Verfügbarkeit: Explosive effects and applications

Explosive effects and applications:

Gespeichert in:

Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	New York [u.a.] Springer 1998
Schriftenreihe:	High pressure shock compression of condensed matter
Schlagworte:	Blast effect Condensed matter Shock waves Explosion Druckwelle Detonation Stoßwelle Explosivstoff
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	XV, 431 S. Ill., graph. Darst.
ISBN:	0387982019

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE . V LIST OF EDITORS AND CONTRIBUTORS . XV CHAPTER 1 INTRODUCTION TO EXPLOSIVES . 1 WILLIAM C. DAVIS 1.1. HISTORY . 1 1.2. NOMENCLATURE . 5 1.3. BLASTING . 6 1.4. MILITARY USES . 9 1.4.1. BLAST WAVES . 10 1.4.2. FRAGMENTS . 13 1.5. JET PENETRATORS . 15 1.6. REACTIVE ARMOR . 16 1.7. EXPLOSIVE WELDING . 17 1.8. WAVE SHAPING AND LENSES . 18 1.9. CONCLUSIONS . 20 1.10. PROBLEMS (HINTS AND SOLUTIONS) . 20 REFERENCES . 21 CHAPTER 2 EXPLOSIVES DEVELOPMENT AND FUNDAMENTALS OF EXPLOSIVES TECHNOLOGY . 23 PETER R. LEE 2.1. INTRODUCTION . 23 2.2. NOMENCLATURE . 24 2.2.1. UNITS OF MEASUREMENT . 24 2.2.2. DEFINITIONS OF PHYSICAL, CHEMICAL, AND MATERIALS PROPERTIES OF EXPLOSIVES . 26 2.3. THE NATURE OF EXPLOSIONS . 26 2.3.1. PHYSICAL EXPLOSIONS . 26 2.3.2. CHEMICAL EXPLOSIONS . 27 2.3.3. NUCLEAR EXPLOSIONS . 27 2.4. WHAT ARE EXPLOSIVES? . 27 VIII CONTENTS 2.5. A SHORT HISTORY OF EXPLOSIVES . 29 2.5.1. GREEK FIRE . 29 2.5.2. GUNPOWDER, OR BLACK POWDER . 29 2.5.3. BRIEF CHRONOLOGY OF THE DISCOVERY AND DEVELOPMENT OF THE COMMONER HIGH EXPLOSIVES AND PROPELLANTS . 30 2.5.3.1. NITROGLYCERINE . 30 2.5.3.2. NITROCELLULOSE . 33 2.5.3.3. GUN PROPELLANT DEVELOPMENTS . 36 2.5.3.4. PICRIC ACID (2,4,6-TRINITROPHENOL) . 37 2.5.3.5. TETRYL (2,4,6-TRINITROPHENYLMETHYLNITRAMINE) . 38 2.5.3.6. TNT (TRINITROTOLUENE) . 39 2.5.3.7. RDX (CYCLOTRIMETHYLENETRINITRAMINE) . 40 2.5.3.8. HMX (CYCLOTETRAMETHYLENETETRANITRAMINE) . 41 2.5.3.9. PETN (PENTAERITHRYTOLTETRANITRATE) . 41 2.5.3.10. HNS (HEXANITROSTILBENE) . 41 2.5.3.11. TATB (TRIAMINOTRINITROBENZENE) . 42 2.5.3.12. HBN (HEXANITROBENZENE) . 42 2.5.3.13. COMMERCIAL EXPLOSIVES . 42 2.5.3.14. FUTURE EXPLOSIVES DEVELOPMENT . 43 CHAPTER 3 SHOCK WAVES; RAREFACTION WAVES; EQUATIONS OF STATE . 47 WILLIAM C. DAVIS 3.1. INTRODUCTION . 47 3.2. NOTATION AND UNITS . 48 3.3. LIST OF SYMBOLS . 49 3.4. SHOCKWAVES . 50 3.5. RAREFACTION WAVES . 55 3.6. REFERENCE FRAMES . 61 3.7. SHARP SHOCKS AND DIFFUSE RAREFACTIONS . 63 3.8. TRANSMISSION AND REFLECTION OF WAVES AT INTERFACES . 64 3.9. THE SHOCK TUBE . 72 3.10. DETONATION . 74 3.11. PHASE CHANGES . 77 3.12. HYDRODYNAMICS AND THERMODYNAMICS . 80 3.13. EQUATIONS OF STATE . 82 3.13.1. IDEAL GAS AND POLYTROPIC GAS . 83 3.13.2. ABEL . 