Title:
Explosion, shock wave and hypervelocity phenomena in materials II : selected peer reviewed papers from the 2nd International Symposium on Explosion, Shock Wave and Hypervelocity Phenomena (ESHP-2), 6-9 March 2007, Kumamoto, Japan
Series:
Materials science forum ; v. 566
Publication Information:
Stafa-Zurich, Switzerland ; Enfield, NH : Trans Tech Publications, c2008
Physical Description:
x, 377 p. : ill. ; 25 cm.
ISBN:
9780878494651
Available:*
Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
---|---|---|---|---|---|
Searching... | 30000010277904 | QD516 I58 2008 | Open Access Book | Book | Searching... |
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Summary
Summary
Volume is indexed by Thomson Reuters CPCI-S (WoS).The objective of this special-topic volume was to disseminate work on current trends in Explosion, Shock Wave and Hypervelocity Phenomena in Materials.
Table of Contents
Reconsideration of the So-Called von Neumann Paradox in the Reflection of a Shock Wave over a Wedge | p. 1 |
Development of a Large Diameter Diaphragmless Shock Tube for Gas-Dynamic Laser Studies | p. 9 |
Behaviors of High Explosive near the Critical Conditions for Shock Initiation of Detonation | p. 15 |
Experimental Determination of Shock Hugoniot for Water, Castor Oil, and Aqueous Solutions of Sodium Chloride, Sucrose and Gelatin | p. 23 |
Dynamic Response of a Steel Pipe to Internal Blast Loading | p. 29 |
Design and Experiment of Compact Projectile Accelerator Driven by Explosives | p. 35 |
Detonation Behaviors of Nitromethane with Various Initiating Shock Pressure | p. 41 |
High-Speed Photographic Observation of Shock-Pressure Pulses in Water Induced by Laser Energy Absorption at Roughened Surface | p. 47 |
Behaviour of Cellular Structures under Impact Loading a Computational Study | p. 53 |
Numerical Studies of Explosive Welding by SPH | p. 61 |
Numerical Simulation of Shaped Charges Using the SPH Solver: Jet Formation and Target Penetration | p. 65 |
Numerical Analysis of Projectile-Launch Tube Wall Friction Effects on Projectile Acceleration in Single-Stage Gun | p. 71 |
Numerical Simulation of Underwater Explosive Compaction Process for Compaction of Tungsten Powder | p. 77 |
Plate Response to Buried Charge Explosion | p. 83 |
Numerical Prediction on Cookoff Explosion of Explosive under Strong Confinement | p. 89 |
Multi-Physics Modeling Based on Combustion of Energetic Materials | p. 95 |
Diameter Effect on Detonation Velocity of Ammonium Nitrate and Activated Carbon Mixtures | p. 101 |
Detonation Velocity and Pressure of Ammonium Nitrate and Activated Carbon Mixtures | p. 107 |
Hot Explosive Compaction of Udimet 700 Powder | p. 113 |
Explosive Welding of ZrTiCuNiBe Bulk Metallic Glass to Crystalline Metallic Plates | p. 119 |
Shock Wave Chemical Reactions; Synthesis of Carbon Nitrides | p. 125 |
Properties of Cubic Si3N4 Obtained by Shock Synthesis | p. 129 |
Novelties in Physics of Explosive Welding and Powder Compaction | p. 135 |
Processing of Advanced Materials Using Conventional and Shock Techniques | p. 141 |
Explosive Cladding for ITER Components | p. 149 |
A DTA Study on HVOF Thermally Sprayed WC-M Coatings | p. 155 |
Study of Phase Transformations in Heat Treatment of HVOF Thermally Sprayed WC-17Co Coating | p. 161 |
On Micro Forming by Hydro Spark Forming Method | p. 167 |
Control of Onset of Buckling Lobe in Axial Impact of Square Tube | p. 173 |
Dependence of Blast Attenuation on Weight of Barrier Materials | p. 179 |
Underground Space Construction by Explosive Loading in a Borehole | p. 185 |
The Sterilization of Dry Powdered Foods by Successive Impacts | p. 191 |
Study on the Relationship between Some Foods and Underwater Shock Wave Using the Explosion of the Detonating Fuse | p. 197 |
Research on Sessile Organism Removal from Metal Using the Underwater Shock Wave | p. 203 |
Influence of Inert Copper and Silicon Carbide Inserts on Process of Detonation Transmission through Water | p. 207 |
Analysis of Explosion Combustion Phenomenon with Ammonium Nitrate | p. 213 |
A Safe Use of Explosives by Parting into a Small Amount of Powder | p. 219 |
A Study on Shock Energy for Concrete Destruction Using Underwater Shock Wave | p. 225 |
The Study about "Cullet" Generation Technique and Application for Recycling System by Using Underwater Shockwaves | p. 231 |
Mechanical Changes in Materials Caused by Explosive Precompression Shock Waves and the Effects on Fragmentation of Exploding Cylinders | p. 237 |
Basic Study for Crushing of Ice by Underwater Shock Wave | p. 243 |
Effect on Aqua Quenching of Spring Steel (JIS SUP 9) | p. 249 |
New Impact Testing Methods for Sheet Metals Based on SHPB Technique | p. 255 |
Ultrasonic Nondestructive Approach on Fiber Orientation Inspection in CFRP Composite Laminates | p. 261 |
Nondestructive Evaluation of Rayleigh Pitch-Catch Contact Ultrasound Waves on Impacted-Damaged Composites | p. 267 |
Observation of High Velocity Oblique Collision of Titanium and Stainless Steel Plates by Using Gas Gun | p. 273 |
Micro Structural Studies On Explosively Clad Cu/Ss, Br/Ss and Al/Ss Plates | p. 279 |
A Study of the Weld Zones on Explosive Cladded Titan12/Ss 304 L Plates | p. 285 |
Explosion Joining of Magnesium Alloy AZ31 and Aluminum | p. 291 |
Utilization of Technology of Explosive Welding at Development of Multilayer Ballistic Resistant Materials | p. 297 |
Underwater Explosive Welding of Thin Magnesium Plate onto some Metal Plates | p. 303 |
Numerical Simulation on Explosive Welding Process Using Reflected Underwater Shock Wave | p. 309 |
Collection of Product Synthesized Using Extremely High Impulsive Pressure Generator | p. 315 |
Advanced Materials Synthesis and Microstructural Characterization Using Explosive at Sojo University | p. 321 |
Investigation of Jet Formation with Overdriven Detonation in High Density Explosive | p. 327 |
Shock Compaction of WC-Co Powder in Metallic Tube | p. 333 |
Optimal Design of Shock Compaction Device | p. 339 |
A Study on the Consolidation of Cu, Ni / Graphite Powder Using Shock Compaction Method | p. 345 |
Microstructure Modification of Magnesium Alloys by High Current Electropulsing | p. 351 |
The Formation of Onions at Shock-Wave Loading of Graphite | p. 357 |
The Industrial Applications of Underwater Shock Wave | p. 361 |