| Preface |
|
xiii | |
|
Introduction to Physics of Warheads Against Ballistic Missiles |
|
|
1 | (18) |
|
|
|
1 | (3) |
|
|
|
4 | (2) |
|
|
|
6 | (6) |
|
Simulation Considerations |
|
|
12 | (2) |
|
Warhead System Design Considerations |
|
|
14 | (5) |
|
Fragmentation Warhead Principles |
|
|
19 | (60) |
|
Introduction to Fragmentation Warhead Principles |
|
|
19 | (2) |
|
Naturally Fragmenting Warheads |
|
|
21 | (11) |
|
|
|
25 | (5) |
|
Case Expansion at Fracture |
|
|
30 | (2) |
|
Fragmentation and Dynamic Crack Growth |
|
|
32 | (14) |
|
Computing Average Fragment Mass |
|
|
46 | (3) |
|
Warhead Geometric Modeling |
|
|
49 | (4) |
|
Controlled Warhead Fragmentation |
|
|
53 | (26) |
|
Stress Concentration Considerations |
|
|
55 | (3) |
|
Notch Matrix Considerations |
|
|
58 | (1) |
|
Grid Matrix Warhead Modeling |
|
|
59 | (9) |
|
|
|
68 | (11) |
|
Premade Fragment Warheads |
|
|
79 | (52) |
|
Introduction to Design Logic |
|
|
79 | (9) |
|
Fragment Design Considerations |
|
|
88 | (8) |
|
Premade Fragments on an Uncontrolled Fragmentation Case |
|
|
96 | (6) |
|
Advanced Fragmentation Modeling |
|
|
102 | (29) |
|
Uniform Shape Fragmentation Modeling |
|
|
107 | (5) |
|
Nonuniform Grid Fragmentation Modeling |
|
|
112 | (7) |
|
Liner Fragmentation Considerations |
|
|
119 | (2) |
|
Liner Fragmentation Modeling |
|
|
121 | (2) |
|
|
|
123 | (8) |
|
|
|
131 | (62) |
|
Introduction to KE-Rod Warheads |
|
|
131 | (2) |
|
Center Core Warhead Design |
|
|
133 | (11) |
|
Center Core Warhead Deployment Mechanics |
|
|
136 | (1) |
|
Velocity Prediction Derivations |
|
|
137 | (3) |
|
Rod Tumbling Considerations |
|
|
140 | (4) |
|
Rod Deployment Interactions |
|
|
144 | (5) |
|
|
|
149 | (8) |
|
|
|
149 | (2) |
|
|
|
151 | (2) |
|
Mechanical Vibration Modeling |
|
|
153 | (1) |
|
Theoretical Jelly Roll Modeling Comparisons |
|
|
154 | (3) |
|
Aiming KE-Rod Warhead Design |
|
|
157 | (13) |
|
Estimation of Aimed Rod Deployment Velocity |
|
|
159 | (2) |
|
Modified Equation for Aimed Mode Deployment |
|
|
161 | (5) |
|
Aimable Deployment Mechanics |
|
|
166 | (4) |
|
Rod Penetrator Design Considerations |
|
|
170 | (5) |
|
Stabilized Rod Warhead Considerations |
|
|
175 | (7) |
|
Stabilized Rod Design Derivations |
|
|
176 | (3) |
|
Containment Band Stress Considerations |
|
|
179 | (3) |
|
|
|
182 | (11) |
|
|
|
183 | (10) |
|
|
|
193 | (60) |
|
Introduction to Deformable Warhead Technology |
|
|
193 | (7) |
|
Premade Case Concept Modeling |
|
|
200 | (2) |
|
Zigzag Case Concept Modeling |
|
|
202 | (3) |
|
Endgame Fragment Ejection Mechanics |
|
|
205 | (4) |
|
Gimbaled Warhead Concepts |
|
|
209 | (16) |
|
|
|
212 | (2) |
|
|
|
214 | (8) |
|
|
|
222 | (3) |
