Optimisation of hybrid high-modulus/high-strength carbon fibre reinforced plastic composite drive shafts

Montagnier, Olivier; Hochard, Christian

doi:10.1016/j.matdes.2012.09.035

Cited by 46 publications

(16 citation statements)

References 28 publications

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“…Montagnier and Hochard [9] studied the optimization of hybrid composite drive shafts operating at subcritical or supercritical speeds, using a genetic algorithm. Rocha et al [10] presented a genetic algorithm combining two types of computational parallelization methods, resulting in a hybrid shared/distributed memory algorithm based on the island model using both Open MP and…”

Section: Literature Reviewmentioning

confidence: 99%

Analysis of Stresses of Graphite /Epoxy Composite Plate using HYPERMESH

Krishna¹,

Tjprc²

2018

IJMPERD

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This work also contains, a number of Finite element analyses carried out for various aspect ratios and modulus ratios to study the effect of stresses of laminated composite plates subjected to tensile load.The HYPERMESH results showed, on the stresses. The effect of increasing the aspect ratio is to decrease the stresses.The composite plate has been analyzed various modulus ratios and their effects on stresses so as to find the optimized conditions.

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Section: Literature Reviewmentioning

confidence: 99%

Analysis of Stresses of Graphite /Epoxy Composite Plate using HYPERMESH

Krishna¹,

Tjprc²

2018

IJMPERD

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“…Montaignier and Hochard [38] performed optimization of a hybrid helicopter tail rotor composite shaft operating at sub-and super-critical speeds. Genetic algorithm is used.…”

Section: Composite Shaft Optimizationmentioning

confidence: 99%

Composite Shaft Rotor Dynamics: An Overview

Gupta

2014

Mechanisms and Machine Science

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This paper summarizes research on dynamics of composite shafts, with an objective to develop light weight rotor systems. A review of available literature post-1996 is presented here, since a comprehensive review on similar topic was published in 1997 by Singh et al. Specifically the various aspects covered are, theories for dynamic analysis of fiber reinforced composite shaft, their modeling and analysis, experimental work, and design optimization procedures. All these aspects are important for full development of 'Composite Rotors' for light weight high performance transmission systems. Directions for future research are outlined.

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“…Badi et al investigated the effects of fiber orientation angles and stacking sequence on the dynamics of an automotive drive shaft using FEM. Montagnier and Hochard studied dynamics of a composite shaft supported by viscoelastic bearings using Timoshenko beam theory.…”

Section: Introductionmentioning

confidence: 99%

Dynamic analysis of nonlinear rotating composite shafts excited by non‐ideal energy source

Kafi

Hosseini

2019

Z Angew Math Mech

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In this article, nonlinear nonstationary vibration of a rotating composite shaft passing through critical speed excited by non-ideal energy source is investigated. Geometrical nonlinearity, gyroscopic effect, rotary inertia and coupling due to material anisotropy are considered, while shear deformation is neglected. By using Hamilton principle, axial-flexural-flexural-torsional-rotational equations of motion for a composite shaft with variable rotational speed are derived. External source is assumed as non-ideal that causes the interaction between external torque and vibrating system.To obtain the approximate analytical solution, perturbation theory (multiple scales method) is applied to reduce the equations in the neighborhood of the first critical speed. Although, the analysis is done for the first critical speed, one-mode discretization is not enough. Indeed, at least two modes is required to obtain accurate results.The effects of external damping, eccentricity, angle of fibers, resistive torque, nonlinear terms, and also the effect of the extensional-torsional coupling on occurrence of Sommerfeld effect are investigated. It is shown that nonlinearity and coupling possess significant effect on the prediction of Sommerfeld phenomenon. Moreover, as observed, with appropriate implementation of layup and stacking sequence, one can obtain the best performance for the nonstationary behavior of composite shaft. K E Y W O R D Scomposite rotor, multiple-scales method, non-ideal source, nonstationary motion, sommerfeld effect

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Optimisation of hybrid high-modulus/high-strength carbon fibre reinforced plastic composite drive shafts

Cited by 46 publications

References 28 publications

Analysis of Stresses of Graphite /Epoxy Composite Plate using HYPERMESH

Analysis of Stresses of Graphite /Epoxy Composite Plate using HYPERMESH

Composite Shaft Rotor Dynamics: An Overview

Dynamic analysis of nonlinear rotating composite shafts excited by non‐ideal energy source

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