| 1 - 12 |
A new approach to the reactive burn modeling of heterogeneous explosives
Horie Y, Hamate Y |
| 13 - 20 |
Dynamic deformation of regularly cell-structured materials
Aizawa T, Mukai T, Kanahashi H, Suwa Y |
| 21 - 26 |
Control of crush mode of strengthening members with hat-shaped cross-section in axial impact
Yamashita M, Gotoh M |
| 27 - 34 |
Laser induced shock defects in copper aluminum alloys: Stacking fault energy effects on the slip-twinning transition
Schneider MS, Kad BK, Gregori F, Kalantar DH, Remington BA, Meyers MA |
| 35 - 42 |
Dynamic tensile properties of steel sheets for automobiles
Tanimura S, Kojima N, Yamamoto T, Yamaji K |
| 43 - 48 |
Design of impact energy characteristics of FRP deep-drawn structures
Mizukami K, Hasebe T, Katayama T, Nakamura Y, Imaida Y |
| 49 - 54 |
High velocity impact of steel fragment on thick aluminum target
Cheng WL, Itoh S |
| 55 - 60 |
Dynamic behavior of stress waves in blasting process
Matsumoto S, Nakamura Y, Itoh S |
| 61 - 66 |
Numerical simulation of impact transonic interfacial fracture with the crack coalescence
Nishioka T, Tsuda T, Fujimoto T |
| 67 - 72 |
Shock induced damage in austenitic stainless steel
Buchar J, Voldrich J, Rolc S |
| 73 - 78 |
Computer simulation of a boeing 747 passenger jet crashing into a reinforced concrete wall
Itoh M, Katayama M, Rainsberger R |
| 79 - 84 |
Studies on aluminum armour plates impacted by deformable and non-deformable projectiles
Kumar KS, Singh D, Bhat TB |
| 85 - 92 |
Prospects of hot explosive pressing in powder metallurgy
Prummer RA |
| 93 - 100 |
Shock compaction of bulk nanocomposite magnetic materials
Jin ZQ, Rockett C, Liu JP, Hokamoto K, Thadhani NN |
| 101 - 105 |
Application of explicit FE techniques on the explosive compaction/cladding of high-temperature superconductors
Mamalis AG, Vottea IN, Manolakos DE |
| 107 - 112 |
Studies on explosive compaction and heat treatment of 2124 Al-SiCp composites
Kumar KS, Hokamoto K, Bhat TB |
| 113 - 116 |
Shock-wave synthesis of cubic phase of silicon nitride Si3N4
Deribas AA, Silvestrov VV, Yunoschev AS |
| 117 - 121 |
Biological effects of shock pressure on microorganism
Kani K |
| 123 - 130 |
Shock wave induced extremely high oscillating pressure peaks
Ben-Dor G, Elperin T, Vasilev EI |
| 131 - 138 |
Scattering of shock into acoustic waves in shock-vortex interaction
Chang KS, Chang SM |
| 139 - 142 |
Propulsive impulse generation using CO2 TEA lasers
Sasoh A, Watanabe K, Yu X, Ohtani T, Takahashi T, Kawahara T, Ogawa T |
| 143 - 149 |
ALE and fluid structure interaction
Souli M, Mahmadi K, Aquelet N |
| 151 - 156 |
Study on the state in a steady shock front propagating in aluminum materials
Abe A |
| 157 - 162 |
Molecular dynamics simulations of shock-induced thermite reaction
Tomar V, Zhou M |
| 163 - 168 |
A numerical study of sympathetic detonation in gap test
Kubota S, Liu ZY, Otsuki M, Nakayama Y, Ogata Y, Yoshida M |
| 169 - 174 |
Calculation of blast wave strength in different propagating directions from a model magazine explosion
Liu ZY, Kubota S, Otsuki M, Kim DJ, Nakayama Y, Yoshida M |
| 175 - 180 |
Field investigation of blast-induced damage of the sedimentary strata rock mass at PT Kaltim Prima Coal, Indonesia
Simangunsong GM, Yulianto E, Kramadibrata S, Matsui K, Shimada H, Kubota S, Ogata Y |
| 181 - 184 |
