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2 PROPERTIES OF EXPLOSIVES Since we understand an explosive material to be one which is capable of producing an explosion by its own energy, we have opened the way to a consideration of diverse possibilities. An explosive perfectly capable of producing an explosion may liberate its energy without producing one. Black powder, for example, may burn in the open air. An explosion may occur without an explosive, that is, without any material which contains intrinsically the energy needful to produce the explosion. A steam boiler may explode because of the heat energy which has been put into the water which it contains. But the energy is not intrinsic to water, and water is not an explosive. Also, we have explosives which do not themselves explode. The explosions consist in the sudden ruptures of the containers which confine them, as happens in a Chinese firecracker. Fire, traveling along the fuse (note the spelling) reaches the black powder—mixture of potassium nitrate, sulfur, and charcoal—which is wrapped tightly within many layers of paper; the powder burns rapidly and produces gas. It burns very rapidly, for the heat resulting from the burning of the first portion cannot get away, but raises the temperature of the next portion of powder, and a rise of temperature of 10°C. more than doubles the velocity of a chemical reaction. The temperature mounts rapidly; gas is produced suddenly; an explosion ensues. The powder burns; the cracker explodes. And in still other cases we have materials which themselves explode. The molecules undergo such a sudden transformation with the liberation of heat, or of heat and gas, that the effect is an explosion. Classification of Explosives I. Propellants or low; explosives are combustible materials, containing within themselves all oxygen needful for their combustion, which burn but do not explode, and function by producing gas which produces an explosion. Examples: black powder, smokeless powder. Explosives of this class differ widely among themselves in the rate at which they deliver their energy. There are slow powders and fast powders for different uses. The kick of a shotgun is quite different from the persistent push against the shoulder of a high-powered military rifle in which a slowerburning and more powerful powder is used. II. Primary explosives or initiators explode or detonate when
HIGH EXPLOSIVES 3 they are heated or subjected to shock. They do not burn; sometime? they do not even contain the elements necessary for combustion. The materials themselves explode, and the explosion results whether they are confined or not. They differ considerably in their sensitivity to heat, in the amount of heat which they give off, and in their brisance, that is, in the shock which they produce when they explode. Not all of them are brisant enough to initiate the explosion of a high explosive. Examples: mercury fulminate, lead azide, the lead salts of picric acid and trinitroresorcinol, m-nitrophenyldiazonium perchlorate, tetracene, nitrogen sulfide, copper acetylide, fulminating gold, nitrosoguanidine, mixtures of potassium chlorate with red phosphorus or with various other substances, the tartarates and oxalates of mercury and silver. III. High explosives detonate under the influence of the shock of the explosion of a suitable primary explosive. They do not function by burning; in fact, not all of them are combustible, but most of them can be ignited by a flame and in small amount generally burn tranquilly and can be extinguished easily. If heated to a high temperature by external heat or by their own combustion, they sometimes explode. They differ from primary explosives in not being exploded readily by heat or by shock, and generally in being more brisant and powerful. They exert a mechanical effect upon whatever is near them when they explode, whether they are confined or not. Examples: dynamite, trinitrotoluene, tetryl, picric acid, nitrocellulose, nitroglycerin, liquid oxygen mixed with wood pulp, fuming nitric acid mixed with nitrobenzene, compressed acetylene and