Journal ArticleDOI
Unified micromechanics of damping for unidirectional and off-axis fiber composites
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In this article, an integrated micromechanics methodology for the prediction of damping capacity in fiber-reinforced polymer matrix unidirectional composites has been developed.Abstract:
An integrated micromechanics methodology for the prediction of damping capacity in fiber-reinforced polymer matrix unidirectional composites has been developed. Explicit micromechanics equations based on hysteretic damping are presented relating the on-axis damping capacities to the fiber and matrix properties and fiber volume ratio. The damping capacities of unidirectional composites subjected to off-axis loading are synthesized from on-axis damping values. Predicted values correlate satisfactorily with experimental measurements. The hygro-thermal effect on the damping performance of unidirectional composites caused by temperature and moisture variations is also modeled. The damping contributions from interfacial friction between broken fibers and matrix are incorporated. Finally, the temperature rise in continuously vibrating composite plies is estimated. Application examples illustrate the significance of various parameters on the damping performance of unidirectional and off-axis fiber reinforced composites.read more
Citations
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Journal ArticleDOI
Damping studies in fiber-reinforced composites : a review
TL;DR: The status of research on damping in fiber-reinforced composite materials and structures with emphasis on polymer composites has been reviewed in this article, where the authors present damping studies involving macromechanical, micro-mechanical and viscoelastic (relaxation and creep) approaches.
Journal ArticleDOI
A study of fibre and interface parameters affecting the fatigue behaviour of natural fibre composites
TL;DR: The tension-tension fatigue behavior of different natural fiber reinforced plastics was investigated in this paper, where composites used were made of flax and jute yarns and wovens as reinforcements for epoxy resins, polyester resins and polypropylene.
Journal ArticleDOI
Effects of delaminations on the damped dynamic characteristics of composite laminates: analysis and experiments
TL;DR: In this paper, an analytical solution is developed for the prediction of natural frequencies, modes and modal damping in composite beams with delamination cracks, where the unknown kinematic perturbations induced by a delamination crack are treated as additional degrees of freedom.
Journal ArticleDOI
Micromechanical damping models for fiber-reinforced composites: a comparative study
TL;DR: In this article, the effect of the shape of fiber cross-section and fiber volume fraction on the various damping coefficients was studied through the application of viscoelastic correspondence principle to the model based on Eshelby's method and Mori-Tanaka approach.
Journal ArticleDOI
A study of damping in fiber-reinforced composites
TL;DR: In this paper, the results of the FEM/Strain energy investigations carried out to predict anisotropic-damping matrix comprising of loss factors η11, η22, and η12, were presented to evaluate composite material damping coefficients in various loading modes.
References
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Simplified composite micromechanics equations for hygral, thermal and mechanical properties
TL;DR: In this article, a unified set of composite micromechanics equations of simple form is summarized and described, which can be used to predict unidirectional composite (ply) geometric, mechanical, thermal and hygral properties using constituent material (fiber/matrix) properties.
Journal ArticleDOI
Effect of Fibre Orientation and Laminate Geometry on the Dynamic Properties of CFRP
Robert D. Adams,D.G.C. Bacon +1 more
TL;DR: Theoretical predictions have been made of the effect of fibre orienta tion and laminate geometry on the flexural and torsional damping and modulus of fiber reinforced composites as mentioned in this paper.
Journal ArticleDOI
Complex moduli of viscoelastic composites—II. Fiber reinforced materials
TL;DR: In this article, a correspondence principle is applied to derive expressions for effective complex moduli of fiber reinforced materials on the basis of expressions for elastic moduli, based on the correspondence principle established in a previous paper.
Journal ArticleDOI
The Damping and Dynamic Moduli of Symmetric Laminated Composite Beams—Theoretical and Experimental Results
R.G. Ni,Robert D. Adams +1 more
TL;DR: In this paper, a method for predicting the dynamic properties of laminated composite beams has been developed, which can be used to predict the structural and structural properties of composite beams, as well as their dynamic properties.
Journal ArticleDOI
Dynamic Mechanical Behavior of Fiber-Reinforced Composites: Measurement and Analysis:
Ronald F. Gibson,Robert Plunkett +1 more
TL;DR: In this paper, the internal damping and elastic stiffness of E-glass fiber-reinforced epoxy beams under flexural vibration was analyzed and experimental efforts were made to find the internal stiffness and damping.
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