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CYCLOTOL 8.3 Skid Test Results. Density Wcma) Weight Percent RDX Impact Angle (degrees) Target Surface J&O (W - Overpressure (Psi) 1.758 77 15 Sand and epoxy 4 < 1.0 8.4 Susan Test Results.1z 8.5 Spark Sensitivity. I Projectile Impact Velocity Ws) Relative Energy Release W) - 200 5 500 25 1000 50 Lead Foil Occurrence of Thickness Sample Size Energy Explosion Electrode (mils) bg) (J) (So) Brass 3 27 0.38 23 Brass 10 27 3.29 23 ’ 9. MECHANICAL PROPERTIES 32 9.3 Compressive Strength and Modulus. Temperature (“C) Ultimate Compressive Strength (psi) Compressive Modulus (psi x IO- “) 50 650 f 150 0.74 rt 0.3 0 856 41 200 2.39 f 0.3 -40 993 l 354 1.47 * 0.06
REFERENCES CYCLOTOL 1. C. R. Buck and S. E. Wilson, Jr., US Army report USEHA-32-049 (1975). 2. Code of Federal Regulations, 49, Transportation Parts 100-199, Rev. 12-1-76 (Office of the Federal Register, General Services Administration, Washington, DC, 1976). 3. US Army Materiel Command, Regulation No. AMCR 385100 (1977). 4. A. Seidell, Solubilities of <strong>Org</strong>anic Compounds, 3rd Ed., Vol. II (D. Van Nostrand Co., Inc., New York, 1941). 5. Prince E. Rouse, Jr., Journal of Chemical and Engineering Data 21, 16-20 (1976). 6. R. N. Rogers, Thermochimica Acta 11,131-139 (1975). 7. A. W. Campbell and Ray Engelke, Proceedings-Sixth Symposium (Inter- national) on Detonation, Coronado, California, August 24-27, 1976 (Office of Naval Research, Department of the Navy, ACR-221, 1976), pp. 642-652. 8. W. E. Deal, Journal of Chemical Physics 27,796-800 (1957). 9. L. C. Smith, Explosivstoffe l&106-130 (1967). 10. Manuel J. Urizar, Suzanne W. Peterson, and Louis C. Smith, Los Alamos Scientific Laboratory report LA-7193-MS (April 1978). 11. A. Popolato, Proceedings of the International Conference on Sensitivity and Hazards of Explosives, Ministry of Aviation, Waltham Abbey, Essex (October 1963). 12. L. Green, Lawrence Livermore Laboratory, private communication (1975). 33
Page 2 and 3: LOS ALAMOS SERIES ON DYNAMIC MATERI
Page 4 and 5: University of California Press Berk
Page 6 and 7: PART II. EXPLOSIVES PROPERTIES BY P
Page 8 and 9: treats pure explosives first, alpha
Page 10 and 11: EXPLOSIVES PROPERTIES BY EXPLOSIVE
Page 12 and 13: BARATOL 2.3 Shipping.2 Baratol is s
Page 14 and 15: BARATOL 6 5.4 Thermal Conductivity.
Page 16 and 17: BARATOL 6.2 Detonation Pressure. We
Page 18 and 19: BARATOL REFERENCES . . 1. N. I. Sax
Page 20 and 21: COMP B slowly. Heating and stirring
Page 22 and 23: COMP B 14 3.3 Solubility.‘The sol
Page 24 and 25: COMP B 16 5.3 Heat Capacity. Heat C
Page 26 and 27: COMP B 18 6.2 Detonation Pressure.
Page 28 and 29: COMP B 7.3 Shock Hugoniots.12J8 Com
Page 30 and 31: COMP B 9. MECHANICAL PROPERTIES 22
Page 32 and 33: CYCLOTOL 1. GENERAL PROPERTIES 1.1
Page 34 and 35: CYCLOTOL 26 3.2 Molecular Weight. C
Page 36 and 37: CYCLOTOL 4.3 Infrared Spectrum. See
Page 38 and 39: CYCLOTOL where D = detonation veloc
Page 42 and 43: DATB 1. GENERAL PROPERTIES 1.1 Chem
Page 44 and 45: DATB 4. PHYSICAL PROPERTIES 4.1 Cry
Page 46 and 47: DATB 5.4 Thermal Conductivity, Cond
Page 48 and 49: DATB 7.3 Shock Hugoniot.9 Density k
Page 50 and 51: HMX* 1. GENERAL PROPERTIES 1.1 Chem
Page 52 and 53: HMX 3.2 Molecular Weight. 296.17 3.