85 3.13.3. INVERSE POWER POTENTIAL . 86 3.13.4. EXPANSION OF EQUATIONS OF STATE IN POWERS OF V . 86 3.13.5. TAIT . 87 3.13.6. BKW . 88 3.13.7. INTERMOLECULAR POTENTIALS . 88 3.13.8. JWL . 89 3.13.9. LINEAR U-U . 91 3.13.10. WALSH MIRROR IMAGE . 93 3.13.11. HAYES . 94 3.13.12. DAVIS . 95 3.13.13. WILLIAMSBURG . 95 CONTENTS IX 3.13.14. SUMMARY . 96 3.14. EQUATIONS OF STATE FOR MIXTURES . 96 3.15. THE ADIABATIC GAMMA, THE GRIINEISEN GAMMA, AND THE FUNDAMENTAL DERIVATIVE . 100 HUGONIOT CURVE DATA [FRITZ (1996B)] . 105 3.16. PROBLEMS (HINTS AND SOLUTIONS) . 105 REFERENCES . 112 CHAPTER 4 INTRODUCTION TO DETONATION PHYSICS . 115 PAUL W. COOPER 4.1. NOMENCLATURE . 115 4.2. THE SIMPLE MODEL . 116 4.3. THE JUMP EQUATIONS . 119 4.4. THE DETONATION PRODUCT P V ISENTROPE . 120 4.5. DETONATION VELOCITY AND DENSITY . 121 4.6. THE C-J STATE . 127 4.7. THE DETONATION PRODUCT P-U HUGONIOT . 128 4.8. DETONATION VELOCITY AND CHARGE DIAMETER . 130 4.9. CONCLUSION . 133 BIBLIOGRAPHY . 134 REFERENCES . 134 CHAPTER 5 THE CHEMISTRY OF EXPLOSIVES . 137 JIMMIE C. OXLEY 5.1. BACKGROUND . 137 5.2. CONVENTIONAL EXPLOSIVES . 140 5.3. NITRATE ESTERS . 141 5.3.1. NITRATE ESTER FORMULATIONS . 144 5.4. NITROARENES . 146 5.4.1. THERMALLY STABLE NITROARENES . 151 5.5. NITROALKANES . 154 5.6. NITRAMINES . 156 5.6.1. NITRAMINE COMPOSITES . 159 5.7. HETEROCYCLIC EXPLOSIVES . 160 5.8. ENERGETIC SALTS . 162 5.9. COMPOSITE EXPLOSIVES . 165 5.10. LIQUID OXIDIZERS AND EXPLOSIVES . 166 5.11. UNCONVENTIONAL EXPLOSIVES . 168 REFERENCES . 171 CHAPTER 6 THEORIES AND TECHNIQUES OF INITIATION . 173 PETER R. LEE 6.1. INTRODUCTION . 173 6.2. NOMENCLATURE . 173 X CONTENTS 6.3. INITIATION THEORIES . 174 6.4. THERMAL EXPLOSION THEORY . 176 6.4.1. SEMENOV THEORY . 176 6.4.1.1. CRITICAL CONDITIONS . 180 6.4.2. FRANK-KAMENETSKII THEORY . 182 6.5. ELEMENTARY DETONATION THEORY . 189 6.5.1. SHOCK INITIATION . 192 6.5.2. THE HYDRODYNAMIC THEORY OF DETONATION . 194 6.5.2.1. STEADY DETONATION . 194 6.5.2.2. TRANSIENT DETONATION WAVES . 201 6.6. RELATIONSHIPS BETWEEN THERMAL AND SHOCK INITIATION THEORIES . 203 6.7. INITIATION MECHANISMS . 205 6.7.1. INITIATION BY HEAT . 207 6.7.2. FRICTION OR STABBING . 208 6.7.3. FLASH OR FLAME . 208 6.7.4. PERCUSSION . 208 6.7.5. ELECTRICAL . 209 6.7.6. COHERENT LIGHT . 212 6.8. INITIATION TRAINS . 214 6.9. CONCLUSIONS . 217 REFERENCES . 217 CHAPTER 7 THE GURNEY MODEL FOR EXPLOSIVE OUTPUT FOR DRIVING METAL . 221 JAMES E. KENNEDY 7.1. INTRODUCTION . 221 7.2. NOMENCLATURE . 223 7.3. RESULTS OF THE GURNEY MODEL . 224 7.3.1. TERMINAL VELOCITY FORMULAS FOR SYMMETRIC AND ASYMMETRIC CONFIGURATIONS . 225 7.3.2. GURNEY EQUATIONS . 227 7.3.3. IMPLODING GEOMETRIES . 228 7.3.4. IMPULSE ESTIMATION . 