Вах, какая прелесть и бесплатно с academia.edu
BALLISTICS THEORY AND DESIGN OF GUNS AND AMMUNITION by DONALD E. CARLUCCI SIDNEY S. JACOBSON геноссе
geladen должен заненить (оглавление под катом)
вот еще бы времени теперь найти чтобы все-таки допилить 6DOF
в калькуляторе :-(
Part I Interior Ballistics
Chapter 1 Introductory Concepts
1.1 Ballistic Disciplines
1.2 Terminology
1.3 Units and Symbols
Chapter 2 Physical Foundation of Interior Ballistics
2.1 The Ideal Gas Law
2.2 Other Gas Laws
2.3 Thermophysics and Thermochemistry
2.4 Thermodynamics
2.5 Combustion
2.6 Solid Propellant Combustion
2.7 Fluid Mechanics
References
Chapter 3 Analytic and Computational Ballistics
3.1 Computational Goal
3.2 Lagrange Gradient
3.3 Chambrage Gradient
3.4 Numerical Methods in Interior Ballistics
3.5 Sensitivities and Efficiencies
References
Chapter 4 Ammunition Design Practice
4.1 Stress and Strain
4.2 Failure Criteria
4.3 Ammunition Types
4.4 Propellant Ignition
4.5 The Gun Chamber
4.6 Propellant Charge Construction
4.7 Propellant Geometry
4.8 Cartridge Case Design
4.9 Projectile Design
4.10 Shell Structural Analysis
4.11 Buttress Thread Design
4.12 Sabot Design
References
Further Reading
Chapter 5 Weapon Design Practice
5.1 Fatigue and Endurance
5.2 Tube Design
5.3 Gun Dynamics
5.4 Muzzle Devices and Associated Phenomena
Gun Dynamics Nomenclature
References
Further Reading
Part II Exterior Ballistics
Chapter 6 Introductory Concepts
References
Further Reading
Chapter 7 Dynamics Review
Reference
Further Reading
Chapter 8 Trajectories
8.1 Vacuum Trajectory
8.2 Simple Air Trajectory (Flat Fire)
8.3 Wind Effects on a Simple Air Trajectory
8.4 Generalized Point Mass Trajectory
8.5 Six Degree-of-Freedom (6-DOF) Trajectory
8.6 Modified Point Mass Trajectory
References
Further Reading
Chapter 9 Linearized Aeroballistics
9.1 Linearized Pitching and Yawing Motions
9.2 Gyroscopic and Dynamic Stabilities
9.3 Yaw of Repose
9.4 Roll Resonance
References
Chapter 10 Mass Asymmetries
References
Chapter 11 Lateral Throwoff
11.1 Static Imbalance
11.2 Dynamic Imbalance
References
Chapter 12 Swerve Motion
12.1 Aerodynamic Jump
12.2 Epicyclic Swerve
12.3 Drift
Reference
Chapter 13 Nonlinear Aeroballistics
13.1 Nonlinear Forces and Moments
13.2 Bilinear and Trilinear Moments
References
Part III Terminal Ballistics
Chapter 14 Introductory Concepts
Chapter 15 Penetration Theories
15.1 Penetration and Perforation of Metals
15.2 Penetration and Perforation of Concrete
15.3 Penetration and Perforation of Soils
15.4 Penetration and Perforation of Ceramics
15.5 Penetration and Perforation of Composites
References
Chapter 16 Shock Physics
16.1 Shock Hugoniots
16.2 Rarefaction Waves
16.3 Stress Waves in Solids
16.4 Detonation Physics
References
Further Reading
Chapter 17 Introduction to Explosive Effects
17.1 Gurney Method
17.2 Taylor Angles
17.3 Mott Formula
References
Further Reading
Chapter 18 Shaped Charges
18.1 Shaped Charge Jet Formation
18.2 Shaped Charge Jet Penetration
References
Further Reading
Chapter 19 Wound Ballistics
References
Further Reading