375 Literature Zeldovich, J.B. und Kompaneets, A.S.: Theory of Detonation (Translation), Academic Press, New York und London 1960 Berger, J. und Viard, J.: Physique des explosifs, Dunod, Paris 1962 Andrejev, K.K.: Thermische Zersetzung und Verbrennungsvorgänge bei Explosivstoffen (Translation), Barth, Mannheim 1964 Andrejev, K.K. und Beljajev, A.F.: Theorie der Explosivstoffe (Translation), Svenska National Kommittee för Mekanik, Stockholm 1964 Zeldovich, J.B. und Raizer, J.: Physics of Shock Waves and High Temperature, Hydrodynamic Phenomena (Translation), Academic Press, New York, London 1966 Lee, J.H., Knystautas, R. und Bach, G.G.: Theory of Explosion, McGill University Press, Montreal 1969 Johansson, C.H. und Persson, P.A.: Detonics of High <strong>Explosives</strong>, Academic Press, London, New York 1970 Büchner, E.: Zur Thermodynamik von Verbrennungsvorgängen, 2. Edition, München 1974 Glassmann, I.: Combustion, Academic Press, New York 1977 Turbulent Combustion, Editor: Kennedy, L.A., AIAA, New York 1978 Fickett, W. und Davis, W.C.: Detonation, University of California Press, Berkeley 1979 Mader, Ch.: Numerical Modeling of Detonations, University of California Press, Berkeley 1979 Combustion Chemistry, Editor: Gardiner Jr., W.C., Springer, New York 1984 The Chemistry of Combustion Processes, Hrsg.: Sloane, Th.H., ACS Symposium Series No 249, American Chemical Society, Washington 1984 Duguet, J.-R.: Les explosifs primaires et les substances d’initiation, Masson, Paris 1984 Fundamentals of Solid Propellant Combustion, Editor: Kuo, K.K. und Summerfield, M., Progress in Astronautics and Aeronautics, Vol. 90, AIAA, New York 1984 Lewis, B. und Elbe, G. von: Combustion, Flames and <strong>Explosives</strong> of Gases, 3. Edition, Academic Press, Orlando, Florida 1987 Energetic Materials: New Synthesis Routes, Ignition, Propagation and Stability of Detonation, Hrsg.: Field, J.E. und Gray, P., The Royal Society, London 1992 Nonsteady Burning and Combustion Stability of Solid Propellants, Editor: De Luca, L., Price, E.W., Summerfield, M., Progress in Astronautics and Aeronautics, Vol. 143, AIAA, Washington, DC, USA, 1992 Bartknecht, W. and Zwahlen, G.: Explosionsschutz. Grundlagen und Anwendungen, Springer-Verlag Berlin, Heidelberg, New York 1993 Chéret, R.: Detonation of Condensed <strong>Explosives</strong>, Springer Verlag, Berlin, Heidelberg, New York 1993
Literature 376 Combustion of Boron-Based Solid Propellants and Solid Fuels, Editor: Kuo, K.K., CRC Press Inc., London 1993 S.S. Batsanov: Effects of Explosions on Materials – Modification and Synthesis under High Pressure Shock Compression, Springer-Verlag, Berlin, New York, London, 1994 Decomposition, Combustion, and Detonation Chemistry of Energetic Materials, Editor: Brill, T.B., Russel, P.B., Tao, W.C., Wardle, R.B., Materials Research Society (MRS), Pittsburgh, PA, USA, 1996 (Symposium Series Vol. 418) Mader, C. L., Numerical Modeling of <strong>Explosives</strong> and Propellants, Second Edition, CRC, Boca Raton, Fla, 1997 Margolis, S. B., Williams, F. A., Structure and Stability of Deflagrations in Porous Energetic Materials, Technical Report, Sandia Natl. Lab. SAND99-8458, 3– 44, Sandia National Laboratories, Livermore, CA, 1999 Dorsett, H., White, A., Overview of Molecular Modelling and ab Initio Molecular Orbital Methods Suitable for Use with Energetic Materials, Technical Report, Def. Sci. Technol. Organ. DSTO-GD-0253, i-iv, 1–35, Weapons Systems Division, Aeronautical and Maritime Research Laboratory, Melbourne, Australia, 2000 7. Military <strong>Explosives</strong> and Ammunition; Ballistics: Cranz, C.: Lehrbuch der Ballistik (3 Bde.), Springer, Berlin 1925– 1927 Hänert: Geschütz und Schuß, Springer, Berlin 1940 Kutterer, E.K.: Ballistik, Vieweg & Sohn, Braunschwein 1942 Gallwitz, U.: Die Geschützladung, Heereswaffenamt, Berlin 1944 Ohart, T.C.: Elements of Ammunition, Wiley, New York 1952 Hofmann, Fr.: Praktische Sprengstoff- und Munitionskunde, Wehr und Wissen, Darmstadt 1961 Noack, H.: Lehrbuch der militärischen Sprengtechnik, Dt. Militärverlag, Berlin 1964 Ellern, H.: Military and Civilian Pyrotechnics, Chemical Publishing Comp. Inc., New York 1968 Tomlinson, W.R.: Properties of <strong>Explosives</strong> of Military Interest, Picatinny Arsenal, Dover, N.J. 1971 Gorst, A.G.: Pulver und Sprengstoffe, Militärverlag der Deutschen Demokratischen Republik, Berlin 1977 Interior Ballistics of Guns, Editor: Krier, R. u.a., Progress in Astronautics and Aeronautics, Vol. 66, AIAA, New York 1979 Farrar, C.L. und Leeming, D.W.: Military Ballistics. A Basic Manual, Brassey’s Publishers Ltd., Oxford 1983 Waffentechnisches Taschenbuch, 6. Edition, Editor: Rheinmetall GmbH, Düsseldorf 1983
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R. Meyer J. Köhler A. Homburg Expl
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Dr. Rudolf Meyer (†) (formerly: W
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Preface and Prof. Dr. P. Elsner, Dr
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From the preface of previous editio
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mass: kg g oz. Ib. kilogram: 1 kg =
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1 Adiabatic Abel Test This test on
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3 Airbag types of generators. Both
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5 Airbag 8 7 4 3 1 2 5 6 1. Ignitio
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7 Airbag ates and chlorates with ad
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9 Akardite III Specifications melti
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11 Ammongelit 2; 3 Aluminum Powder
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13 Ammonium Chloride Vapor pressure
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15 Ammonium Nitrate the most powerf
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17 Ammonium Perchlorate Higher dens
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19 Amorces Ammonium Picrate ammoniu
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21 Armor Plate Impact Test Aquarium
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23 Average Burning Rate front face
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25 Ballistic Bomb z(p/pmax) = p/pma
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27 Ballistic Mortar liveliness at p
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29 Barium Perchlorate Baratols Pour
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31 Bengal Fireworks An oxidizer in
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33 BICT employed, since differing v
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35 Black Powder and heat of explosi
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37 Blasting Gelatin agents are cons
