《飛行器系統概論》系統地介紹了飛行器系統的基本概念和基本原理,主要包括空間環境、力學環境、飛行原理、系統組成、推進系統;外形與結構、制導與控制系統、地面設備與發射方式、有效載荷等。對飛行器設計與研究的基本概念、研究方法和典型實驗等也有介紹。
基本介紹
- 書名:飛行器系統概論
- 作者:唐勝景 郭傑
- 出版日期:2012年3月1日
- 語種:英語
- ISBN:7118078093, 9787118078091
- 品牌:國防工業出版社
- 外文名:Introduction to Flight Vehicle Systems
- 出版社:國防工業出版社
- 頁數:318頁
- 開本:16
- 定價:45.00
圖書內容,圖書目錄,
圖書內容
《飛行器系統概論》可作為高等學校有關專業教材,也可供從事飛行器設計、研究、生產的相關人員參考。
圖書目錄
Chapter 1 Brief introduction to flight vehicles
1.1 Basic concepts
1.2 Overview of flight vehicles
1.2.1 Rockets
1.2.2 Missiles
1.2.3 Air vehicles
1.2.4 Space vehicles
1.2.5 Hypersonic flight vehicles
1.3 Development history of flight vehicles
1.3.1 Flight vehicle exploration
1.3.2 Typical examples of aeronautics & astronautics
1.3.3 Famous persons in aerospace Words and phrases
Chapter 2 Flight principles of flight vehicles
2.1 Overview
2.2 Rocket motion
2.2.1 Rocket movement
2.2.2 Rocket motion equation
2.2.3 Multistage rocket theory
2.3 Flight atmospheric environment
2.3.1 Atmospheric environment
2.3.2 Space environment
2.3.3 Standard atmosphere
2.4 Fundamental principal of fluid flowing
2.4.1 Basic concepts & typical parameters
2.4.2 Gas state equation
2.4.3 Fundamental principles of fluid flowing
2.4.4 Examples of applications
2.4.5 High speed flow
2.5 Flight mechanics environment
2.5.1 Overview
2.5.2 Forces acted on flight vehicles
2.5.3 Moments acted on flight vehicles
2.6 Flight vehicle motion
2.6.1 Overview
2.6.2 Reference frames and transformations
2.6.3 Flight vehicle motion equation
2.7 Flight performances
2.7.1 Flight mission profile
2.7.2 Flight envelope
2.7.3 Typical flight parameters
2.7.4 Overload
2.8 Flight stability & control
2.8.1 Stability
2.8.2 Control
2.9 Space vehicles flight principles
2.9.1 Kepler laws
2.9.2 Orbit equation & universal velocities
2.9.3 Orbit description
2.9.4 Satellite orbits
Questions
Words and phrases
Chapter 3 Flight vehicle system composition
3.1 Flight vehicle system
3.2 Missile system composition
3.2.1 Missile elementary composition
3.2.2 An antitank missile system
3.2.3 A ground-to-air missile system
3.3 Rocket system composition
3.3.1 A multiple rocket launcher system
3.3.2 Carrier rocket
3.4 Aircraft systems
3.4.1 Flight control systems
3.4.2 Engine control Systems and fuel systems
3.4.3 Hydraulic systems
3.4.4 Navigation systems
3.4.5 Electrical systems
3.4.6 Pneumatic systems
3.4.7 Emergency systems
3.5 Spacecraft system composition
3.5.1 Satellite system
3.5.2 Spacecraft System
3.5.3 Space station system
3.5.4 Manned space flight system
Questions
Words and phrases
Chapter 4 Flight vehicle propulsion system
4.1 Overview
4.2 Aeroengine system
4.2.1 Piston engines
4.2.2 Turbojet engines & turbofan engines
4.2.3 Turboprop engines & turboshaft engines
4.2.4 Ram-engines
4.3 Rocket engine system
4.3.1 Main performance parameters
4.3.2 Solid Rocket propulsion system
4.3.3 Liquid rocket propulsion system
4.3.4 Combination engines
4.4 Thrust vector control system
4.4.1 Classification of TVCs
4.4.2 Performance and selection of TVCs
4.5 Special rocket propulsion system
Questions
Words and phrases
Chapter 5 Flight vehicle aerodynamic configuration
5.1 Design requirements for configuration
