基本介紹
- 書名:船舶與海洋結構物結構設計與分析
- 作者:王迎光
- 出版日期:2013年7月1日
- 語種:英語
- ISBN:9787313098696
- 外文名:Marine Structural Analysis and Design
- 出版社:上海交通大學出版社有限公司
- 頁數:220頁
- 開本:16
- 品牌:上海交通大學出版社
內容簡介,圖書目錄,
內容簡介
《船舶與海洋結構物結構設計與分析(英文版)》是國內第一本有關船舶與海洋結構物結構設計與分析的全英文教材,這是本教材的一個突破。本教材的特點是概念闡述簡明清晰,理論推導嚴密詳盡,並穿插配合工程套用實例說明,目的是使學生通過工程套用實例來加深對船舶與海洋結構物結構設計與分析基本原理和基本概念的理解,以期收到事半功倍的效果。本教材的重點是以結構靜力學和動力學為基礎,研究船舶與海洋結構物結構設計與分析的外載荷計算、結構動力回響、結構規範設計、結構直接計算法設計等。本書由王迎光編。
圖書目錄
Chapter 1 Introduction to marine structural design
1.1 The traditional design method
1.1.1 The evolutionary process
1.1.2 A ship structural design example
1.1.3 The changes to the traditional design method
1.2 The modern design method
1.2.1 The first-principles-based approach
1.2.2 The design procedure
1.2.3 Benefits of the modern approach
Chapter 2 Marine structural design fundamentals
2.1 Structural arrangements design
2.1.1 Subdivision arrangement
2.1.2 Compartment arrangement
2.1.3 Access arrangement
2.2 Structural materials
2.2.1 Introduction to materials
2.2.2 Standard steels used for hull and other structure
2.2.3 High strength steel used for hull and other structures
2.2.4 Selection for steel grades
2.2.5 Other ship materials
2.2.6 An example of ship materials used for a dredging barge
2.3 Welding
2.3.1 The base types of welding joints
2.3.2 The base types of welding line
2.3.3 Stud welding
2.3.4 The determination of the weld size
2.3.5 A welding design example
2.4 Classification societies and their rules
2.4.1 Classification societies
2.4.2 Class rules, regulations and guides
Chapter 3 Leads and loads combinations
3.1 Environmental considerations
3.2 Loads
3.2.1 Static loads
3.2.2 The wave induced loads
3.2.3 The hydrodynamic loads
3.2.4 The sloshing loads
3.2.5 The impact loads
3.2.6 Other loads types
3.3 Loads combinations
3.4 Strength modeling and development of strength criteria
Chapter 4 Marine structural initial design
4.1 Hull girder strength and shearing strength
4.2 Hull structural members design
4.2.1 Plating design
4.2.2 Longitudinals and girders design
4.2.3 Bulkhead design
4.3 An example of hull structural members design-pillar design
4.3.1 Basic design of pillars
4.3.2 Some requirements for the pillars in rules
4.3.3 Regulations of pillars on different types of ships
4.4 Superstructure design
4.4.1 The interaction between the superstructure and the main hull
4.4.2 The design of superstructures
4.4.3 The failure of superstructures and prevention measures
4.5 Introduction to structures of various kinds of ships
4.5.1 Oil tankers
4.5.2 Bulk carriers
4.5.3 Container ships
Chapter 5 Marine structural design analysis
5.1 Total strength assessment
5.1.1 Yielding strength
5.1.2 Buckling and ultimate strength
5.1.3 Fatigue strength
5.2 Strength criteria
5.2.1 General introduction
5.2.2 Yielding criteria
5.2.3 Buckling and ultimate strength criteria
5.2.4 Fatigue criteria
5.3 Finite element analysis (FEA)
5.3.1 The developmental history of the finite element analysis
5.3.2 The basic idea of the finite element method
5.3.3 A finite element analysis exampl~-a 75,000 DWT bulk carrier
5.4 Spectral fatigue analysis of ship structures
5.5 The transverse strength analysis of a ship
Chapter 6 Marine structural design optimization
6.1 The introduction to the optimization
6.2 The categorization methods for optimization problems
6.2.1 Continuous versus discrete optimization
6.2.2 Constrained and unconstrained optimization
6.2.3 Global and local optimization
6.2.4 Deterministic and stochastic optimization
6.3 An example~the optimization of stiffened panels
6.3.1 Introduction to stiffened plates
6.3.2 The numerical solution method for a stiffened panel