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39 Booster Blasting Switch Zündsch
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41 Brisance Bridgewire Detonator Br
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43 Bullet-resistant Bulldoze Aufleg
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45 Burning Rate Burning Rate Abbran
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47 Butanetriol Trinitrate Butanedio
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49 Cap Sensitivity The following da
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51 Cap Sensitivity and initiated. N
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53 Case Bonding Table 3. Cartridge
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55 CDB Propellants Since W TNT is p
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57 Centralite III Centralite II dim
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59 Combustibility Class A, Class B
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61 Composite Propellants the chambe
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63 Confined Detonation Velocity Com
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65 Coyote Blasting Copper chromite
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67 Cutting Charges Curing Härten;
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69 Cylinder Expansion Test energy o
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71 Dangerous Goods Regulations Fig.
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73 Deflagration Point Deckmaster Tr
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75 Destruction of Explosive Materia
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77 Detonation fuses for the safe in
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79 Detonation The state variables w
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81 Detonation perature and pressure
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83 Detonation of aggregation. They
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85 Detonation 4. Sympathetic Detona
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87 Detonation Fig. 14. Gap test acc
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89 Detonation 6. Detonation Develop
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91 1,1-Diamino-2,2-dinitroethylene
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93 Dibutyl Phthalate at r = 1.5 g/c
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95 Diethyleneglycol Dinitrate Dieth
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97 Dimethylhydrazine, unsymmetrical
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99 4,6-Dinitrobenzofuroxan colorles
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101 Dinitrodioxyethyloxamide Dinitr
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103 Dinitroorthocresol molecular we
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105 Dinitrosobenzene energy of form
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107 Dinitrotoluene heat of fusion:
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109 Diphenylamine oxygen balance: -
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111 Ditching Dynamite Dipicrylurea
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113 Dynaschoc An advantage of this
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115 End of Burning Ednatol A cast e
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117 Energy of Formation; Enthalpy o
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119 Equation of State the calculati
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121 Erythritol Tetranitrate Erosion
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123 Ethylenediamine Dinitrate oxyge
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125 Ethylphenylurethane Ethyl Nitra
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127 Exothermal oxygen balance: -61.
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129 Explosive Forming and Cladding
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131 Explosives W Class A Explosives
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133 Explosives W Diethyleneglycol D
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Table 12. Requirements on Industria
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137 Firing Current combustion chamb
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139 Fragmentation Test plosives wit
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141 Friction Sensitivity Sensitiven
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143 Fumes may lead to heavy interna
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145 Gap Test Functioning Time Ignit
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147 Gelatins; Gelatinous Explosives
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149 Glycerol - 2,4-Dinitrophenyl Et
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151 Glycidyl Azide Polymer lead blo
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153 Guanidine Nitrate Guanidine Nit
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155 Gunpowder them from influx of w
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157 Gurney energy which these powde
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159 Heat of Explosion usually have
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161 Partial Heat of Explosion Compo
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163 Heat Sensitivity In this way, r
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165 Hexamethylene Diisocyanate oxyg
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167 Hexanitroazobenzene energy of f
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169 Hexanitrodiphenylaminoethyl Nit
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171 2,4,6,2',4',6'-Hexanitrodipheny
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173 Hexanitrooxanilide energy of fo
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175 Hexogen heat of explosion calcu
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177 Hot Storage Tests Specification
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179 Hybrids criterion of the propel
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181 Hygroscopicity melting point: s
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183 Illuminant Composition Igniter
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185 Impact Sensitivity each case. T
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187 Impact Sensitivity Table 18. Im
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189 To Inflame Table 20. High criti
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191 Ion Propellants Non-brisant, i.