cyanogen, ammonium nitrate and perchlorate, nitroguanidine. It is evident that we cannot describe a substance by saying that it is "very explosive." We must specify whether it is sensitive to fire and to shock, whether it is really powerful or merely brisant, or both, whether it is fast or slow. Likewise, in the discussions in the present book, we must distinguish carefully between sensitivity, stability, and reactivity. A substance may be extremely reactive chemically but perfectly stable in the absence °f anything with which it may react. A substance may be exploded readily by a slight shock, but it may be stable if left to itself. Another may require the shock of a powerful detonator
Page 1: CHAPTER I PROPERTIES OF EXPLOSIVES
Page 5 and 6: HIGH EXPLOSIVES 5 black match may b
Page 7 and 8: A COMPLETE ROUND OF AMMUNITION 7 f
Page 9 and 10: A COMPLETE ROUND OF AMMUNITION 9 11
Page 11 and 12: DETONATING FUSE 11 ting upon, say,
Page 13 and 14: DETONATING FUSE 13 branch line squa
Page 15 and 16: FIGURE 8. Pierre-Eugene Marcellin B
Page 17 and 18: VELOCITY OF DETONATION 17 placed up
Page 19 and 20: FIGURE 10 Charles Edward Munroe (18
Page 21 and 22: Sensitivity Tests SENSITIVITY TESTS
Page 23 and 24: TESTS OF EXPLOSIVE POWER AND BRISAN
Page 29 and 30: BOERHAAVE ON BLACK POWDER 29 Bertho
Page 31 and 32: BOERHAAVE ON BLACK POWDER 31 powder
Page 33 and 34: GREEK FIRE 33 And of the last two o
Page 35 and 36: ROGER BACON 35 only half filled wit
Page 37 and 38: ROGER BACON 37 large as the human t
Page 39 and 40: DEVELOPMENT OF BLACK POWDER 39 Deve
Page 41 and 42: DEVELOPMENT OF BLACK POWDER 41 the
Page 43 and 44: USES OF BLACK POWDER 43 Potassium n
Page 45 and 46: MANUFACTURE 45 rings and in other p
Page 47 and 48: ANALYSIS 47 caded, and is never app
Page 49 and 50: AMMONPULVER 49 ing is made from sod
Page 51 and 52: OTHER PROPELLENT EXPLOSIVES 51 toge
Page 53 and 54:
PYROTECHNIC MIXTURES 53 colors. His
Page 55 and 56:
PYROTECHNIC MIXTURES 55 composition
Page 57 and 58:
PYROTECHNIC MIXTURES 57 and moisten
Page 59 and 60:
PYROTECHNIC MIXTURES 59 chloride is
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PYROTECHNIC MIXTURES 61 positions w
Page 63 and 64:
COLORED LIGHTS 63 flares during the
Page 65 and 66:
Potassium chlorate Strontium nitrat
Page 67 and 68:
Barium nitrate Potassium nitrate Po
Page 69 and 70:
LANCES 69 minute with an illuminati
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PICRATE COMPOSITIONS 71 To be burne
Page 73 and 74:
ROCKETS 73 is used in whistling fir
Page 75 and 76:
ROCKETS 75 one ounce and a half. It
Page 77 and 78:
ROCKETS 77 which handle a gross of
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Roman Candles ROMAN CANDLES 79 Roma
Page 81 and 82:
STARS 81 the space between the star
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STARS 83 4-ply manila paper tubing,
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STARS 85 YVeingart 31 reports compo
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STARS 87 powder mixture, given a ye
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GERBS 89 Gerbs Gerbs produce jets o
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WHEELS 91 denly with a terrifying r
Page 93 and 94:
PINWHEELS 93 Pinwheels To make pinw
Page 95 and 96:
PINWHLELS 95 need of a vast theater
Page 97 and 98:
MINES 97 match or fire wick), for t
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COMETS AND METEORS 99 an electric o
Page 101 and 102:
BOMBSHELLS 101 the short pieces sep
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BOMBSHELLS 103 is folded, rubbed, a
Page 105 and 106:
TOY CAPS 105 "It is to be noted," h
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JAPANESE TORPEDOES 107 minate but w
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RAILWAY TORPEDOES 109 hardens it),
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CHINESE FIRECRACKERS 111 English Cr
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CHINESE FIRECRACKERS 113 carrying o
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CHINESE FIRECRACKERS 115 struck a s
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SPARKLERS 117 is shaped by a motion