5.2 Flight vehicle configuration & parameters
5.2.1 Overviews
5.2.2 Airfoil
5.2.3 Wing platform & tail
5.2.4 Body
5.2.5 Wing-body-tail combination
5.3 Typical flight vehicle configuration
5.3.1 Overview
5.3.2 Typical missile configuration
5.3.3 Typical aircraft configuration
5.3.4 Control surfaces
5.3.5 High-lift devices
5.4 Configuration of hyper-velocity vehicles
5.4.1 Lifting body configuration
5.4.2 Blended-Wing-Body
5.4.3 Waverider configuration
5.5 Aircraft configuration variation & development
5.5.1 Missile configuration variations
5.5.2 Aircraft configuration variations
5.5.3 New type of aircraft configuration
Questions
Words and phrases
Chapter 6 Fright vehicle construction
6.1 Requirements of flight vehicle structure design
6.1.1 Flight vehicle structure design philosophy
6.1.2 Basic flight vehicle structure design requirements
6.1.3 Basic flight vehicle structure design contents
6.1.4 Flight vehicle structure design methods
6.2 Wing
6.2.1 Function and loads
6.2.2 Main load-bearing members of wing
6.2.3 Load transfer analysis
6.2.4 Wing structure form
6.2.5 Connection
6.3 Body
6.3.1 Function and loads
6.3.2 Main load-beating members of body
6.3.3 Body structure form
6.4 Tail
6.4.1 Function and constitution of tail
6.4.2 Basic requirements of tail
6.4.3 Loads of tail
6.5 Gear
6.5.1 Function and constitution of gear
6.5.2 Gear arrangement
Questions
Words and phrases
Chapter 7 Flight Vehicle Guidance and Control System
7.1 Concepts of guidance and control system
7.1.1 Elementary principle of guidance and control system
7.1.2 Function and composition of guidance system
7.1.3 Classification of guidance system
7.1.4 Basic requirements for guidance system
……
Chapter 8 Ground equipment and launch
Chapter 9 Payloads
Chapter 10 Flight vehicle system design and development
References
1.1 Basic concepts
1.2 Overview of flight vehicles
1.2.1 Rockets
1.2.2 Missiles
1.2.3 Air vehicles
1.2.4 Space vehicles
1.2.5 Hypersonic flight vehicles
1.3 Development history of flight vehicles
1.3.1 Flight vehicle exploration
1.3.2 Typical examples of aeronautics & astronautics
1.3.3 Famous persons in aerospace Words and phrases
Chapter 2 Flight principles of flight vehicles
2.1 Overview
2.2 Rocket motion
2.2.1 Rocket movement
2.2.2 Rocket motion equation
2.2.3 Multistage rocket theory
2.3 Flight atmospheric environment
2.3.1 Atmospheric environment
2.3.2 Space environment
2.3.3 Standard atmosphere
2.4 Fundamental principal of fluid flowing
2.4.1 Basic concepts & typical parameters
2.4.2 Gas state equation
2.4.3 Fundamental principles of fluid flowing
2.4.4 Examples of applications
2.4.5 High speed flow
2.5 Flight mechanics environment
2.5.1 Overview
2.5.2 Forces acted on flight vehicles
2.5.3 Moments acted on flight vehicles
2.6 Flight vehicle motion
2.6.1 Overview
2.6.2 Reference frames and transformations
2.6.3 Flight vehicle motion equation
2.7 Flight performances
2.7.1 Flight mission profile
2.7.2 Flight envelope
2.7.3 Typical flight parameters
2.7.4 Overload
2.8 Flight stability & control
2.8.1 Stability
2.8.2 Control
2.9 Space vehicles flight principles
2.9.1 Kepler laws
2.9.2 Orbit equation & universal velocities
2.9.3 Orbit description
