a vibration absorber to reduce the vibrations of a cracked Euler–Bernoulli...
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Application of Spectral Stochastic Finite Element via Galerkin Method in Beam Bending Theories
In stochastic structural mechanics it is possible to associate uncertainties with material properties, geometry, and external loading, whereas... -
Comparison of finite element methods for dynamic analysis about rotating flexible beam
Dynamic analysis of flexible body under large rotation becomes increasingly important in many engineering applications. This work takes rotating...
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On the role of mass distribution in free vibration of Hencky beam models: discrete and nonlocal continuous approaches
In this paper, we investigate the role of mass distribution on the vibration frequencies of various discrete Hencky-type beam models. These models...