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PHARAOH'S SERPENTS 119 Wire Dips an
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BLACK NON-MERCURY SNAKES 121 pellet
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Potassium chlorate Lactose Paranitr
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CHAPTER IV AROMATIC NITRO COMPOUNDS
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EFFECT OF GROUPS ON FURTHER SUBSTIT
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UTILIZATION OF COAL TAR 129 the nuc
Page 131 and 132:
UTILIZATION OF COAL TAR 131 In each
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MONO- AND DI-NITROBENZENE 133 Trini
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TRINITROBENZENE 135 powder, 250 lit
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TRINITROBENZENE 137 + CHsONo H. ,OC
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TRINITROBENZENE 139 According to Da
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TRINITROTOLUENE 141 not yet been de
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TRINITROTOLUENE 143 ?mall amount, p
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TRINITROTOLUENE 145 with a correspo
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TRINITROTOLUENE 14? The soluble sul
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TRINITROTOLUENE 149 cent free SOa)
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TRINITROTOLUENE 151 CH, NO, " ~" a
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TRIXITROXYLENE 153 Dautriche found
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NITRO DERIVATIVES OF NAPHTHALENE I5
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NITRO DERIVATIVES OF NAPHTHALENE 15
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PICRIC ACID 159 of biphenyl. The mo
Page 161 and 162:
PICRIC ACID 161 dinitrophenol as re
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PICRIC ACID 163 a yellow nitropheno
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PICRIC ACID 165 below have been pub
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AMMONIUM PICRATE 167 80° and 90°
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TR1NITR0ANIS0L AND TRINITROPHENETOL
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TRINITROANISOL AND TRINITROPHENETOL
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TETRANITROANILINE 173 Both trinitro
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TETRYL 175 TNA shows about the same
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TETRYL 177 All the above-indicated
Page 179 and 180:
TETRYL 179 m-nitrotetryl is effecti
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TETRYL 181 The solubility of tetryl
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BUTYL TETRYL 183 MINIMUM CHARGE FOB
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HEXANITRODIPHENYLAMINE 185 Carter 1
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HEXANITRODIPHENYL SULFONE 187 pound
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HEXANITROAZOBENZENE 189 nitrocarban
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CHAPTER V NITRIC ESTERS Nitric este
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METHYL NITRATE 193 sion of 24.5 mm.
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NITROGLYCERIN 195 blasting cap will
Page 197 and 198:
NITROGLYCERIN 197 are evolved, but
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NITROGLYCERIN 199 than half its own
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NITROGLYCERIN 201 Thus, if 100 gram
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NITROGLYCERIN 203 quickly into a dr
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NITROGLYCERIN 205 "boils" strongly.
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NITROGLYCERIN 207 because the boili
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NITROGLYCERIN 209 the temperature r
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NITROGIA'CERIN 211 velocities of de
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NITROGLYCERIN 213 material in safet