2.9.4 Satellite orbits
Questions
Words and phrases
Chapter 3 Flight vehicle system composition
3.1 Flight vehicle system
3.2 Missile system composition
3.2.1 Missile elementary composition
3.2.2 An antitank missile system
3.2.3 A ground-to-air missile system
3.3 Rocket system composition
3.3.1 A multiple rocket launcher system
3.3.2 Carrier rocket
3.4 Aircraft systems
3.4.1 Flight control systems
3.4.2 Engine control Systems and fuel systems
3.4.3 Hydraulic systems
3.4.4 Navigation systems
3.4.5 Electrical systems
3.4.6 Pneumatic systems
3.4.7 Emergency systems
3.5 Spacecraft system composition
3.5.1 Satellite system
3.5.2 Spacecraft System
3.5.3 Space station system
3.5.4 Manned space flight system
Questions
Words and phrases
Chapter 4 Flight vehicle propulsion system
4.1 Overview
4.2 Aeroengine system
4.2.1 Piston engines
4.2.2 Turbojet engines & turbofan engines
4.2.3 Turboprop engines & turboshaft engines
4.2.4 Ram-engines
4.3 Rocket engine system
4.3.1 Main performance parameters
4.3.2 Solid Rocket propulsion system
4.3.3 Liquid rocket propulsion system
4.3.4 Combination engines
4.4 Thrust vector control system
4.4.1 Classification of TVCs
4.4.2 Performance and selection of TVCs
4.5 Special rocket propulsion system
Questions
Words and phrases
Chapter 5 Flight vehicle aerodynamic configuration
5.1 Design requirements for configuration
5.2 Flight vehicle configuration & parameters
5.2.1 Overviews
5.2.2 Airfoil
5.2.3 Wing platform & tail
5.2.4 Body
5.2.5 Wing-body-tail combination
5.3 Typical flight vehicle configuration
5.3.1 Overview
5.3.2 Typical missile configuration
5.3.3 Typical aircraft configuration
5.3.4 Control surfaces
5.3.5 High-lift devices
5.4 Configuration of hyper-velocity vehicles
5.4.1 Lifting body configuration
5.4.2 Blended-Wing-Body
5.4.3 Waverider configuration
5.5 Aircraft configuration variation & development
5.5.1 Missile configuration variations
5.5.2 Aircraft configuration variations
5.5.3 New type of aircraft configuration
Questions
Words and phrases
Chapter 6 Fright vehicle construction
6.1 Requirements of flight vehicle structure design
6.1.1 Flight vehicle structure design philosophy
6.1.2 Basic flight vehicle structure design requirements
6.1.3 Basic flight vehicle structure design contents
6.1.4 Flight vehicle structure design methods
6.2 Wing
6.2.1 Function and loads
6.2.2 Main load-bearing members of wing
6.2.3 Load transfer analysis
6.2.4 Wing structure form
6.2.5 Connection
6.3 Body
6.3.1 Function and loads
6.3.2 Main load-beating members of body
6.3.3 Body structure form
6.4 Tail
6.4.1 Function and constitution of tail
6.4.2 Basic requirements of tail
6.4.3 Loads of tail
6.5 Gear
6.5.1 Function and constitution of gear
6.5.2 Gear arrangement
Questions
Words and phrases
Chapter 7 Flight Vehicle Guidance and Control System
7.1 Concepts of guidance and control system
7.1.1 Elementary principle of guidance and control system
7.1.2 Function and composition of guidance system
7.1.3 Classification of guidance system
7.1.4 Basic requirements for guidance system
……
Chapter 8 Ground equipment and launch
Chapter 9 Payloads
Chapter 10 Flight vehicle system design and development
References