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193 Lambrit impact sensitivity: 1.5
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195 Lead Azide energy of formation:
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197 Lead Block Test 25 mm in height
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199 Lead Nitrate Lead Ethylhexanoat
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201 Leading Lines heat of explosion
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203 Liquid Propellants explosive st
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205 LOVA Gun-Propellant LOVA An abb
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207 Mannitol Hexanitrate Magazine S
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209 Mercury Fulminate lightly or he
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211 Methylamine Nitrate detonation
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213 Methyl Violet Test Methylphenyl
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215 Miniaturized Detonating Cord Mi
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217 Mud Cap Motor Motor; moteur Gen
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219 Nitrocarbonitrate and the use o
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221 Nitrocellulose the following da
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223 Nitroglycerine heat of explosio
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225 Nitroglycerine cerine produced
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227 Nitroglycol Nitroglycol ethylen
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229 Nitroguanidine; Picrite molecul
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231 Nitromethane detonation velocit
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233 Nitrostarch (H2O liq.): 1266 kc
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235 Nitrourea energy of formation:
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237 Octogen Nozzle Düse; tuyère M
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239 Oxidizer The compound is formed
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241 Parallel Connection The most fa
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243 Pentaerythritol Trinitrate Inje
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245 Permissibles; Permitted Explosi
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247 Permissibles; Permitted Explosi
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249 Permissibles; Permitted Explosi
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251 PETN vapor pressure: Pressure T
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253 Picratol Picramic Acid Dinitroa
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255 Plate Dent Test acid is prepare
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257 Poly-3,3-bis-(azidomethyl)-oxet
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259 Polyvinyl Nitrate PPG serves as
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261 Potassium Perchlorate It is use
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263 Prequalification Test Powder Fo
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265 Progressive Burning Powder Prim
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267 Propyleneglycol Dinitrate Prope
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269 Quick-Match Pyrophoric Material
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271 RID Relay An explosive train co
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273 Rocket Test Stand Rifle Bullet
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275 Sand Test The black powder cont
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277 Seismo-Gelit Screw extruders we
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279 Sensitivity 360 mm wide by 2 mm
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281 Shaped Charges ner can pierce s
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283 Silver Azide Shot Firer Sprengm
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285 SINCO ® Ignition booster and g
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287 Slurrit Skid Test This test is
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289 Solid Propellant Rockets The sa
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291 Specific Energy grain (Bernoull
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293 Squib Hc: enthalpy of the react
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295 Stabilizers Stabilizers Stabili
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297 Strength relevant parameter is
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299 Strength Fig. 22. Specific ener
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301 Surface Treatment Styphnic acid
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303 Tacot Fig. 24. Test results. Sy
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305 Tetramethylammonium Nitrate ing
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307 Tetranitrocarbazole 2,3,4,6-Tet
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309 Tetranitronaphthalene Tetranitr
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311 Tetryl Tetryl trinitro-2,4,6-ph
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313 Thermodynamic Calculation of De
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315 Thermodynamic Calculation of De
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317 Thermodynamic Calculation of De
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319 Thermodynamic Calculation of De
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321 Thermodynamic Calculation of De
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323 Thermodynamic Calculation of De
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- Page 350 and 351: 337 TNT heat of explosion (H2O gas)
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- Page 360 and 361: 347 1,3,3-Trinitroazetidine oxygen
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- Page 376 and 377: 363 Volume of Explosion Gases Vibro
- Page 378 and 379: 365 Water Stemming cut off at one e
- Page 380 and 381: 367 Zinc Peroxide X-Ray Flash By us
- Page 382 and 383: 369 Literature Roth, J.F.: Sprengst
- Page 384 and 385: 371 Literature Gustafson, R.: Swedi
- Page 386 and 387: 373 Literature Wiech, R.E. und Stra
- Page 390 and 391: 377 Literature Goad, K.J.W. und Arc
- Page 392 and 393: 379 Literature Los Alamos Shock Wav
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- Page 396 and 397: 383 Literature 5. Joint Internation
- Page 398 and 399: Index aluminum powder 11; 12; 215;
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- Page 406 and 407: Index Dinol = diazodinitrophenol (g
- Page 408 and 409: Index essai au bloc de plomb = lead
- Page 410 and 411: Index fracture, épreuve de 139 fra
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- Page 420 and 421: Index Normalgasvolumen = Normalvolu
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- Page 426 and 427: Index SFF = EFP 281 S.G.P. = denomi
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- Page 430 and 431: Index TPEON = tripentaerythroloctan
- Page 432 and 433: Index W W I; W II; W III = permitte