Damping in Fiber Reinforced Composite Materials 1st Edition

Damping in Fiber Reinforced Composite Materials — 1st Edition by Pramod Kumar, S.P. Singh, and Sumit Sharma delivers a focused, authoritative guide for engineers, researchers, and advanced students tackling vibration and damping challenges in modern composite structures.

Discover clear, practical explanations of how damping arises in fiber reinforced composites, from viscoelastic matrix behavior to fiber–matrix interactions and interface effects. The authors blend theoretical insight with engineering intuition to explain analytical models, experimental characterization, and design-ready approaches for improving vibration control in aerospace, automotive, wind energy, and civil engineering applications.

This book stands out for its balance of rigor and usability: concise derivations, illustrative figures, and application-focused discussion make complex topics accessible without sacrificing depth. Learn how material selection, layup design, and damping treatments influence modal damping, shear energy dissipation, and dynamic response — critical knowledge for composite component design and failure mitigation.

Whether you are designing lightweight aircraft panels, automotive components, or high-performance sporting goods, this volume equips you with the tools to diagnose vibration issues and specify effective damping strategies. Its global relevance makes it valuable to professionals and academics across India, Europe, North America, and beyond who work with polymer-matrix and hybrid composite systems.

Add Damping in Fiber Reinforced Composite Materials (1st Edition) to your technical library for a concise, applied reference that bridges materials science and structural dynamics. Ideal as a course supplement or a hands-on desk reference, it helps you turn complex damping phenomena into practical engineering solutions. Order your copy today and strengthen your designs with proven damping insights.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.