231 7.3.4.1. SPECIFIC IMPULSE OF UNCONFINED SURFACE CHARGES . 231 7.3.4.2. IMPULSE INCREASE BY TAMPING . 232 7.3.5. GURNEY ENERGY OF EXPLOSIVES . 232 7.4. APPLICATIONS OF GURNEY ANALYSIS . 235 7.4.1. TAMPING EFFECTIVENESS . 236 7.4.2. DIRECTION OF METAL PROJECTION . 236 7.5. EXTENSIONS OF GURNEY ANALYSIS . 238 7.5.1. ESTIMATION OF GURNEY VELOCITY FROM CHEMISTRY, DENSITY, AND DETONATION PARAMETERS . 238 7.5.2. EFFECTS OF GAPS . 239 7.5.3. ACCELERATION SOLUTIONS . 239 7.5.3.1. JONES ANALYSIS FOR SLAB GEOMETRIES . 239 7.5.3.2. CHANTERET ANALYSIS FOR SYMMETRIC SLABS AND EXPLODING CYLINDERS . 242 7.5.3.3. FLIS ANALYSIS BY LAGRANGE ' S PRINCIPLE . 243 CONTENTS XI 7.5.4. ELECTRICAL GURNEY ENERGY . 245 7.5.5. LASER ABLATION GURNEY ENERGY . 245 7.6. LIMITATIONS AND CORRECTIONS IN GURNEY ANALYSIS . 246 7.6.1. COMPARISON WITH GAS-DYNAMIC SOLUTION FOR OPEN SANDWICH . 246 7.6.2. CORRECTION FOR SIDE LOSSES . 247 7.6.3. SCALING . 249 7.7. COMBINATION OF GURNEY WITH OTHER PHYSICS . 249 7.7.1. INELASTIC COLLISION MOMENTUM TRANSFER . 250 7.7.2. DETONATION TRANSFER BY FLYER PLATE IMPACT . 251 7.7.2.1. SHOCK-INITIATION CRITERIA . 251 7.7.2.2. ANALYSIS OF IMPACT INTERACTION . 251 7.7.2.3. GURNEY ANALYSIS TO EVALUATE INITIATION CRITERION . 252 ACKNOWLEDGMENT . 254 REFERENCES . 255 CHAPTER 8 HAZARD ASSESSMENT OF EXPLOSIVES AND PROPELLANTS . 259 PETER R. LEE 8.1. INTRODUCTION . 259 8.1.1. AIMS . 259 8.1.2. NOMENCLATURE . 260 8.1.3. BACKGROUND . 261 8.2. BASIC PRECEPTS OF HAZARD TESTING . 263 8.2.1. ABSOLUTE AND RELATIVE SENSITIVITIES . 263 8.2.2. DIFFERENCES BETWEEN HAZARD AND RELIABILITY TESTING . 265 8.2.3. ANALYSIS OF TEST RESULTS . 267 8.2.3.1. THE BRUCETON STAIRCASE TECHNIQUE . 267 8.2.3.2. METHOD OF MINIMUM CONTRADICTORINESS . 269 8.2.3.3. THE ROLE OF JUDGMENT IN HAZARD TESTING . 270 8.3. SENSITIVENESS, SENSITIVITY, AND EXPLOSIVENESS . 271 8.4. STAGES IN HAZARD ASSESSMENT . 275 8.4.1. POWDER TESTS . 276 8.4.2. IMPACT TESTS . 277 8.4.3. DESIGN DETAILS OF SOME POWDER IMPACT TEST MACHINES . 278 8.4.3.1. US BUREAU OF MINES, PITTSBURGH . 279 8.4.3.2. US NAVAL ORDNANCE LABORATORY, WHITE OAK, MD: LABORATORY SCALE TEST . 280 8.4.3.3. LOS ALAMOS LABORATORY SCALE IMPACT TEST AND NAVY WEAPON CENTER, CHINA LAKE . 281 8.4.3.4. PICATINNY ARSENAL LABORATORY SCALE TEST . 281 8.4.3.5. BUREAU OF MINES TEST . 281 8.4.3.6. ROTTER TEST . 282 8.4.3.7. BUREAU OF EXPLOSIVES (NY) LABORATORY SCALE TESTS . 283 8.4.3.8. GERMAN BAM TECHNIQUE . 283 8.4.3.9. TEST RESULTS . 284 8.4.4. POWDER FRICTION TESTS . 286 8.4.4.1. UK MALLET FRICTION TEST . 286 8.4.4.2. US BUREAU OF MINES PENDULUM FRICTION TEST . 287 XII CONTENTS 8.4.4.3. US NAVY WEAPONS CENTER, FRICTION PENDULUM TEST . 288 8.4.4.4. GERMAN BAM FRICTION TEST . 288 8.4.4.5. UK ROTARY FRICTION TEST . 