Topology optimization in engineering structure design /

Topology Optimization in Engineering Structure Design�i�A�explores the recent advances and applications of topology optimization in engineering structures design, with a particular focus on aircraft and aerospace structural systems. To meet the increasingly complex e...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Zhang, Weihong (Autor), Zhu, Jihong (Autor), Gao, Tong (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Oxford, UK : ISTE Press Ltd ; Elsevier Ltd, 2016.
Temas:
Structural optimization.
Topology.
Engineering design.
Optimisation des structures.
Topologie.
Conception technique.
MATHEMATICS > Topology.
TECHNOLOGY & ENGINEERING > Civil > General.
Engineering design
Structural optimization
Topology
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Topology Optimization in Engineering Structure Design
  • Copyright
  • Contents
  • Introduction
  • Chapter 1. Standard Material Layout Design
  • 1.1. Basic formulations of topology optimization
  • 1.2. Typical application of standard topology optimization
  • 1.3. Topology optimization of cellular materials and structures
  • 1.4. Conclusions
  • Chapter 2. Low-Density Areas in Topology Optimization
  • 2.1. Localized mode in low-density areas
  • 2.2. Localized deformation
  • 2.3. Polynomial interpolation model
  • 2.4. Breakdown issue in ESO
  • 2.5. Conclusions
  • Chapter 3. Dynamic Problems
  • 3.1. Introduction
  • 3.2. Analysis methods for harmonic force excitations
  • 3.3. Topology optimization under harmonic force excitations
  • 3.4. Analysis methods for stationary random force excitations
  • 3.5. Topology optimization under stationary random force excitation
  • 3.6. Conclusions
  • Chapter 4. Thermo-Elastic Problems
  • 4.1. Introduction
  • 4.2. Thermo-elastic analysis
  • 4.3. Thermo-elastic topology optimization with single material
  • 4.4. Thermo-elastic topology optimization with multiple materials
  • 4.5. Distinction between mean compliance and elastic strain energy
  • 4.6. Conclusions
  • Chapter 5. Integrated Layout and Topology Optimization
  • 5.1. Introduction to integrated optimization
  • 5.2. Finite-circle method
  • 5.3. Density points and embedded meshing
  • 5.4. MPC-based component-structure connections
  • 5.5. Integrated optimization based on implicit model
  • 5.6. Conclusions
  • Chapter 6. Optimization with Constraints on Multifastener Joint Loads
  • 6.1. Introduction
  • 6.2. Joint load calculation and sensitivity analysis
  • 6.3. Numerical examples and discussions
  • 6.4. Conclusions
  • Chapter 7. Potential Applications of Topology Optimization
  • 7.1. Shape-preserving design
  • 7.2. Smart structure design.
  • 7.3. Structural features design
  • 7.4. Topology optimization and additive manufacturing
  • Bibliography
  • Index
  • Back Cover.

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