Description
Characterization Techniques for Advanced Polymer Composite Materials outlines methods for assessing the properties of advanced polymer composite materials, discussing sample preparation, microscopy and scattering techniques, data analysis and interpretation, microstructure identification, constitutive models, and more. It introduces the constituting laws of soft materials and demonstrates how to identify microstructure based on microscopy images. Techniques for measuring the thermal properties, electrical, and thermal characterization of these materials are covered including scanning electron microscopy, transmission electron microscopy, focused ion beam microscopy, as well as scattering techniques such as wide-angle X-ray, small-angle x-ray, and small-angle neutron. Each chapter starts with a brief explanation of the characterization technique followed by practical examples demonstrating methods of interpreting experimental results.- Focuses on the experimental characterization of the microstructure, thermomechanical, and electrical properties of polymer composites and nanocomposites- Discusses sample preparation for characterization, outlining various mixing methods and emphasizing the importance of uniform dispersion and homogeneity of fillers or reinforcements- Provides methods for experimental data analysis and microstructure identification for heterogeneous materials and polymer-based composites- Examines different constitutive models and their application to soft materials- Analyzes the thermal, electrical, mechanical, and microstructural properties of polymer nanocomposites, shape memory polymers, and polymer composites
Table of Contents
1. Sample Preparation for Characterization of Polymer Composites and Nanocomposites2. Microscopy and Microstructure Identification of Polymer Composites and Nanocomposites3. Material Characterization with Scattering Techniques4. Constitutive Models of Soft Materials5. Thermal Characterization of Advanced Materials6. Electrical Characterization of Advanced Materials7. Thermomechanical Characterization of Advanced Materials