288 8.4.4.6. TEST RESULTS . 289 8.4.5. OTHER POWDER SENSITIVENESS TESTS . 290 8.5. CHARGE HAZARD TESTS . 290 8.5.1. SHOCK INITIATION TESTS . 291 8.5.1.1. UNINSTRUMENTED GAP TESTS . 292 8.5.1.2. INSTRUMENTED GAP TESTS . 296 8.5.1.3. GAP TEST RESULTS . 298 8.5.1.4. OTHER SHOCK INITIATION TESTS . 298 8.5.2. CHARGE IMPACT TESTS . 302 8.5.2.1. OBLIQUE IMPACT TEST . 302 8.5.2.2. LANL OBLIQUE IMPACT TEST . 303 8.5.2.3. LLNL-PANTEX SKID TEST . 304 8.5.2.4. OBLIQUE IMPACT (SKID) TEST RESULTS . 304 8.5.3. HIGH-SPEED IMPACT TEST: THE SUSAN TEST . 305 8.5.3.1. RESULTS OF SUSAN TEST FIRINGS . 307 8.5.4. INTRUSION TESTS . 309 8.5.4.1. LANL SPIGOT INTRUSION TEST . 309 8.5.4.2. AWE SPIGOT TEST . 310 8.5.4.3. US NAVY SPIGOT TEST . 311 8.5.4.4. SPIGOT TEST RESULTS . 311 8.5.5. THERMAL HAZARD TESTS . 311 8.5.5.1. THERMAL HAZARD TESTING . 312 8.6. ELECTROSTATIC SENSITIVENESS . 319 8.6.1. POWDER TESTS . 320 8.7. ASSESSMENT OF THE RESULTS OF THE TESTS ON ENERGETIC MATERIALS . 321 8.8. " INSENSITIVE " HIGH EXPLOSIVES AND PROPELLANTS . 322 8.9. SYSTEM OR WEAPON TESTS FOR IM . 326 8.9.1. INSENSITIVE MUNITIONS THERMAL TESTS . 328 8.9.1.1. SLOW COOK-OFF TESTS . 328 8.9.1.2. FAST COOK-OFF TEST (FUEL FIRE TEST) . 329 8.9.1.3. RESULTS OF COOK-OFF TESTS . 330 8.9.2. IMPACT TESTS . 331 8.9.2.1. BULLET AND FRAGMENT ATTACK TESTS . 331 8.9.2.2. SHAPED-CHARGE JET IMPACT TESTS . 333 8.9.2.3. SYMPATHETIC DETONATION TEST . 335 8.9.3. PROCEDURES FOR INSENSITIVE MUNITIONS TESTING . 335 8.9.4. RESEARCH REQUIRED TO IMPROVE UNDERSTANDING OF INSENSITIVE MUNITIONS AND THE RESULTS OF INSENSITIVE MUNITIONS TESTING . 336 ACKNOWLEDGMENT . 337 REFERENCES . 337 CHAPTER 9 SAFE HANDLING OF EXPLOSIVES . 341 JIMMIE C. OXLEY 9.1. EXPLOSIVE SAFETY . 341 9.2. SENSITIVITY TESTING . 343 9.2.1. IMPACT . 343 CONTENTS XIII 9.2.2. FRICTION . 346 9.2.3. ESD . 346 9.3. THERMAL STABILITY . 346 9.3.1 COMPARATIVE THERMAL STABILITIES . 347 9.3.2 QUANTITATIVE THERMAL STABILITIES . 349 9.3.3 SUMMARY OF THERMAL ANALYTICAL TOOLS . 354 9.3.4. TIME-TO-EXPLOSION . 356 9.4. CASE HISTORY OF AN AMMONIUM NITRATE (AN) EMULSION ACCIDENT . 358 9.4.1. THERMAL STABILITY OF AN FORMULATIONS BY DSC . 359 9.4.2. THERMAL STABILITY OF AN FORMULATIONS BY ISOTHERMAL TECHNIQUES . 361 9.4.3. THERMAL STABILITY OF AN WITH ADDITIVES . 366 9.4.4. VERIFICATION OF SMALL-SCALE AN KINETICS BY LARGER-SCALE TESTS . 370 9.4.4.1. ONE-LITER COOK-OFF . 371 9.4.4.2. SEALED COOK-OFF . 372 9.4.5. VISUAL OBSERVATIONS . 374 9.4.6. SUMMARY . 374 9.5. THERMAL STABILITY OF ORGANIC EXPLOSIVES . 375 9.6. TOXICITY OF EXPLOSIVES . 375 REFERENCES . 378 CHAPTER 10 DEMOLITIONS . 381 CHRIS A. WEICKERT 10.1. INTRODUCTION . 381 10.2. EXPLOSIVELY FORMED PROJECTILES . 386 10.3. WALL BREACHING . 391 10.4. BRIDGE DEMOLITION . 399 10.5. EXPLOSIVE ORDNANCE DISPOSAL . 413 REFERENCES . 420 INDEX . 425
