Timoshenko beam theory
Imperfection Sensitivity of Nonlinear Vibration of Curved Single-Walled Carbon Nanotubes Based on Nonlocal Timoshenko Beam Theory
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On the valid frequency range of Timoshenko beam theory
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A New Approach for Numerical Analysis of the RC Shear Walls Based on Timoshenko Beam Theory Combined with Bar-Concrete Interaction
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The second spectrum of Timoshenko beam theory Further assessment
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Analysis of high-speed rotating systems using Timoshenko beam theory in conjunction with the transfer matrix method
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ABSTRACT :In this study, a conversion factor between BEAM188 and SOLID186 elements is obtained in ANSYS.
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Nano-scale wave dispersion beyond the First Brillouin Zone simulated with inertia gradient continua
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Size effects on free vibration of heterogeneous beams
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Computationally efficient aeroelastic analysis tool for short wing/propeller configuration on compound helicopters
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Solving Elasto-Static Problem in Plane Stress Case By Meshfree Method Prof. Sanjaykumar D. Ambaliya *1 , Prof. Hemal N. Lakadawala 2
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Stress gradient, strain gradient and inertia gradient beam theories for the simulation of flexural wave dispersion in carbon nanotubes
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An exact dynamic stiffness matrix for a beam incorporating Rayleigh–Love and Timoshenko theories
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Bending and Free Vibration Analysis of Nonlocal Functionally Graded Nanocomposite Timoshenko Beam Model Rreinforced by SWBNNT Based on Modified Coupled Stress Theory
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A new method to study free transverse vibration of the human lumbar spine as segmental multi-layer Timoshenko and Euler–Bernoulli beams
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Biomechanics of hair cell kinocilia: experimental measurement of kinocilium shaft stiffness and base rotational stiffness with Euler–Bernoulli and Timoshenko beam analysis
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A High-Frequency Model of a Rectilinear Beam with a T-Shaped Cross Section
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Vibration characteristics of axially loaded tapered Timoshenko beams made of functionally graded materials by the power series method
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Effects of Pasternak layer on forced transverse vibration of a Timoshenko double beam system with compressive axial load
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