Bingchuan Bian
Topological Optimization of Buckling
Mitarbeit:Huazhong University of Science and Technology
Bingchuan Bian
Topological Optimization of Buckling
Mitarbeit:Huazhong University of Science and Technology
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This book discusses the application of independent continuous mapping method in predicting and the optimization of the mechanical performance of buckling with displacement, stress and static constrains. Each model is explained by mathematical theories and followed by simulation with frequently-used softwares. With abundant project data, the book is an essential reference for mechanical engineers, structural engineers and industrial designers.
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This book discusses the application of independent continuous mapping method in predicting and the optimization of the mechanical performance of buckling with displacement, stress and static constrains. Each model is explained by mathematical theories and followed by simulation with frequently-used softwares. With abundant project data, the book is an essential reference for mechanical engineers, structural engineers and industrial designers.
Produktdetails
- Produktdetails
- Verlag: De Gruyter
- Seitenzahl: 352
- Erscheinungstermin: 24. September 2018
- Englisch
- Abmessung: 246mm x 175mm x 25mm
- Gewicht: 747g
- ISBN-13: 9783110461169
- ISBN-10: 3110461161
- Artikelnr.: 50305880
- Verlag: De Gruyter
- Seitenzahl: 352
- Erscheinungstermin: 24. September 2018
- Englisch
- Abmessung: 246mm x 175mm x 25mm
- Gewicht: 747g
- ISBN-13: 9783110461169
- ISBN-10: 3110461161
- Artikelnr.: 50305880
Bingchuan Bian, Taishan University, Taian, China
Table of Content:
Chapter I Introduction
1.1 Background
1.2 Current development
1.3 Software platform
1.4 Key topics in buckling topological optimization research
Chapter 2 Topological optimization for continuous structure with bulking constrain
2.1 introduction
2.2 ICM (indeedent continuous mapping) method
2.3 Determination of Filter Function
2.4 Model estblishment and realization
2.5 Solution to optimization
2.6 Optimization strategy
2.7 Constrain selection
2.8 Optimization algrithms
2.9 Numerical simulation and case study
2.10 Summary
Chapter 3 Topological optimization for continuous structure with bulking and dispacement constrain
3.1 Introduction
3.2 Model establishment and solution
3.3 Optimization strategy
3.4 Constrain selection
3.5 Optimization algrithms
3.6 Numerical simulation and case study
3.7 Summary
Chapter 4 Topological optimization for continuous structure with bulking and stress constrain
4.1 Introduction
4.2 Deformation energy
4.3 The therotical background of deformation energy
4.4 Strain revision cofficient
4.5 Model establishment and solution
4.6 Optimization strategy
4.7 Constrain selection
4.8 Optimization algrithms
4.9 Numerical simulation and case study
4.10 Summary
Chapter 5 Topological optimization for continuous structure with static constrain
5.1 Introduction
5.2 Model establishment and solution
5.3 Upper limit for constrain
5.4 Optimization algrithms
5.5 Numerical simulation and case study
5.6 Summary
Chapter 6 Software and user instruction
6.1 Introduction
6.2 User interface introduction
6.3 Set up for analysis and output
6.4 Topological Optimization menu and inputs
6.5 Output and Result menu
6.6 Summary
Chapter 7 Engineering applications
7.1 Introduction
7.2 System optimization in industry via mixed programming
7.3 Topological optimization in the design of power transformer lifting lug
7.4 Finate element method and topological optimization in small-sized transformer fuel tank
7.5 Topological optimization in the design of vacuum tank
Chapter 8 Prospect
Chapter I Introduction
1.1 Background
1.2 Current development
1.3 Software platform
1.4 Key topics in buckling topological optimization research
Chapter 2 Topological optimization for continuous structure with bulking constrain
2.1 introduction
2.2 ICM (indeedent continuous mapping) method
2.3 Determination of Filter Function
2.4 Model estblishment and realization
2.5 Solution to optimization
2.6 Optimization strategy
2.7 Constrain selection
2.8 Optimization algrithms
2.9 Numerical simulation and case study
2.10 Summary
Chapter 3 Topological optimization for continuous structure with bulking and dispacement constrain
3.1 Introduction
3.2 Model establishment and solution
3.3 Optimization strategy
3.4 Constrain selection
3.5 Optimization algrithms
3.6 Numerical simulation and case study
3.7 Summary
Chapter 4 Topological optimization for continuous structure with bulking and stress constrain
4.1 Introduction
4.2 Deformation energy
4.3 The therotical background of deformation energy
4.4 Strain revision cofficient
4.5 Model establishment and solution
4.6 Optimization strategy
4.7 Constrain selection
4.8 Optimization algrithms