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DINITROGLYCERIN 215 cerin. It mixes
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DINITROGLYCERIN 217 Both of the din
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NITROGLYCIDE 219 oxide ring, and mo
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DINITROCHLOROHYDRIN 221 can be froz
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NITROGLYCOL 223 amount is necessary
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NITROGLYCOL 225 portions with water
Page 227 and 228:
TRINITROPHENOXYETHYL NITRATE 227 me
Page 229 and 230:
PENTRYL 229 Another portion of the
Page 231 and 232:
PENTRYL 231 tetryl by one of 27.5 c
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TRIMETHYLENE GLYCOL DINITRATE 233 i
Page 235 and 236:
Butylene Glycol Dinitrate NITROERYT
Page 237 and 238:
NITROMANNITE 23? While its stabilit
Page 239 and 240:
NITRATED SUGAR MIXTURES 239 fact th
Page 241 and 242:
NITROLACTOSE 241 Nitroglucose (d-Gl
Page 243 and 244:
OTHER NITROSUGARS 243 readily solub
Page 245 and 246:
EARLY HISTORY OF NITRATED CARBOHYDR
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Page 249 and 250:
Page 251 and 252:
Page 253 and 254:
Page 255 and 256:
Page 257 and 258:
NITROCELLULOSE 257 The two substanc
Page 259 and 260:
NITROCELLULOSE 259 dre B. Either CP
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NITROCELLULOSE 261 nent materials w
Page 263 and 264:
NltfROCELLULOSE 263 The pulped fibe
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NITROCELLULOSE 265 cellulose with g
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DURATION AT 1st period 2nd period 3
Page 269 and 270:
DETERMINATION OF NITROGEN 269 upon
Page 271 and 272:
DETERMINATION OF NITROGEN 271 actio
Page 273 and 274:
NITROSTARCH 273 At the beginning of
Page 275 and 276:
NJTROSTARCH 275 the contents of the
Page 277 and 278:
UTILIZATION OF FORMALDEHYDE 277 cat
Page 279 and 280:
PENTAERYTHRITE TETRANITRATE 279 ery
Page 281 and 282:
DIPENTAERYTHRITE HEXANITRATE 281 ni
Page 283 and 284:
TRIMETHYLOLNITROMETHANE TRINITRATE
Page 285 and 286:
NITROPENTANONE AND RELATED SUBSTANC
Page 287 and 288:
CHAPTER VI SMOKELESS POWDER An acco
Page 289 and 290:
BULK POWDER 289 was called E C. pow
Page 291 and 292:
BULK POWDER 291 FIGURE 71. Sweetie
Page 293 and 294:
EARLY HISTORY OF COLLOIDED POWDERS
Page 295 and 296:
EARLY HISTORY OF COLLOIDED POWDERS
Page 297 and 298:
COLLOIDED NITROCELLULOSE POWDERS 29
Page 299 and 300:
MANUFACTURE OF SINGLE-BASE POWDER 2
Page 301 and 302:
Page 303 and 304:
Page 305 and 306:
Page 307 and 308:
STABILIZERS 307 Stabilizers The spo
Page 309 and 310:
STABILIZERS 309 stable as those con
Page 311 and 312:
TRANSFORMATIONS DURING AGING OF POW
Page 313 and 314:
ABSORPTION OF MOISTURE 313 ence is
Page 315 and 316:
ABSORPTION OF MOISTURE 315 ences. E
Page 317 and 318:
CONTROL OF RATE OF BURNING 317 GAIN
Page 319 and 320:
CONTROL OF RATE OF BURNING 319 Prog
Page 321 and 322:
GELATINIZING AGENTS 321 but very li
Page 323 and 324:
FLASHLESS CHARGES AND FLASHLESS POW
Page 325 and 326:
Page 327 and 328:
Page 329 and 330:
BALL-GRAIN POWDER 329 in the presen
Page 331 and 332:
CHAPTER VII DYNAMITE AND OTHER HIGH
Page 333 and 334:
INVENTION OF DYNAMITE 333 The next
Page 335 and 336:
INVENTION OF AMMONIUM NITRATE EXPLO
Page 337 and 338:
GUHR DYNAMITE 337 which is practica
Page 339 and 340:
STRAIGHT DYNAMITE 339 but "40% ammo
Page 341 and 342:
STRAIGHT DYNAMITE 341 Munroe and Ha
Page 343 and 344:
BLASTING GELATIN 343 of nitroglycer
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GELATIN DYNAMITE 345 night, and the
Page 347 and 348:
PERMISSIBLE EXPLOSIVES 347 that one
Page 349 and 350:
PERMISSIBLE EXPLOSIVES 349 many cla
Page 351 and 352:
PERMISSIBLE EXPLOSIVES 351 The Fren
Page 353 and 354:
Nitroglycenn Potassium nitrate Sodi
Page 355 and 356:
LIQUID OXYGEN EXPLOSIVES 355 The Pr
Page 357 and 358:
CHLORATE AND PERCHLORATE EXPLOSIVES
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Page 361 and 362:
Page 363 and 364:
Page 365 and 366:
Page 367 and 368:
AMMONIUM NITRATE MILITARY EXPLOSIVE
