Aging and Degradation of Polymer Nanocomposites

Aging and Degradation of Polymer Nanocomposites by Md Amir Sohel, Asmita SenGupta, and Sabu Thomas delivers a compelling, authoritative guide for scientists, engineers, and industry professionals confronting the long-term performance challenges of advanced materials. This clear, research-driven volume captures cutting-edge insights into the mechanisms that govern polymer nanocomposite deterioration—from environmental stressors to thermal and mechanical fatigue—making it essential reading for materials scientists, R&D teams, and graduate students worldwide.

Discover concise explanations of degradation pathways, accelerated-aging protocols, and predictive models that link nanoscale structure to macroscopic durability. Rich with practical examples and comparative case studies, the book shows how nanoparticle type, dispersion, and interfacial chemistry influence mechanical properties, thermal stability, and service life across applications in automotive, aerospace, electronics, and infrastructure. Coverage emphasizes real-world relevance for labs and manufacturers in North America, Europe, and Asia, bridging academic theory and industrial practice.

Readers will gain actionable strategies for improving lifetime performance—choice of fillers, stabilization techniques, and testing methodologies—plus guidance on interpreting aging data for product design and regulatory compliance. Written in an accessible yet scholarly tone, this volume supports better decision-making in materials selection and predictive maintenance.

Whether you’re developing next-generation composites or assessing fielded components, Aging and Degradation of Polymer Nanocomposites is a practical, up-to-date resource that clarifies complex phenomena and enhances material reliability. Order your copy today to strengthen your work with evidence-based approaches to longevity and performance.

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