4.9 Numerical simulation and case study
4.10 Summary
Chapter 5 Topological optimization for continuous structure with static constrain
5.1 Introduction
5.2 Model establishment and solution
5.3 Upper limit for constrain
5.4 Optimization algrithms
5.5 Numerical simulation and case study
5.6 Summary
Chapter 6 Software and user instruction
6.1 Introduction
6.2 User interface introduction
6.3 Set up for analysis and output
6.4 Topological Optimization menu and inputs
6.5 Output and Result menu
6.6 Summary
Chapter 7 Engineering applications
7.1 Introduction
7.2 System optimization in industry via mixed programming
7.3 Topological optimization in the design of power transformer lifting lug
7.4 Finate element method and topological optimization in small-sized transformer fuel tank
7.5 Topological optimization in the design of vacuum tank
Chapter 8 Prospect
Table of Content:
Chapter I Introduction
1.1 Background
1.2 Current development
1.3 Software platform
1.4 Key topics in buckling topological optimization research
Chapter 2 Topological optimization for continuous structure with bulking constrain
2.1 introduction
2.2 ICM (indeedent continuous mapping) method
2.3 Determination of Filter Function
2.4 Model estblishment and realization
2.5 Solution to optimization
2.6 Optimization strategy
2.7 Constrain selection
2.8 Optimization algrithms
2.9 Numerical simulation and case study
2.10 Summary
Chapter 3 Topological optimization for continuous structure with bulking and dispacement constrain
3.1 Introduction
3.2 Model establishment and solution
3.3 Optimization strategy
3.4 Constrain selection
3.5 Optimization algrithms
3.6 Numerical simulation and case study
3.7 Summary
Chapter 4 Topological optimization for continuous structure with bulking and stress constrain
4.1 Introduction
4.2 Deformation energy
4.3 The therotical background of deformation energy
4.4 Strain revision cofficient
4.5 Model establishment and solution
4.6 Optimization strategy
4.7 Constrain selection
4.8 Optimization algrithms
4.9 Numerical simulation and case study
4.10 Summary
Chapter 5 Topological optimization for continuous structure with static constrain
5.1 Introduction
5.2 Model establishment and solution
5.3 Upper limit for constrain
5.4 Optimization algrithms
5.5 Numerical simulation and case study
5.6 Summary
Chapter 6 Software and user instruction
6.1 Introduction
6.2 User interface introduction
6.3 Set up for analysis and output
6.4 Topological Optimization menu and inputs
6.5 Output and Result menu
6.6 Summary
Chapter 7 Engineering applications
7.1 Introduction
7.2 System optimization in industry via mixed programming
7.3 Topological optimization in the design of power transformer lifting lug
7.4 Finate element method and topological optimization in small-sized transformer fuel tank
7.5 Topological optimization in the design of vacuum tank
Chapter 8 Prospect
Chapter I Introduction
1.1 Background
1.2 Current development
1.3 Software platform
1.4 Key topics in buckling topological optimization research
Chapter 2 Topological optimization for continuous structure with bulking constrain
2.1 introduction
2.2 ICM (indeedent continuous mapping) method
2.3 Determination of Filter Function
2.4 Model estblishment and realization
2.5 Solution to optimization
2.6 Optimization strategy
2.7 Constrain selection
2.8 Optimization algrithms
2.9 Numerical simulation and case study
2.10 Summary
Chapter 3 Topological optimization for continuous structure with bulking and dispacement constrain
3.1 Introduction
3.2 Model establishment and solution
3.3 Optimization strategy
3.4 Constrain selection
3.5 Optimization algrithms
3.6 Numerical simulation and case study
3.7 Summary
Chapter 4 Topological optimization for continuous structure with bulking and stress constrain
4.1 Introduction
4.2 Deformation energy
4.3 The therotical background of deformation energy
4.4 Strain revision cofficient
4.5 Model establishment and solution
4.6 Optimization strategy
4.7 Constrain selection
4.8 Optimization algrithms
4.9 Numerical simulation and case study
4.10 Summary
Chapter 5 Topological optimization for continuous structure with static constrain
5.1 Introduction
5.2 Model establishment and solution
5.3 Upper limit for constrain
5.4 Optimization algrithms
5.5 Numerical simulation and case study
5.6 Summary
Chapter 6 Software and user instruction
6.1 Introduction
6.2 User interface introduction
6.3 Set up for analysis and output
6.4 Topological Optimization menu and inputs
6.5 Output and Result menu
6.6 Summary
Chapter 7 Engineering applications
7.1 Introduction
7.2 System optimization in industry via mixed programming
7.3 Topological optimization in the design of power transformer lifting lug
7.4 Finate element method and topological optimization in small-sized transformer fuel tank
7.5 Topological optimization in the design of vacuum tank
Chapter 8 Prospect