Page 369 and 370:
CHAPTER VIII NITROAMINES AND RELATE
Page 371 and 372:
METHYLNITRAMINE 371 Methylnitramine
Page 373 and 374:
NITROUREA 373 filled with a strong
Page 375 and 376:
GUANIDINE NITRATE 375 Guanidine or
Page 377 and 378:
GUANIDINE NITRATE 377 The cyanamide
Page 379 and 380:
GUANIDINE NITRATE 379 only one mole
Page 381 and 382:
NITROGUANIDINE 381 been found, as d
Page 383 and 384:
NITROGUANIDINE 333 mixture, is trea
Page 385 and 386:
NITROGUANIDINE 385 A solution of ni
Page 387 and 388:
NITROGUANIDINE 387 Nitroguanidine,
Page 389 and 390:
NITROGUANIDINE 389 material "firmly
Page 391 and 392:
NITROSOGUANIDINE 391 stant volume o
Page 393 and 394:
ETHYLENEDINITRAMINE 393 rial which
Page 395 and 396:
DINITRODIMETHYLSULFAMIDE 395 gives
Page 397 and 398:
CVCLOTRIMETHVLENETRINITRAMINE 397 r
Page 399 and 400:
CYCLOTRIMETHYLENETRINITRAMINE 399 r
Page 401 and 402:
DISCOVERY OF FULMINATING COMPOUNDS
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DISCOVERY OF FULMINATING COMPOUNDS
Page 405 and 406:
MERCURY FULMINATE 405 cold anvil an
Page 407 and 408:
MERCURY FULMINATE 407 water, filter
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MERCURY FULMINATE 409 HgSA + NaCN +
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MERCURY FULMINATE 411 mented with s
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DETONATORS 413 Amusements with Fulm
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DETONATORS 415 characters of the ch
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DETONATORS 417 potassium chlorate.
Page 419 and 420:
DETONATORS 419 in the amount of san
Page 421 and 422:
TESTING OF DETONATORS 421 pressed.
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TESTING OF DETONATORS 423 later rec
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LEAD AZIDE 425 used; the azide is e
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LEAD AZIDE 427 the interaction of h
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LEAD AZIDE 429 of which there exten
Page 431 and 432:
SILVER AZIDE 431 temperature of spo
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CYANURIC TRIAZIDE 433 The best resu
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EXPLOSIVE Cyanuric triazide Lead az
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TRINITROTRIAZIDOBENZENE 437 purifie
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NITROGEN SULFIDE 439 acid, sulfur d
Page 441 and 442:
DIAZONIUM SALTS 441 A 0.05-gram sam
Page 443 and 444:
DIAZODINITROPHENOL 443 Preparation
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DIAZODINITROPHENOL 445 alcohol 2.43
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TETRACENE 447 its structure. It is
Page 449 and 450:
TETRACENE 449 Preparation 0} Tetrac
Page 451 and 452:
HEXAMETHYLENETRIPEROXIDEDIAMINE 451
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FRICTION PRIMERS 453 which had been
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PERCUSSION PRIMERS 455 or with wate
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PERCUSSION PRIMERS 457 is safest to
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Aaronson, 158, 226 Abel, 42, 194, 2
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Ge, 241 Geschwind, 151 Gibson, 127,
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Pliny, 35 Prentice and Co., 253 Pre
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INDEX OF SUBJECTS Alkylnitroguanidi
Page 467 and 468:
Ballistite, attenuated, 259 erosive
Page 469 and 470:
Carbon tetrabromide, 375 Carbon tet
Page 471 and 472:
Dehydrating press, 299, 300, 302 De
Page 473 and 474:
Ether, solvent, 135, 152, 169, 181,
Page 475 and 476:
Gold, fulminating, 3, 400, 401 Gold
Page 477 and 478:
K KI starch test, 268, 285 Kekule o
Page 479 and 480:
Methylglucoside tetranitrate, 243 M
Page 481 and 482:
Nitromaltose, 240, 241 Nitromannite
Page 483 and 484:
Picric acid, Trauzl test, 211, 231
Page 485 and 486:
Salt, common (sodium chloride), 60,
Page 487 and 488:
Strength of dynamite, 338, 339, 341
Page 489 and 490:
Trinitrobenzene, sensitivity to imp
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