Mechanics of Carbon Nanotubes Fundamentals, Modeling and Safety
Auteur : Harik Vasyl
1. Nanotechnology of Carbon Nanotubes: Sensors, Transistors and Nanocomposites2. Nanoscale Laws of Motion and Governing Equations for Atomic and Continuum Scales3. Nanomechanics of Graphene Sheets and Atomic Registry Matrix Analysis4. Classification of Carbon Nanotubes: 20 Classes of Atomic Structures5. Mechanics of the High Aspect Ratio Carbon Nanotubes: Beam Models, Nanoscale Buckling, Nanobeams and Phonons6. Mechanics of Carbon Nanotubes: Shell Models, Chiral Formulations and Nanoscale Buckling7. Mechanics of Multiwall Carbon Nanotubes: Unique Structures, Beam and Shell Models, Sliding and Friction8. Carbon Nanotubes in Nanocomposites9. Nanoscale Interfaces in Nanocomposites and Friction Laws10. Constitutive Modeling of Multifunctional Nanocomposites: Electromechanical, Thermomechanical and Elastomagnetic Properties11. Carbon Nanotube Length and Criteria for Potential Toxicity12. Trends in Recent Publications on Mechanics of Carbon Nanotubes
-Carbon nanotube engineers
-Postgraduate students
- Provides a system for the classification of carbon nanotubes, aiding correct selection for various applications
- Includes the Matrix Registry Analysis for nanoscale interfaces that is essential for design involving friction or sliding
- Features parametric maps to help readers pick the right model for a particular CNT geometry (beam vs. shell vs. thin or thick shells, etc.)
- Presents a thorough examination of the safety issues related to CNTs, including toxicity at high aspect ratio
Date de parution : 07-2018
Ouvrage de 326 p.
19x23.3 cm
Thèmes de Mechanics of Carbon Nanotubes :
Mots-clés :
Asbestos analogy; Atomic potentials; Atomic registry; Atomic registry of lattices; Beam models; Beam-like nanotubes; Biomedical applications; Buckling modes; Carbon nanotubes; Chiral formulation; Classification of nanotubes; Conductivity of nanocomposites; Constitutive relations; Electro-mechanical coupling; Friction laws; Graphene; Graphene sheets; Health effects; High aspect ratio; High aspect ratio effect; Interfaces; Interfacial friction; Interfacial sliding; Interfacial structure; Length effects; Magneto-elastic effects; Material properties; Mechanics of carbon nanotubes; Molecular dynamics simulations; Multi-physics modeling; Multi-wall carbon nanotubes; Multifunctional nanocomposites; Nanobeams; Nanocomposites; Nanocrystals; Nanomechanics; Nanoscale buckling; Nanoscale effects; Nanoscale equations; Nanoscale friction; Nanoscale homogenization; Nanoscale interfaces; Nanoscale laws; Nanoscale sliding; Nanoscale stress; Nanotechnology applications; Phagocytosis; Phonons; Poisson's effect; Porosity; Registry matrix analysis; Rules of mixture; Safety; Shell models; Shell-like nanotubes; Thickness paradox; Thickness-to-radius ratio; Timoshenko beam model; Toxicity of carbon nanotubes; Trends in publications; Tsai-Halpin relation