Polymer nanotube nanocomposites : synthesis, properties, and applications /

Since the publication of the successful first edition of the book in 2010, the field has matured and a large number of advancements have been made to the science of polymer nanotube nanocomposites (PNT) in terms of synthesis, filler surface modification, as well as properties. Moreover, a number of...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Mittal, Vikas
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, New Jersey : Scrivener Publishing / Wiley, [2014]
Edición:2nd edition.
Temas:
Nanotubes.
Nanocomposites (Materials)
Polymers.
Nanotubes
Nanocomposites
Polymers
Matériaux nanocomposites.
Polymères.
polymers.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Preface; 1 Polymer Nanotube Nanocomposites: A Review of Synthesis Methods, Properties and Applications; 1.1 Introduction; 1.2 Methods of Nanotube Nanocomposites Synthesis; 1.2.1 Direct Mixing; 1.2.2 Solution Mixing; 1.2.3 In-Situ Polymerization; 1.2.4 Melt Mixing; 1.3 Properties of Polymer Nanotube Nanocomposites; 1.3.1 Mechanical Properties; 1.3.2 Thermal Properties; 1.3.3 Electrical Properties; 1.3.4 Other Properties; 1.4 Applications; References; 2 Functionalization Strategies for Single-Walled Carbon Nanotubes Integration into Epoxy Matrices.
  • 2.1 Introduction2.1.1 SWCNTs in Composite Materials: The Case of Epoxy; 2.1.2 The Processing and Functionalization of SWCNTs; 2.2 Covalent Strategies for the Production of SWCNT/Epoxy Composites; 2.2.1 Oxidation of SWCNTs; 2.2.2 Functionalization with Terminal Amines; 2.2.3 Functionalization with Terminal Oxirane Rings; 2.2.4 Other Functional Groups; 2.3 Non-covalent Strategies for the Production of SWCNT/Epoxy Composites; 2.3.1 Adsorption of Reactive Species; 2.3.2 Adsorption of Non-reactive Species; 2.3.3 Dual-Affinity Adsorbed Species: The Use of Block Copolymers in SWCNT/Epoxy Composites.
  • 2.4 Effect of Functionalization on the Epoxy Physical Properties2.4.1 Static and Dynamic Mechanical Properties; 2.4.2 Thermal Behaviour and Stability; 2.4.3 Electrical Conductivity and Percolation Phenomena; 2.4.4 Combined Properties: Electromechanical Effects; 2.4.5 Other Physical Properties; 2.5 Applications of Functionalized SWCNTs in Epoxy Composites; 2.6 Concluding Remarks and Future Outlook; Acknowledgements; References; 3 Multiscale Modeling of Polymer-Nanotube Nanocomposites; 3.1 Introduction; 3.2 Molecular Modeling and Simulation of CNT-Polymer Nanocomposites.
  • 3.2.1 Molecular Dynamics and Molecular Mechanics3.2.2 Force Fields for CNTs and Engineering Polymers; 3.2.3 Molecular Modeling and Simulation Procedures for CNT/Polymer Composites; 3.3 Micromechanics Modeling and Simulation of CNT-Polymer Nanocomposites; 3.3.1 Equivalent Inclusion Model; 3.3.2 Mathematical Homogenization Model; 3.3.3 Description of the Interphase Zone; 3.3.4 Weakened Interface between CNT and Matrix; 3.3.5 Effect of CNT Waviness; 3.3.6 CNT Agglomeration; 3.4 Fully Integrated Multiscale Model for Elastoplastic Behavior with Imperfect Interface.
  • 3.4.1 Hierarchical Integration of the Molecular Dynamics and Continuum Model3.4.2 Two-Step Multiscale Model for the Elastoplastic Behavior of CNT-Polymer Composites; 3.5 Conclusion and Perspective on Future Trends; References; 4 SEM and TEM Characterization of Polymer CNT Nanocomposites; 4.1 Introduction; 4.2 Imaging CNTs in Polymer Matrices by SEM; 4.3 Mechanical Properties of CNT/Polymer Nanocomposites by In-Situ SEM; 4.4 Imaging CNT in Polymer Matrices by TEM; 4.5 Mechanical Properties of CNT/Polymer Nanocomposites by In-Situ TEM; 4.6 Conclusions and Future Outlook; Acknowledgement.

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