Modelling, Solving and Applications for Topology Optimization of Continuum Structures: ICM Method Based on Step Function provides an introduction to the history of structural optimization, along with a summary of the existing state-of-the-art research on topology optimization of continuum structures. It systematically introduces basic concepts and principles of ICM method, also including modeling and solutions to complex engineering problems with different constraints and boundary conditions. The book features many numerical examples that are solved by the ICM method, helping researchers and…mehr
Modelling, Solving and Applications for Topology Optimization of Continuum Structures: ICM Method Based on Step Function provides an introduction to the history of structural optimization, along with a summary of the existing state-of-the-art research on topology optimization of continuum structures. It systematically introduces basic concepts and principles of ICM method, also including modeling and solutions to complex engineering problems with different constraints and boundary conditions. The book features many numerical examples that are solved by the ICM method, helping researchers and engineers solve their own problems on topology optimization. This valuable reference is ideal for researchers in structural optimization design, teachers and students in colleges and universities working, and majoring in, related engineering fields, and structural engineers.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Professor, College of mechanical engineering and applied electronics technology in the Beijing University of Technology, Beijing, China. His research fields are structural-multidisciplinary optimization, computational mechanics and applied mathematical programming. One of his main contributions is the proposition of ICM (Independent Continuous and Mapping) Method for Topology Optimization of Continuum Structures e is member of ISSMO (International Society for Structural and Multidisciplinary Optimization), the vice chairman of Beijing society of mechanics and the deputy editor in chief of Journal Engineering Mechanics. He has presided over many projects supported by Natural Science Foundation of China and industrial fields. He has published more than 400 papers, 6 academic monographs and obtained more than 40 software copyrights. He won 4 science awards including the second-class national award in natural sciences of China and the third-class national science and technology progress award.
Inhaltsangabe
1. Exordium2. Foundation of ICM (Independent Continuous and Mapping) Method3. Stress Constrained Topology Optimization for Continuum Structures4. Displacement Constrained Topology Optimization for Continuum Structures5. Topology Optimization for Continuum Structures with Stress and Displacement Constraints6. Topology Optimization for Continuum Structures with Frequency Constraints7. Topology Optimization with Displacement and Frequency Constraints for Continuum Structures8. Topology Optimization for Continuum Structures under Forced Harmonic Oscillation9. Topology Optimization with Buckling Constraints for Continuum Structures10. Other Correlative Methods
1. Exordium2. Foundation of ICM (Independent Continuous and Mapping) Method3. Stress Constrained Topology Optimization for Continuum Structures4. Displacement Constrained Topology Optimization for Continuum Structures5. Topology Optimization for Continuum Structures with Stress and Displacement Constraints6. Topology Optimization for Continuum Structures with Frequency Constraints7. Topology Optimization with Displacement and Frequency Constraints for Continuum Structures8. Topology Optimization for Continuum Structures under Forced Harmonic Oscillation9. Topology Optimization with Buckling Constraints for Continuum Structures10. Other Correlative Methods
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