|
Shaped-Charge Considerations |
|
|
225 | (9) |
|
Directed Energy System Considerations |
|
|
227 | (3) |
|
Linear Shaped-Charge Derivations |
|
|
230 | (2) |
|
Multijet Shaped-Charge Considerations |
|
|
232 | (2) |
|
|
|
234 | (19) |
|
|
|
236 | (1) |
|
Projectile Charge Warhead |
|
|
237 | (1) |
|
|
|
238 | (3) |
|
|
|
241 | (2) |
|
|
|
243 | (10) |
|
|
|
253 | (62) |
|
Introduction to Blast Warhead Concepts |
|
|
253 | (8) |
|
|
|
253 | (1) |
|
Weapon Shape Considerations |
|
|
254 | (2) |
|
Pressure, Impulse, and Energy Calculations |
|
|
256 | (5) |
|
|
|
261 | (15) |
|
Aluminized Explosive Warheads |
|
|
276 | (7) |
|
Energetic Case Considerations |
|
|
283 | (8) |
|
Combustion Warhead Concepts |
|
|
291 | (5) |
|
Reactive Fragment Technology |
|
|
296 | (5) |
|
Explosive Fragment Technology |
|
|
301 | (14) |
|
Circuit Component Selection |
|
|
301 | (2) |
|
Circuit Analysis of Fragments |
|
|
303 | (3) |
|
|
|
306 | (9) |
|
Direct Hit Modeling with Missile Debris Considerations |
|
|
315 | (50) |
|
Introduction to Direct Hit Modeling |
|
|
315 | (5) |
|
|
|
320 | (4) |
|
Direct Hit Against Unitary Payloads |
|
|
324 | (2) |
|
Direct Hit Against Submunition Payloads |
|
|
326 | (10) |
|
Tate Penetration Equations Related to Direct Hits |
|
|
336 | (7) |
|
Direct Hit Modeling with Hydrocodes |
|
|
343 | (1) |
|
Direct Hit with Lethality Enhancers |
|
|
344 | (10) |
|
Lethal Mechanism Considerations |
|
|
344 | (4) |
|
System and Weapon Design Considerations |
|
|
348 | (6) |
|
Missile Debris Considerations |
|
|
354 | (11) |
|
|
|
354 | (5) |
|
Debris Penetration Calculations |
|
|
359 | (1) |
|
|
|
360 | (5) |
|
Terminal Encounter Kinematics |
|
|
365 | (52) |
|
|
|
365 | (1) |
|
Obliquity Angle Consideration for Blast Fragmentation Warheads |
|
|
365 | (5) |
|
Fragmentation System Warhead Design |
|
|
370 | (18) |
|
Ejection Angle Calculations |
|
|
371 | (3) |
|
Ejection Velocity Calculations |
|
|
374 | (3) |
|
Barrel Warhead Considerations |
|
|
377 | (2) |
|
|
|
379 | (4) |
|
Velocity Gradient Considerations |
|
|
383 | (5) |
|
Velocity Enhanced Electronically Aimed Warheads |
|
|
388 | (6) |
|
KE-Rod Warhead System Approach |
|
|
394 | (5) |
|
|
|
399 | (4) |
|
Fuzing and Warhead Considerations |
|
|
403 | (5) |
|
Warhead Case Material Selection |
|
|
408 | (9) |
|
|
|
409 | (8) |
|
Target Detection Mechanics Coupled with Designing Warheads |
|
|
417 | (50) |
|
Fixed-Angle Fuze Considerations |
|
|
417 | (5) |
|
Optimum Point Burst Delay |
|
|
422 | (11) |
|
Fuze Design Calculation Example |
|
|
426 | (3) |
|
Fuzing Dynamic Ejection Angle Considerations |
|
|
429 | (3) |
|
Optimum Time-Delay Calculations |
|
|
432 | (1) |
|
