Dynamic Mechanical and Creep-Recovery Behavior of Polymer-Based Composites 1st Edition

Dynamic Mechanical and Creep-Recovery Behavior of Polymer-Based Composites, 1st Edition — Akarsh Verma, Naman Jain, Sanjay M. R, Suchart Siengchin, Danuta Matykiewicz

Capture immediate attention with a definitive resource on the viscoelastic performance of modern polymer composites. This authoritative volume delivers clear, experimentally backed insights into dynamic mechanical analysis (DMA), creep-recovery testing, and advanced modeling of polymer-based composites—essential reading for materials scientists, mechanical and aerospace engineers, and composite specialists.

Dive into rigorous yet accessible explanations of time-temperature-frequency superposition, stress relaxation, and multi-scale interactions between matrix and reinforcement. The authors combine theoretical frameworks with practical case studies—covering fiber-reinforced, particulate, and nanocomposite systems—illustrating how microstructure, loading conditions, and environmental factors influence long-term performance.

Engineered to inform design and testing, the book helps readers predict durability, refine material selection, and optimize manufacturing for applications in aerospace, automotive, civil infrastructure, and biomechanics. Featuring best-practice experimental protocols, data interpretation strategies, and modeling approaches, it’s a go-to reference for researchers, graduate students, and R&D professionals across India, Europe, North America, and Asia.

If you require dependable guidance on creep-recovery behavior, dynamic mechanical properties, or viscoelastic modeling of polymer composites, this 1st Edition provides the technical depth and practical relevance you need. Enhance your materials knowledge and make more confident design decisions—order your copy today and stay at the forefront of composite materials research and engineering.

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