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Shaped charges having a porous tungsten liner-an experimental and theoretical study of metal compression, jet formation and penetration mechanics
| Content Provider | Semantic Scholar |
|---|---|
| Author | Fuchs, Brian |
| Copyright Year | 1996 |
| Abstract | SHAPED CHARGES HAVING A POROUS TUNGSTEN LINER -AN EXPERIMENTAL AND THEORETICAL STUDY OF METAL COMPRESSION, JET FORMATION, AND PENETRATION MECHANICS by Brian Edward Fuchs The use of porous tungsten as a liner for shaped charges to improve their penetration was proposed by Ki-Hwan Oh in his invention disclosure "Shock Extrusion of Ingots from Powders or Solids", at the New Mexico Institute of Mining and Technology, Socorro NM on June 7, 1988. The intention was to increase the ductility of the normally brittle metal by heating the liner to a high temperature by shock compaction during its acceleration just before jet formation. The feasibility of increasing the ductility of tungsten in this way is the subject of the present study. The theory and prior experimental studies of porous metal compression by shock waves are reviewed, with special attention to ways for determining the temperature of the compressed material. In this theoretical study a new equation of state is developed, and experimental shaped charges with porous tungsten liners are designed and tested. One of the shaped charges was also modeled on a computer for this study. An improved equation of state for porous tungsten is developed and compared with experimental data from the literature and other equations of state. The proposed equation of state shows improved correlation to experimental data for tungsten with high initial porosity. This is achieved while maintaining the close correlation to data obtained by most equations of state at higher initial densities. After preliminary studies, two shaped charge liner designs having porous tungsten liners with initial densities of 65% and 80% of the solid density were designed, manufactured, and test fired. Steel target plates were used to determine the penetration. As shown by the flash radiography, the jets formed were particulated on a small scale, causing the density of the jets to diminish with distance from the charge. A relatively long distance between the shaped charge and the target plates was required to provide room for the flash radiographs. This caused low jet densities and a particulated jet that had little penetration into the target plates. The jet formation for the liner with initial density 65% of the solid was modeled by continuum hydrodynamic computations using Lawrence Livermore National Laboratory's CALE computer code. Near zero strength was used for the jet after formation, as well as a fitted equation of state for tungsten with low initial porosity. The modeling confirmed that low strength in the jet formation caused the fine particulation of the jet as it stretches. By using a combination of techniques developed in this work, improved temperature determinations were made. These indicated that the temperature of the shock-compressed tungsten liner varied from 350°C at the sides of the cone to 2,087°C at the apex. The shaped charge needs to be redesigned in order to achieve the temperatures of approximately 1000°C required to beneficially change the properties of tungsten. The study concludes with recommendations for future work. Proposals for shaped charges with initially porous tungsten liners that may form coherent jets are made. A test method to verify predicted penetration characteristics of finely particulated jets, developed in this study, is discussed. SHAPED CHARGES HAVING A POROUS TUNGSTEN LINER -AN EXPERIMENTAL AND THEORETICAL STUDY OF METAL COMPRESSION, JET FORMATION, AND PENETRATION MECHANICS by Brian Edward Fuchs A Dissertation Submitted to the Faculty of New Jersey Institute of Technology in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy Department of Mechanical Engineering January 1997 Copyright © 1996 by Brian Edward Fuchs ALL RIGHTS RESERVED APPROVAL PAGE Title of Thesis: Shaped Charges Having a Porous Tungsten Liner-an Experimental and Theoretical Study of Metal Compression, Jet Formation, and Penetration Mechanics Name of Candidate: Brian Edward Fuchs Doctor of Philosophy, 1996 Thesis and Abstract Approved: 7 I 7.r John Droughton, Thesis Ackvijor Professor of Mechanical Engineering, NJIT Date Dr. Per-Anders Persson, Committee Member Date Professor of Mineral and Environmental Engineering Senior Scientist EMRTC, Director RCEM New Mexico Institute of Mining and Technology E.} Dr. Pasquale J. Florio, Committee Member Date Associate Professor of Mechanical Engineering, NJIT Dr. Robert P. Kirchner, Committee Member Date Professor of Mechanical Engineering, MIT Dr. Rong-Ylaw"Chen, Committee Member Date Professor of Mechanical Engineering, NJIT BIOGRAPHICAL SKETCH Author: Brian Edward Fuchs Degree: Doctor of Philosophy Undergraduate and Graduate Education: O Doctor of Philisophy in Mechanical Engineering New Jersey Institute of Technology, Newark, NJ, 1997 O Master of Science in Mechanical Engineering New Jersey Institute of Technology, Newark, NJ, 1987 • Bachelor of Science in Mechanical Engineering New Jersey Institute of Technology, Newark, NJ, 1983 Major: Mechanical Engineering Publications: B. Fuchs and P. Lu "Implementation of Inverse Multiprofile Streak Technique" Special Publication ARDEC-SP-87001 June 1987. E. Baker, E. Dalyiniple, B. Fuchs, J. Howell, and P. Lu "Axisymmetric Steady State Detonation Mach Stem and Semi-Infinite Steel Witness Plate Interaction" Technical Report ARDEC-TR-88008, July 1988. B. Fuchs "Picatinny Arsenal Cylinder Expansion Test and a Mathematical Examination of the Expanding Cylinder" Technical Report ARAED-TR-95014, October 1995. Travers, B. E. C., B. Fuchs, A. Rapko, and M. Joyce. "Development of a Formulation for the Special Operations Force (SOF) Enhanced Moldable Explosive Charge (SEMEC) Technical Report ARAED-TR-95024, October 1995. B. Fuchs, E. Baker, E. Dalyrmple, and P. Lu "Measuring Detonation Front Configuration via Flash Radiography and Ultra High Speed Streak Photography". Proceedings of SPIE, the International Society for Optical Engineering, Volume 832 1719 Aug. 1987 San Diego, California. pp. 130-137. |
| File Format | PDF HTM / HTML |
| Alternate Webpage(s) | https://digitalcommons.njit.edu/cgi/viewcontent.cgi?article=2110&context=dissertations |
| Language | English |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Article |