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id	DE-604.BV011737674
illustrated	Illustrated
indexdate	2024-08-16T00:18:49Z
institution	BVB
isbn	0387982019
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-007918352
oclc_num	36372371
open_access_boolean
owner	DE-703 DE-83
owner_facet	DE-703 DE-83
physical	XV, 431 S. Ill., graph. Darst.
publishDate	1998
publishDateSearch	1998
publishDateSort	1998
publisher	Springer
record_format	marc
series2	High pressure shock compression of condensed matter
spelling	Explosive effects and applications Jonas A. Zukas ... (ed.) New York [u.a.] Springer 1998 XV, 431 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier High pressure shock compression of condensed matter Literaturangaben Blast effect Condensed matter Shock waves Explosion (DE-588)4016009-9 gnd rswk-swf Druckwelle (DE-588)4150776-9 gnd rswk-swf Detonation (DE-588)4011557-4 gnd rswk-swf Stoßwelle (DE-588)4057760-0 gnd rswk-swf Explosivstoff (DE-588)4016013-0 gnd rswk-swf Explosivstoff (DE-588)4016013-0 s DE-604 Stoßwelle (DE-588)4057760-0 s Detonation (DE-588)4011557-4 s Explosion (DE-588)4016009-9 s 1\p DE-604 Druckwelle (DE-588)4150776-9 s 2\p DE-604 Zukas, Jonas A. Sonstige oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007918352&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Explosive effects and applications Blast effect Condensed matter Shock waves Explosion (DE-588)4016009-9 gnd Druckwelle (DE-588)4150776-9 gnd Detonation (DE-588)4011557-4 gnd Stoßwelle (DE-588)4057760-0 gnd Explosivstoff (DE-588)4016013-0 gnd
subject_GND	(DE-588)4016009-9 (DE-588)4150776-9 (DE-588)4011557-4 (DE-588)4057760-0 (DE-588)4016013-0
title	Explosive effects and applications
title_auth	Explosive effects and applications
title_exact_search	Explosive effects and applications
title_full	Explosive effects and applications Jonas A. Zukas ... (ed.)
title_fullStr	Explosive effects and applications Jonas A. Zukas ... (ed.)
title_full_unstemmed	Explosive effects and applications Jonas A. Zukas ... (ed.)
title_short	Explosive effects and applications
title_sort	explosive effects and applications
topic	Blast effect Condensed matter Shock waves Explosion (DE-588)4016009-9 gnd Druckwelle (DE-588)4150776-9 gnd Detonation (DE-588)4011557-4 gnd Stoßwelle (DE-588)4057760-0 gnd Explosivstoff (DE-588)4016013-0 gnd
topic_facet	Blast effect Condensed matter Shock waves Explosion Druckwelle Detonation Stoßwelle Explosivstoff
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=007918352&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT zukasjonasa explosiveeffectsandapplications

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