Page 54 and 55: HMX 5. THERMAL PROPERTIES 46 5.1 Ph
Page 56 and 57: HMX 6. DETONATION PROPERTIES 6.1 De
Page 58 and 59: HMX 7.3 Shock Hugoniots.” Density
Page 60 and 61: NITROGUANIDINE 1. GENERAL PROPERTIE
Page 62 and 63: NQ 54 4.2 Density.’ Crystal Metho
Page 64 and 65: NQ 56 5.6 Heats of Combustion and F
Page 66 and 67: NQ 6.2 Detonation Pressure. There a
Page 68 and 69: NQ 8. SENSITIVITY 8.1 Drop Weight I
Page 70 and 71: OCTOL These are shipped to an ordna
Page 72 and 73: 64 OCTOL 3.3 Solubility.6 The solub
Page 74 and 75: OCTOL 5. THERMAL PROPERTIES 66 5.1
Page 76 and 77: OCTOL 68 6.4 Plate Dent Test Result
Page 78 and 79: OCTOL 8.3 Skid Test Results. Weight
Page 80 and 81: PBX 9011 1. GENERAL PROPERTIES 1.1
Page 82 and 83: PBX 9011 3.3 Solubility. The solubi
Page 84 and 85: PBX 9011 76 5.5 Coefficient of Ther
Page 86 and 87: PBX 9011 78 6.3 Cylinder Test Resul
Page 88 and 89: PBX 9011 7.5 Detonation Failure Thi
Page 90 and 91:
PBX 9011 82 9.3 Compressive Strengt
Page 92 and 93:
PBX9404 1. GENERAL PROPERTIES 1.1 C
Page 94 and 95:
PBX 9404 86 3.2 Molecular Weight. C
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PBX 9404 88 4.3 Infrared Spectrum.
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PBX 9404 > 1 1 o- r 0 I I I, / PYRO
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PBX 9404 7. SHOCK INITIATION PROPER
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PBX 9404 7.5 Detonation Failure Thi
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PBX 9404 8.5 Spark Sensitivity. Ele
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PBX 9404 REFERENCE‘S 1. Committee
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PBX 9407 2.3 Shipping.2 PBX-9407 mo
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PBX 9407 4.3 Infrared Spectrum. See
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PBX 9407 6. DETONATION PROPERTIES I
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PBX 9407 106 7.2 Wedge Test Results
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PBX 9407 9.3 Compressive Strength a
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PBX 9501 2.3 Shipping.* PBX-9501mol
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PBX 9501 5. THERMAL PROPERTIES 112
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PBX 9501 6. DETONATION PROPERTIES 6
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PBX 9501 7.3 Shock Hugoniot. Densit
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PBX 9501 9. MECHANICAL PROPERTIES*
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PBX9502 1. GENERAL PROPERTIES 1.1 C
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PBX 9502 3.3 Solubility. The solubi
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PBX 9502 124 5.3 Heat Capacity. 5.4
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PBX 9502 6.3 Cylinder Test Results.
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PBX 9502 9. MECHANICAL PROPERTIES 1
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PENTAERYTHRITOLTETRANITRATE (PETN)
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PETN 3.2 Molecular Weight. 316.15 3
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PETN 4.4 Refractive Indices.s Omega
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PETN 5.7 Thermal Decomposition Kine
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PETN 138 7.2 Wedge Test Results. De
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, PETN 5. US Army Materiel Command,
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RDX developed into a continuous hig
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RDX 4. PHYSICAL PROPERTIES 4.1 Crys
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RDX 146 5.2 Vapor Pressure.8 Temper
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RDX 6. DETONATION PROPERTIES 148 6.
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RDX 7.3 Shock Hugoniot.” 8. SENSI
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TATB 1. GENERAL PROPERTIES 1.1 Chem
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TATB TATB solubility in sulfuric ac
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TATB 5.2 Vapor Pressure.6 A least s
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TATB I / / I I I I I I I ! \ I 1 \
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TATB 7.3 Shock Hugoniots.“+ A num
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TATB REFERENCES 1. T. M Benziger an
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TETRYL acetone. In the second proce
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TETRYL 2.5 100 80 60 % T 40 20 0 :;
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TETRYL 6. DETONATION PROPERTIES 6.1
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TETRYL 7.5 Detonation Failure Thick
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TNT 1. GENERAL PROPERTIES 1.1 Chemi
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TNT 4. PHYSICAL PROPERTIES 4.1 Crys
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TNT 4.3 Infrared Spectrum. See Fig.
