Tactical missile warheads
American Institute of Aeronautics and Astronautics, Inc., 1993 - Technology & Engineering - 754 pages
By marrying warhead fundamentals with more modern design approaches, this book will assist new members of the warhead community to learn more rapidly, as well as provide a reference text for those working actively in the field. The book's chapters are each self-contained articles; however, the topics are linked and may be divided into three groups. The first group provides a broad introduction, as well as four fundamental technology areas, namely, explosives, dynamic characterization of materials, explosive-metal interaction physics, and hydrocodes. The second group presents the mechanics of three major types of warheads, shaped charges, explosively formed projectiles, and fragmentation warheads. The interaction with various types of targets is also presented. The third group addresses test methodology. Flash radiography and high-speed photography are covered extensively, especially from an applications point of view. Special methods are also presented, including the use of tomographic reconstruction of flash radiographs and the use of laser interferometry.
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An Historical Perspective
Warheads in the Early HighExplosives Era Before and After the American
Modern Torpedo Warheads
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acceleration aluminum angle applications approximately armor axis binder booster Brisant calculated castable PBXs charge warhead chemical collapse Comp components compositions computed configuration constant coordinate critical wavelength Cyclotol cylinder deformation density detonation velocity detonation wave developed effect equation Eulerian experimental explosive charge explosive materials explosively formed penetrator failure diameter finite difference formula fracture fragment mass function geometry grid high-explosive hydrocodes impact initial jet formation Lagrangian Main charge material mechanisms metal method missile obtained Octol one-dimensional parameters PBXs penetration Pentolite performance PETN plastic powder pressure problem produce projectile Rept Service approved shaped charge shaped charge jet shear shock wave shown in Fig simulations solution standoff steel strain rate stress surface Symposium on Ballistics Table target plate TATB technique temperature tensile Tetryl thickness torsion trajectories U.S. Army values warhead weapons x-ray flash zone