Late-Bird vs Early-Bird Misses |
|
|
433 | (4) |
|
Angle-of-Attack Considerations |
|
|
437 | (1) |
|
|
|
438 | (2) |
|
Doppler and Intercept Arm Fuzing Mathematical Modeling |
|
|
440 | (8) |
|
|
|
441 | (3) |
|
|
|
444 | (4) |
|
Seeker Fuzing Applications |
|
|
448 | (9) |
|
Warhead Burst Control Error Analysis |
|
|
457 | (3) |
|
|
|
460 | (7) |
|
|
|
461 | (6) |
|
|
|
467 | (58) |
|
Tactical Ballistic Missile Payload Descriptions |
|
|
467 | (1) |
|
|
|
467 | (2) |
|
Integral and Internal Bulk Warheads |
|
|
468 | (1) |
|
High-Explosive Submunition Warhead |
|
|
469 | (1) |
|
TBM Vulnerability to Blast Modeling |
|
|
469 | (5) |
|
|
|
470 | (1) |
|
|
|
471 | (3) |
|
Explosive Relationship and Scaling Laws |
|
|
474 | (5) |
|
Fragment Penetration Principles |
|
|
479 | (11) |
|
THOR Penetration Equations |
|
|
482 | (2) |
|
Fragment Penetration Modeling |
|
|
484 | (6) |
|
Blast and Fragment Damage on Missile Structures |
|
|
490 | (5) |
|
Ballistic Impact of Explosive Munitions |
|
|
495 | (7) |
|
|
|
496 | (5) |
|
|
|
501 | (1) |
|
Vulnerability of Cluster Munitions to Fragments |
|
|
502 | (2) |
|
Hydraulic Ram Considerations |
|
|
504 | (4) |
|
|
|
508 | (17) |
|
|
|
517 | (8) |
|
Warhead Design with Endgame Codes |
|
|
525 | (46) |
|
Introduction to Endgame Computer Simulations |
|
|
525 | (2) |
|
Target Geometric Modeling |
|
|
527 | (1) |
|
|
|
527 | (14) |
|
Warhead Fragmentation Models |
|
|
529 | (2) |
|
|
|
531 | (7) |
|
|
|
538 | (1) |
|
|
|
539 | (1) |
|
|
|
540 | (1) |
|
|
|
541 | (2) |
|
|
|
543 | (2) |
|
Endgame Codes Used with Hydrocode to Optimize Warheads |
|
|
545 | (9) |
|
Computer Programs for Endgame Lethality |
|
|
554 | (17) |
|
SHAZAM Endgame Simulation |
|
|
554 | (1) |
|
|
|
555 | (1) |
|
|
|
556 | (1) |
|
|
|
556 | (1) |
|
Lethality Endgame Simulation (LEGS) |
|
|
556 | (2) |
|
|
|
558 | (1) |
|
|
|
558 | (1) |
|
|
|
558 | (1) |
|
|
|
559 | (1) |
|
|
|
560 | (1) |
|
|
|
560 | (4) |
|
Joint Service Endgame Model (JSEM) |
|
|
564 | (1) |
|
|
|
564 | (2) |
|
|
|
566 | (1) |
|
|
|
567 | (2) |
|
|
|
569 | (2) |
|
Warhead Evaluation Principles |
|
|
571 | (46) |
|
Introduction to Evaluation Concepts |
|
|
571 | (1) |
|
|
|
571 | (1) |
|
Vulnerable Area Computations |
|
|
572 | (5) |
|
KE-Rod Warhead Deployment Density |
|
|
577 | (8) |
|
Blast Fragmentation Density |
|
|
585 | (2) |
|
|
|
587 | (1) |
|
Warhead Analysis Considerations |
|
|
588 | (1) |
|
Kill Probability of Fragment Patterns |
|
|
589 | (3) |
|
Uniform and Random Fragment Patterns |
|
|
592 | (5) |
|
|
|
597 | (3) |
|
Miss Distance Frequency Distribution |
|
|
600 | (2) |
|
Direct Hit Probability and Fuzing |
|
|
602 | (3) |
|
|
|
605 | (12) |
|
|
|
609 | (8) |
| Index |
|
617 | |