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TNT 178 5.5 Coefficient of Thermal
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TNT The charge preparation method a
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TNT 182 6.4 Plate Dent Test Results
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TNT 7.3 Shock Hugoniots.2aJ4 Densit
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TNT 9.3 Compressive Strength and Mo
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XTX8003 1. GENERAL PROPERTIES 1.1 C
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XTX 8003 3.3 Solubility.6 The solub
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XTX 8003 5.7 Thermal Decomposition
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XTX 8003 8. SENSITIVITY 8.1 Drop We
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XTX8004 1. GENERAL PROPERTIES 1.1 C
Page 206 and 207:
XTX 8004 3.3 Solubility. The solubi
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XTX 8004 6. DETONATION PROPERTIES 6
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PART II EXPLOSIVES PROPERTIES BY IP
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Explosive Alex/20 Alex/30 Amatex/20
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Explosive PBX 9007 PBX 9010 PBX 901
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Explosive Constituents X-0234-60 X-
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Alex/20 Alex/30 Amatexl20 Amatexl30
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NQ octo1 PAT0 Explosive PBX 9007 PB
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X-0234-60 X-0234-70 X-0234-80 X-028
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THERMAL PROPERTIES 2. THERMAL PROPE
Page 226 and 227:
THERMAL PROPERTIES k2 = kl - (4, -
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Explosive PETN RDX TNT Table 2.03 C
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THERMAL PROPERTIES AEE = standard i
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THERMAL PROPERTIES Fig. 2.02. Pyrol
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,’ THERMAL PROPERTIES L Y !s :: B
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THERMAL PROPERTIES 228 Composition
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THERMAL PROPERTIES B Y !3 E E “I
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THERMAL PROPERTIES This assembly is
Page 242 and 243:
DETONATION PROPERTIES 3. DETONATION
Page 244 and 245:
DETONATION PROPERTIES 236 Table 3.0
Page 246 and 247:
Shot No. c-4394 E-4672 E-4067 E-406
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DETONATION PROPERTIES Table 3.06 CY
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Table 3.08 OCTOL DETONATION VELOCIT
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Rate Stick Shot ’ Diameter No. (m
Page 254 and 255:
DETONATION PROPERTIES 246 Table 3.1
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Shot No. C-4436 E-3621 - Rate Stick
Page 258 and 259:
Table 3.15 GENERAL CYLINDER TEST SH
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DETONATION PROPERTIES 252 Expansion
Page 262 and 263:
Expansion Radius (mm) Table 3.19 X-
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N VI UY Table 3.21 X-0285 WALL VELO
Page 266 and 267:
DETONATION PROPERTIES Table 3.25 X-
Page 268 and 269:
Explosive Table 3.26 DETONATION (C-
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DETONATION PROPERTIES Analysis Line
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DETONATION PROPERTIES Explosive Tab
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Page 276 and 277:
Page 278 and 279:
Page 280 and 281:
Page 282 and 283:
Page 284 and 285:
Page 286 and 287:
Page 288 and 289:
DETONATION PROPERTIES 3.4 Plate Den
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Exnlosive Table 3.46 (continued) De
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Explosive PBX 9501 x-0007 86 HMX/14
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85 RDX/lS Kel-F Explosive 88 RDXI12
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DETONATION PROPERTIES Table 3.47 LE
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DETONATION PROPERTIES Table 3.48 DE
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SHOCK INITIATION PROPERTIES PETN Ba
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SHOCK INITIATION PROPERTIES Fig. 4.
