Dynamic Mechanical And Creep Recovery Behavior Of Polymer Based Composites
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Dynamic Mechanical and Creep-Recovery Behavior of Polymer-Based Composites
Dynamic Mechanical and Creep-Recovery Behaviour of Polymer-Based Composites: Mechanical and Mathematical Modeling covers mathematical modelling, dynamic mechanical analysis, and the ways in which various factors impact the creep-recovery behaviour of polymer composites. The effects of polymer molecular weight, plasticizers, cross-linking agents, and chemical treatment of filler material are addressed and information on thermoplastic and thermosetting polymer-based composites is also covered, including their various applications and the advantages and disadvantages of their use in different settings. The final 2 chapters of the book cover mathematical modeling of creep-recovery behavior for polymer composites and software-based simulation of creep-recovery in polymer composites, respectively. Dynamic Mechanical and Creep-Recovery Behaviour of Polymer-Based Composites: Mechanical and Mathematical Modeling covers mathematical modelling, dynamic mechanical analysis, and the ways in which various factors impact the creep-recovery behaviour of polymer composites. The effects of polymer molecular weight, plasticizers, cross-linking agents, and chemical treatment of filler material are addressed and information on thermoplastic and thermosetting polymer-based composites is also covered, including their various applications and the advantages and disadvantages of their use in different settings. The final 2 chapters of the book cover mathematical modeling of creep-recovery behavior for polymer composites and software-based simulation of creep-recovery in polymer composites, respectively. - Analyzes the dynamic mechanical and creep-recovery behaviors of thermoplastic and thermosetting polymer composites in a variety of applications - Features diverse mechanical/mathematical models utilized to fit data collected from creep-recovery studies - Covers various factors that influence dynamic mechanical properties - Discusses the advantages and disadvantages of using these materials in different settings
Hybrid Composite Materials
The aim of this book is to provide readers with a better understanding of the experimental methods and computational modeling techniques employed in the characterizations of diverse hybrid composite materials. It covers the mechanisms, important aspects, characteristics, formulations, significant elements, and case studies of the hybrid composite materials used in a wide range of applications. To inspire researchers, the most recent studies in the field as well as potential directions for more study are also emphasized.
Advances in Polymer Composite Research
This book emphasizes the importance of experimental characterization techniques and computational modeling tools in polymer composites. The topics covered include finite element analysis, computational fluid dynamics, molecular dynamics simulations, machine learning, material informatics, multiscale modeling, advanced characterization techniques, and the emerging field of nanocomposites. Each chapter provides detailed discussions, case studies, and examples to illustrate the practical application of these techniques in polymer composite research. Features: Offers a comprehensive exploration of polymer composites encompassing both experimental and computational approaches. Showcases most recent findings, methodologies, technologies, and applications in the field. Explores real-world case studies, industrial applications, and potential commercialization opportunities. Discusses the understanding, analysis, and design of polymer composites. Includes LAMMPS-, Ansys-, ABAQUS-, and Materials Studio-based simulation examples. This book is aimed at graduate students and researchers in polymers, polymer composites, and materials science.