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Zinoviev P.A., Ermakov Y.N. Energy Dissipation in Composite Materials
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Technomic Publishing Company, Inc., 1994. — 265 p. — ISBN 1-56676-082-8.Рассеяние энергии в композитных материалахAll real materials in one way or another, exhibit a departure from ideal elastic behaviour, even at very small strain values. Under cyclic deformation, these departtures result in irreversible energy losses in material. The causes of such losses are many, and include the irreversibletransfer of mechanical energy into heat, growth of cracks and other defects, and the microplastic deformaton of crystals to name a few. Several terms have been suggested to define these phenomena including damping, energy dissipation, imperfect elasticity and internal friction. This book is about materials damping; with damping or energy dissipation processes in vibrating solids. Read more...
Abstract: All real materials in one way or another, exhibit a departure from ideal elastic behaviour, even at very small strain values. Under cyclic deformation, these departtures result in irreversible energy losses in material. The causes of such losses are many, and include the irreversibletransfer of mechanical energy into heat, growth of cracks and other defects, and the microplastic deformaton of crystals to name a few. Several terms have been suggested to define these phenomena including damping, energy dissipation, imperfect elasticity and internal friction. This book is about materials damping; with damping or energy dissipation processes in vibrating solids.Main Methods of Approach to Describing the Phenomenon of Internal Friction in Solids
Methods for Experimental Investigation of Energy Dissipation Response
General Information on Energy Dissipation in Composites
Elasto-Dissipative Characteristics (EDC) of Anisotropic Bodies
Dissipative Response of Unidirectional Fiber Reinforced Composites: Structural Method of Approach
Effective Viscoelastic Characteristics of Fiber Reinforced Composites
Extreme Properties of the Dissipative Behavior of a Transversely Isotropic Monolayer (Unidirectional Composite)
Dissipative Properties of Multilayered Composites
Energy Dissipation in Vibrating Composite Bars
Problems of Rational Reinforcement
Abstract: All real materials in one way or another, exhibit a departure from ideal elastic behaviour, even at very small strain values. Under cyclic deformation, these departtures result in irreversible energy losses in material. The causes of such losses are many, and include the irreversibletransfer of mechanical energy into heat, growth of cracks and other defects, and the microplastic deformaton of crystals to name a few. Several terms have been suggested to define these phenomena including damping, energy dissipation, imperfect elasticity and internal friction. This book is about materials damping; with damping or energy dissipation processes in vibrating solids.Main Methods of Approach to Describing the Phenomenon of Internal Friction in Solids
Methods for Experimental Investigation of Energy Dissipation Response
General Information on Energy Dissipation in Composites
Elasto-Dissipative Characteristics (EDC) of Anisotropic Bodies
Dissipative Response of Unidirectional Fiber Reinforced Composites: Structural Method of Approach
Effective Viscoelastic Characteristics of Fiber Reinforced Composites
Extreme Properties of the Dissipative Behavior of a Transversely Isotropic Monolayer (Unidirectional Composite)
Dissipative Properties of Multilayered Composites
Energy Dissipation in Vibrating Composite Bars
Problems of Rational Reinforcement
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