Experimental determination of the detonation front curvature of non-ideal explosive ANFO
Miyake A, Ohtagaki Y, Abe T, Wada Y, Nakayama Y, Ogawa T |
| 185 - 188 |
Control of variation of time delay from ignition to launch in ETC gun
Akahoshi Y, Matsuda E, Hata H |
| 189 - 194 |
Chemical reactions and other behaviors of high energetic materials under static ultrahigh pressures
Goto N, Yamawaki H, Tonokura K, Wakabayashi K, Yoshida M, Koshi M |
| 195 - 199 |
Study on the effects of addition of boron particles to RDX-based PBX regarding prevention of Neumann effect
Sezaki T, Shingo DA, Satoh JI |
| 201 - 206 |
Microstructural study on underwater shock consolidated Al/SiCp composites
Raghukandan K, Hokamoto K, Lee JS, Mori A |
| 207 - 212 |
Effect on explosive cladding of TITAN 12/SS 304 L plates under multiple conditions (Design matrix)
Tamilchelvan P, Raghukandan K, Hokamoto K, Dey HC, Bhaduri AK |
| 213 - 218 |
Microstructure and interface studies of AI/SiC(P) composites produced by dynamic compaction
Eskandari H, Ghasemi HM, Emamy M |
| 219 - 224 |
Wave forming mechanisms in explosive welding
Carton EP |
| 225 - 230 |
The effect of wall configuration on deformation and fragmentation for explosively expanded cylinders of 304 stainless steel
Hiroe T, Fujiwara K, Kiyomura K |
| 231 - 236 |
Impact seam welding with magnetic pressure for aluminum sheets
Okagawa K, Aizawa T |
| 237 - 240 |
A technique of local processing by small amount of explosive powder
Fujiwara K, Hiroe T, Ohno Y, Hokamoto K, Nakao T |
| 241 - 246 |
Ultrasonic application to scan the layup of CFRP composite laminates
Yang IY, Im KH, Hsu DK, Kim SK, Cho YT |
| 247 - 252 |
Characterization of impact damages and responses in CFRP composite shells
Kim YN, Im KH, Yang IY |
| 253 - 258 |
Analytical damage evaluation for particle or short fiber reinforced composites
Yoon DY, Tohgo K, Im KH, Cho YT |
| 259 - 264 |
3-D laser vibration measurement and an analysis of the unsteady flow-field and aerodynamic sound of turbo fan motor in a vacuum cleaner
Kim JY, Kwac LK, An JS |
| 265 - 269 |
Optical observation of extremely high impulsive pressure generator using collision of high velocity metal jets
Kira A, Takaenoki D, Hamashima H, Tomoshige R, Fujita M, Hokamoto K, Itoh S |
| 271 - 276 |
Research on the JWL parameters of several kinds of explosives
Kato H, Kaga N, Takizuka M, Hamashima H, Itoh S |
| 277 - 282 |
Investigation on more effective shock wave usage for warhead with HE(I)
Kato H, Kaga N, Takizuka M, Hamada T, Itoh S |
| 283 - 287 |
Underwater shock and bubble pulse loading against model steel cylinder
Murata K, Takahashi K, Kato Y |
| 289 - 294 |
Power law relations between stress and strain-rate observed with glassy polymer under uniaxial strain conditions
Sato Y, Ueno T |
| 295 - 299 |
Effects of experimental parameters in the explosive welding process using reflected underwater shock wave
Shiramoto K, Mori A, Hokamoto K, Fujita M |
| 301 - 306 |
Study of the effect of the indentation time and load on fracture toughness and crack morphologies in WC-17Co thermally sprayed HVOF coating
Asl SK, Sohi MH |
| 307 - 311 |
Characteristics of the new explosive welding technique using underwater shock wave - Based on numerical analysis
Mori A, Hokamoto K, Fujita M |
| 313 - 318 |
The possibility for making large-sized bulk AI-based composites through dynamic compaction using water as pressure transmitting medium
