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 modem approach
Chapter 2 Marine structural design fundamentals
2.1 Structural arrangement 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 Loads 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 sheafing strength
4.2 Hull structural members design
4.2.1 Hating 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
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 example -- a 75,000 DWT bulk carrier
5.4 Spectral fatigue analysis of ship structures
5.5 The transverse strength analysis of a ship
5.5.1 Setting the design load
5.5.2 Simplification of members geometry size
5.5.3 Simplification of the frame supporting conditions
5.5.4 Modeling the structure processing
5.5.5 Modeling the loads
5.5.6 Building the finite element model for the ship structures
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
王迎光:上海交通大学硕士导师,长期从事海洋工程随机结构动力学; 船舶非线性动力学; 船舶结构优化设计研究。
本书概述了现代船舶结构设计的基本理论和方法,并提供了若干设计实例。全书共分6章。第1章介绍了船舶结构设计方法,阐述了基于半经验船级社规范的传统设计方法和基于第一原理的现代设计方法。第2章介绍了一些船舶结构设计的基本要素,包括结构布置、结构材料、焊接和一些船级社及其规范的基本知识。第3章和第4章考虑船舶结构设计过程中的载荷和载荷组合以及如何计算一特定船舶结构的初始构件尺寸。第5章对一初步设计好的船舶结构进行全强度评估,该章叙述了屈服、屈曲和疲劳衡准,也给出了对船舶结构谱疲劳分析的详尽解释。最后,第6章提供了船舶结构设计优化的基本知识(连续优化和离散优化、约束优化和非约束优化、全局优化和局部优化等),并提供了具体的计算实例。
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