6.3.3 Summarization
6.4 Another example-the optimization of a T-bar
6.4.1 The problem raised and the model established
6.4.2 Analytical solution method
6.4.3 Finite Element Analysis solution method
6.4.4 Comments on each solution method
References
1.1 The traditional design method
1.1.1 The evolutionary process
1.1.2 A ship structural design example
1.1.3 The changes to the traditional design method
1.2 The modern design method
1.2.1 The first-principles-based approach
1.2.2 The design procedure
1.2.3 Benefits of the modern approach
Chapter 2 Marine structural design fundamentals
2.1 Structural arrangements design
2.1.1 Subdivision arrangement
2.1.2 Compartment arrangement
2.1.3 Access arrangement
2.2 Structural materials
2.2.1 Introduction to materials
2.2.2 Standard steels used for hull and other structure
2.2.3 High strength steel used for hull and other structures
2.2.4 Selection for steel grades
2.2.5 Other ship materials
2.2.6 An example of ship materials used for a dredging barge
2.3 Welding
2.3.1 The base types of welding joints
2.3.2 The base types of welding line
2.3.3 Stud welding
2.3.4 The determination of the weld size
2.3.5 A welding design example
2.4 Classification societies and their rules
2.4.1 Classification societies
2.4.2 Class rules, regulations and guides
Chapter 3 Leads and loads combinations
3.1 Environmental considerations
3.2 Loads
3.2.1 Static loads
3.2.2 The wave induced loads
3.2.3 The hydrodynamic loads
3.2.4 The sloshing loads
3.2.5 The impact loads
3.2.6 Other loads types
3.3 Loads combinations
3.4 Strength modeling and development of strength criteria
Chapter 4 Marine structural initial design
4.1 Hull girder strength and shearing strength
4.2 Hull structural members design
4.2.1 Plating design
4.2.2 Longitudinals and girders design
4.2.3 Bulkhead design
4.3 An example of hull structural members design-pillar design
4.3.1 Basic design of pillars
4.3.2 Some requirements for the pillars in rules
4.3.3 Regulations of pillars on different types of ships
4.4 Superstructure design
4.4.1 The interaction between the superstructure and the main hull
4.4.2 The design of superstructures
4.4.3 The failure of superstructures and prevention measures
4.5 Introduction to structures of various kinds of ships
4.5.1 Oil tankers
4.5.2 Bulk carriers
4.5.3 Container ships
Chapter 5 Marine structural design analysis
5.1 Total strength assessment
5.1.1 Yielding strength
5.1.2 Buckling and ultimate strength
5.1.3 Fatigue strength
5.2 Strength criteria
5.2.1 General introduction
5.2.2 Yielding criteria
5.2.3 Buckling and ultimate strength criteria
5.2.4 Fatigue criteria
5.3 Finite element analysis (FEA)
5.3.1 The developmental history of the finite element analysis
5.3.2 The basic idea of the finite element method
5.3.3 A finite element analysis exampl~-a 75,000 DWT bulk carrier
5.4 Spectral fatigue analysis of ship structures
5.5 The transverse strength analysis of a ship
Chapter 6 Marine structural design optimization
6.1 The introduction to the optimization
6.2 The categorization methods for optimization problems
6.2.1 Continuous versus discrete optimization
6.2.2 Constrained and unconstrained optimization
6.2.3 Global and local optimization
6.2.4 Deterministic and stochastic optimization
6.3 An example~the optimization of stiffened panels
6.3.1 Introduction to stiffened plates
6.3.2 The numerical solution method for a stiffened panel
6.3.3 Summarization
6.4 Another example-the optimization of a T-bar
6.4.1 The problem raised and the model established
6.4.2 Analytical solution method
6.4.3 Finite Element Analysis solution method
6.4.4 Comments on each solution method
References