Hokamoto K, Lee JS, Mori A, Tanaka S |
| 319 - 324 |
Card gap test of tri-n-butyl phosphate/fuming nitric acid mixture
Ruyat Y, Nakayama Y, Matsumura T, Wakabayashi K, Liu ZY, Kubota S, Nakahara T, Miyake A, Ogawa T, Yoshida M |
| 325 - 330 |
Calculation of detonation parameters by EXPLO5 computer program
Suceska M |
| 331 - 336 |
Development of a shock tube for nondestructive evaluation in concrete structures
Iwamoto T, Mori K, Torigoe I |
| 337 - 342 |
Piercing process of very thin sheet metal using explosive-impulsive pressure
Marumo Y, Saiki H, Ruan LQ, Hokamoto K, Itoh S, Iyama H |
| 343 - 348 |
Detonation initiation of cast H-6 high explosive due to shock stimuli
Cheng W, Itoh S, Langlie S |
| 349 - 354 |
A method of detecting voids under concrete plates by impact-echo test
Mori K, Torigoe I, Tokunaga M, Hatanaka S, Shiramizu Y |
| 355 - 360 |
Nondestructive inspection of concrete structures by using sound wave
Mori K, Torigoe I, Momosaki N |
| 361 - 366 |
Effect of the strain rate and water saturation for the dynamic tensile strength of rocks
Ogata Y, Jung W, Kubota S, Wada Y |
| 367 - 372 |
Dynamic tensile experiment of rock using underwater shock wave
Jung W, Kubota S, Wada Y, Ogata Y, Shimada H, Matsui K |
| 373 - 378 |
Effect of heat treatment on formation of columnar ferrite structure in explosively welded titanium/hypoeutectoid steel joints
Morizono Y, Nishida M, Chiba A, Yamamuro T |
| 379 - 384 |
An investigation on overdriven detonation phenomenon in concentric double cylindrical high explosive
Hamada T, Itoh S, Kato H |
| 385 - 390 |
Evacuation effect on products during underwater shock compaction
Tomoshige R, Fujita M |
| 391 - 396 |
Numerical simulation of free forming of aluminum alloy using underwater shock wave
Iyama H, Hinata T, Takahashi K, Itoh S |
| 397 - 402 |
Study on the effect of underwater shock wave and gas expansion in explosive forming
Iyama H, Hinata T, Takahashi K, Itoh S |
| 403 - 408 |
Reactive flow models for three types of explosive and two propellants
Cheng W, Itoh S, Langlie S |
| 409 - 414 |
Structure of a shaped jet formed in an oblique collision of flat metal plates
Drennov OB |
| 415 - 420 |
Calculation of dynamic strain energy release rates due to shock wave loading
Cheng W, Itoh S, Kuo AY |
| 421 - 426 |
Nonideal blast waves from heterogeneous explosives
Frost DL, Zhang F |
| 427 - 432 |
The effect of the heat treatment on residual stresses in HVOF sprayed WC-Co coating
Asl SK, Sohi MH, Hadavi SMM |
| 433 - 438 |
Comparative study of Al/SiC(P) composites manufactured by direct and underwater explosive compaction
Eskandari H, Hokamoto K, Ghasemi HM, Emamy M, Borji S, Lee JS |
| 439 - 444 |
Numerical studies of wave generation using spiral detonating cord
Mahmadi K, Itoh S, Hamada T, Aquelet N, Souli M |
| 445 - 452 |
Prediction of unreacted shock Hugoniot compression curve for condensed phase high explosives
Nagayama K, Kubota S |
| 453 - 464 |
Some studies on the developments of explosive metal processing technology
Itoh S |
| 465 - 473 |
Microstructure of bonding interface in explosively-welded clads and bonding mechanism
Chiba A, Nishida M, Morizono Y |
| 475 - 480 |
Detonation propagation in packed beds of aluminum saturated with nitromethane
Kato Y, Nakamura Y, Murata K, Inoue K, Itoh S |
