Applied Micromechanics of Complex Microstructures: Computational Modeling and Numerical Characterization

Applied Micromechanics of Complex Microstructures explains the fundamental concepts of continuum modeling of various complicated microstructures, covering nanocomposites, multi-phase composites, biomaterials, biological materials and more. The authors outline the calculation of effective mechanical and thermal properties, allowing readers to fully understand the step-by-step modeling and homogenization of complicated microstructures, and the book also features a chapter on microstructure hull and materials design. Modeling of complex samples with nonlinear properties such as neural tissue, bone microstructure, and liver tissue is also explained and analyzed. Applied Micromechanics of Complex Microstructures explains the fundamental concepts of continuum modeling of various complicated microstructures, covering nanocomposites, multi-phase composites, biomaterials, biological materials and more. The authors outline the calculation of effective mechanical and thermal properties, allowing readers to fully understand the step-by-step modeling and homogenization of complicated microstructures, and the book also features a chapter on microstructure hull and materials design. Modeling of complex samples with nonlinear properties such as neural tissue, bone microstructure, and liver tissue is also explained and analyzed. Applied Micromechanics of Complex Microstructures explains the fundamental concepts of continuum modeling of various complicated microstructures, covering nanocomposites, multi-phase composites, biomaterials, biological materials and more. The authors outline the calculation of effective mechanical and thermal properties, allowing readers to fully understand the step-by-step modeling and homogenization of complicated microstructures, and the book also features a chapter on microstructure hull and materials design. Modeling of complex samples with nonlinear properties such as neural tissue, bone microstructure, and liver tissue is also explained and analyzed. Explains the core concepts of continuum modeling of different complex microstructures including nanocomposites, multi-phase composites, biomaterials, and biological materials Provides detailed calculations of effective mechanical and thermal properties allowing the audience to understand the modeling and homogenization of complex microstructures Covers several methods for designing the microstructure of heterogeneous materials INDICE: 1. Introduction to Computational Modeling of Complex Microstructures2. Numerical Characterization of Micro and Nano-Composites3. Numerical Realization and Characterization of Random Heterogeneous Materials4. Numerical Characterization of Tissues5. Numerical Characterization of Voronoi Based Microstructures6. Numerical Modeling of Degraded Microstructures7. Microstructure Hull and Design

• ISBN: 978-0-443-18991-3
• Editorial: Elsevier
• Encuadernacion: Rústica
• Páginas: 275
• Fecha Publicación: 01/03/2023
• Nº Volúmenes: 1
• Idioma: Inglés