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SHOCK INITIATION PROPERTIES each sh
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SHOCK INITIATION’PROPERTIES Table
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SHOCK INITIATION PROPERTIES 300 i;
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w R Table 4.04 NITROMETHANE Composi
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SHOCK INITIATION PROPERTIES 304 Tab
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SHOCK INITIATION PROPERTIES 306 / D
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SHOCK INITIATION PROPERTIES 308 2 0
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Table 4.06 (continued) Coordinates
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SHOCK INITIATION PROPERTIES 312 I-
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SHOCK INITIATION PROPERTIES 316 05
Page 326 and 327:
Table 4.07 PETN (SINGLE CRYSTAL) Co
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Table 4.08 (continued) Shot Number
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SHOCK INITIATION PROPERTIES 324 2 u
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Page 336 and 337:
SHOCK INITIATION PROPERTIES Table 4
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Page 340 and 341:
Page 342 and 343:
SHOCK INITIATION PROPERTIES 334 2T
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Page 348 and 349:
Initial Shock Parameters Table 4.12
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SHOCK INITIATION PROPERTIES 342 Ini
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3 *a i 8 3 x j > f m e c u,, = (2.3
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SHOCK INITIATION PROPERTIES 348 Dis
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w ul 0 Composition 95 wt% DATB, 5 w
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SHOCK INITIATION PROPERTIES 5.5- 5.
Page 362 and 363:
5 Table 4.17 (continued) Coordinate
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SHOCK INITIATION PROPERTIES 40- 20
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Shot E-3120 3.370 $0.022 E-3131 2.4
Page 370 and 371:
_. Shot Number E-771 E-781 B-4481 B
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SHOCK INITIATION PROPERTIES 364 2 I
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SHOCK INITIATION PROPERTIES 366 0.6
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SHOCK INITIATION PROPERTIES Composi
Page 380 and 381:
Table 4.21 X-0219-50-14-10 Composit
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Composition 95 wt% NQ, 5 wt% Estane
Page 386 and 387:
Shot Number (G?a) E-3245 16.2 5.904
Page 388 and 389:
SHOCK INITIATION PROPERTIES 380 c x
Page 390 and 391:
w R Table 4.24 (continued) Reduced
Page 392 and 393:
Table 4.25 XTX-8003 (EXTEX) Composi
Page 394 and 395:
SHOCK INITIATION PROPERTIES 386 a--
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Table 4.27 PBX 9407 Compositon 94 w
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SHOCK INITIATION PROPERTIES 390 3 g
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Table 4.28 PBX 9405 Cotiposition 93
Page 402 and 403:
SHOCK INITIATION PROPERTIES 394 c 5
Page 404 and 405:
% OY Table 4.30 x-0250-40-19 Compos
Page 406 and 407:
SHOCK INITIATION PROPERTIES 398 Dis
Page 408 and 409:
Table 4.32 95 TATB/2.5 Kel-F 800/2.
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Page 412 and 413:
Page 414 and 415:
Page 416 and 417:
Table 4.39 (continued) Coordinates
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Page 420 and 421:
Page 422 and 423:
z Table 4.44 FKM CLASS VII PROPELLA
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Page 426 and 427:
Page 428 and 429:
Theoretical Maximum Density >1.910
Page 430 and 431:
Page 432 and 433:
Page 434 and 435:
Ammonium picrate Raratol(76/24) mix
Page 436 and 437:
HMX-Based PBX 9011 PBX 9404 PBX-950
Page 438 and 439:
SHOCK INITIATION PROPERTIES 0.360 c
Page 440 and 441:
SHOCK INITIATION PROPERTIES 432 I I
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SHOCK INITIATION PROPERTIES Fig. 4.
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SHOCK INITIATION PROPERTIES Explosi
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SHOCK INITIATION PROPERTIES TRANSIT
Page 450 and 451:
SHOCK INITIATION PROPERTIES 442 FOI
Page 452 and 453:
Page 454 and 455:
SENSITIVITY TESTS 5. SENSITIVITY TE
Page 456 and 457:
Ammonium nitrate Ammonium picrate B
Page 458 and 459:
-’ .-- _- ..- _ “. Cyclotol75/2
Page 460 and 461:
Explosive RDX-Based with Metal Fill
Page 462 and 463:
SENSITIVITY TESTS 5.2 Skid Test. Th
Page 464 and 465:
Explosive Comp A-3 1.638 45 PBX 901
Page 466 and 467:
SENSITIVITY TESTS 5.3 Large-Scale D
Page 468 and 469:
SENSITIVITY TESTS 5.4 Spark Sensiti
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GLOSSARY ABH Amatex-20 ATNI BDNPA B
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NP OFHC ONT P-16 P-22 P-40 P-80 P-1
Page 474 and 475:
AUTHOR IND Ablard, J. E. 141, 151 A
Page 476 and 477:
SUBJECT INDEX ABH 461 Alex/20 204,
Page 478 and 479:
pentaerythritol tetranitrate (PETN)
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