Experimental Characterization, Predictive Mechanical and Thermal Modeling of Nanostructures and Their Polymer Composite focuses on the recent observations and predictions regarding the size-dependent mechanical properties, material properties and processing issues of carbon nanotubes (CNTs) and other nanostructured materials. The book takes various approaches, including dedicated characterization methods, theoretical approaches and computer simulations, providing a detailed examination of the fundamental mechanisms governing the deviations of the properties of CNTs and other nanostructured materials. The book explores their applications in materials science, mechanics, engineering, chemistry and physics due to their unique and appealing properties.
The use of such materials is, however, still largely limited due to the difficulty in tuning their properties and morphological and structural features.
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Table of Contents
1. Size-dependent elastic properties2. Functionalized materials at the nanoscale
3. Computational modeling in advanced composite materials
4. Thermal effects in nanostructured materials
5. Finite element modeling of damage phenomena in advanced composite materials
6. Computer simulation and theoretical prediction of nanostructured materials
7. Multi-scale modeling of polymer composites
8. Analysis of laminated shells and functionally graded plates
9. Design optimization of composite structures
10. Process-property relationships and modeling in composite manufacturing
