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 Spacecrafts 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 Prominent figures in aerospace Questions Words and phrases References Chapter 2 Flight principles of flight vehicles 2.1 Rocket motion 2.1.1 Rocket movement 2.1.2 Rocket motion equation 2.1.3 Multistage rocket theory 2.2 Flight environment 2.2.1 Earth atmosphere 2.2.2 Near space 2.2.3 Outer space 2.3 Fundamental principle of fluid flowing 2.3.1 Basic concepts & typical parameters 2.3.2 Fundamental principles of fluid motion 2.3.3 Applications of the principlesHigh-speed flow 2.4 Reference system 2.4.1 Reference frames and transformations 2.4.2 European-American coordinate system and Soviet Trion cnordinate system 2.5 Flight mechanics description 2.5.1 Forces acted on flight vehicles 2.5.2 Moments acted on flight vehicles 2.6 Flight vehicle motion equation 2.6.1 Basic assumptions 2.6.2 Fundamental principles 2.6.3 Flight vehicle motion equation establishment 2.7 Flight performances 2.7.1 Flight mission profile 2.7.2 Flight envelope 2.7.3 Typical flight parameters 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 Satellite orbits 2.9.4 Lunar exploration orbit 2.9.5 Mars exploration orbit Questions Words and phrases References Chapter 3 Flight vehicle system composition 3.1 Flight vehicle system 3.2 Missile system 3.2.1 Missile system composition 3.2.2 Typical examples of the missile system 3.3 Rocket system 3.3 . 1 Multiple rocket launcher system 3.3.2 Carrier rocket system 3.4 Air vehicle system 3.4 . 1 Airplane system 3.4.2 UAV system 3.5 Spacecraft system 3.5 . 1 Space engineering system 3.5.2 Typical examples of the spacecraft system Questions Words and phrases References Chapter 4 Flight vehicle propulsion system 4.1 Aeroengine system 4.1.1 Aviation piston engines 4.1.2 Turbojet engines & turbofan engines 4.1.3 Turboprop engines & turboshaft engines 4.1.4 Ram-engines 4.2 Rocket engine system 4.2.1 Main performance parameters 4.2.2 Solid rocket propulsion system 4.2.3 Liquid rocket propulsion system 4.2.4 Combination engines 4.3 Thrust vector control system 4.3.1 Classification of thrust vector control system 4.3.2 Performance and selection of thrust vector control system 4.4 New-type propulsion system 4.4.1 Solar energy propulsion system 4.4.2 Nuclear energy propulsion system 4.4.3 Electric propulsion system 4.4.4 Micro propulsion system Questions Words and phrases References Chapter 5 Flight vehicle aerodynamic configuration 5.1 Design requirements for configuration 5.2 Flight vehicle configuration & parameters 5.2.1 Airfoil 5.2.2 Wing form & tail configuration 5.2.3 Fuselage 5.3 Typical flight vehicle configuration 5.3.1 Typical missile configuration 5.3.2 Typical aircraft configuration 5.3.3 Control surfaces 5.3.4 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 Flight vehicle configuration variation & development 5.5.1 Missile configuration variations 5.5.2 Aireraft configuration variations 5.5.3 Morphing flight vehicle configuration Questions Words and phrases References Chapter 6 Flight vehicle structures 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 a 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-bearing 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 Flight vehicle laminated composite structures 6.5.1 Characteristics of composites 6.5.2 Application of composite materials to airframe structures Questions Words and phrases References Chapter 7 Flight vehicle guidance and control system 7.1 Basic concepts of guidance and control system 7.1.1 Function and composition 7.1.2 Classification of guidance system 7.1.3 Basic design requirements 7.2 Guidance and control components 7.2.1 Sensitive components 7.2.2 Seeker 7.2.3 Star sensor 7.2.4 Actuation 7.3 Guidance system 7.3.1 Autonomous guidance system 7.3.2 Remote guidance system 7.3.3 Homing guidance system 7.3.4 Combination guidance system 7.4 Guidance laws 7.4.1 Autonomous guidance law 7.4.2 Remote guidance law 7.4.3 Optimal guidance law 7.4.4 Differential game guidance law 7.4.5 Cooperative guidance law 7.5 Control system 7.5.1 Control modes 7.5.2 Skid-to-turn (STT) and bank-to-turn (BTT) 7.5.3 Autopilot Questions Words and phrases References Chapter 8 Ground equipment and launch 8.1 Carrier rocket & space vehicle launch 8.1.1 Space launch base 8.1.2 Space vehicle return & reentry 8.2 Missile launch 8.2.1 Missile launch modes 8.2.2 Missile launch equipment 8.3 Airport and ground equipment 8.3.1 Airport 8.3.2 Ground equipment 8.3.3 Weather observation Questions Words and phrases References Chapter 9 Payloads 9.1 Rocket payloads 9.2 Missile payloads 9.2.1 Warhead composition 9.2.2 Typical warheads 9.2.3 Fuses 9.3 Air vehicle payloads 9.4 Space vehicle payloads Questions Words and phrases References Chapter 10 Flight vehicle system research and development 10.1 Flight vehicles design concepts 10.1.1 The R&D process 10.1.2 System analysis 10.2 Basic stages for R&D 10.2.1 Idea proposition 10.2.2 Proof of tactical and technical requirements 10.2.3 Preliminary design stage 10.2.4 Technical design stage 10.2.5 Trial-manufacture and test stage 10.2.6 Finality of design stage 10.2.7 Manufacture and utilization stage 10.3 Basic design requirements 10.3.1 Design requirements for flight vehicle systems 10.3.2 Quality management for flight vehicle system R&D 10.4 Design methods 10.5 Typical tests 10.5.1 Wind tunnel test 10.5.2 Simulation tests 10.5.3 Flight test 10.5.4 Environmental test 10.5.5 System performance test 10.5.6 Reliability test 10.6 Summary Questions Words and phrases References
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