Explosion, shock wave and high-energy reaction phenomena II : selected, peer reviewed papers from the International Symposium on Explosion, Shock Wave and High Energy Reaction Phenomena (ESHP Symposium 2013), March 27-29, 2013, Nago, Okinawa, Japan / edited by S. Itoh, J. Matsue and K. Hokamoto.

Format:

Book

Conference/Event

Author/Creator:

International Symposium on Explosion, Shock Wave & High-Energy Reaction Phenomena, Corporate Author.

Contributor:

Itoh, S. (Shigeru)

Matsue, J.

Hokamoto, Kazuyuki.

Conference Name:

International Symposium on Explosion, Shock Wave & High-Energy Reaction Phenomena (2nd : 2013 : Nago, Okinawa, Japan)

International Symposium on Explosion, Shock Wave & High-Energy Reaction Phenomena

Series:

Materials Science Forum

Materials science forum, 1662-9752 ; v. 767

Materials Science Forum ; v.767

Language:

English

Subjects (All):

Explosions--Congresses.

Explosions.

Shock waves--Congresses.

Shock waves.

Impact--Congresses.

Impact.

Physical Description:

1 online resource (276 p.)

Place of Publication:

Stafa-Zurich ; Enfield, NH : Trans Tech Publications, [2014]

Language Note:

English

Summary:

Explosion, shock wave, high-energy reaction and other high-rate phenomena of various materials are the main topic of this collection. The book includes papers related to explosion and shock wave phenomena driven by explosives and other impulsive phenomena including their applications. The use of such intense dynamic loading has been employed for materials processing technology and the field is currently spreading to food processing and others. The volume will bring to readers new idea for the progress in science and technology. Propagating explosion and detonation shock waves; the resulting dy

Contents:

Explosion, Shock Wave and High-Energy Reaction Phenomena II; Preface; Table of Contents; Chapter 1: Explosion, Detonation and Shock Wave Propagation; Hot Spots, High Explosives Ignition, and Material Microstructure; Computational Analysis of Ignition in Heterogeneous Energetic Materials; Calculation of Explosion Performance of Pyrotechnic Mixtures by Minimum Free Energy Principle; Estimation of Initial State Dependence of Detonation Velocity Using Unified Form of EOS for PETN; Detonation Velocity Measurement and Numerical Simulation for the System Consisting of Pellet Explosives and Air Gaps

High Resolution Numerical Simulation of Shock-to-Detonation Transition of Condensed-Phase ExplosivesExperimental and Numerical Study on the Afterburning Effect of TNT; Manufacturing and Evaluating for the Two Layer/Explosive Materials and their Numerical Simulations; Multiphysics Investigation of Composite Shell Structures Subjected to Water Shock Wave Impact in Petroleum Industry; Study on Behavior of Underwater Shock Wave in Enclosed Vessel; A Computational Simulation for Explosive Ordnance Disposal

Study of Unsteady Supersonic Jet Using Shock Tube with Small High-Pressure Chamber with Elliptical CellComputational Simulation of Underwater Shock Wave Propagation Using Smoothed Particle Hydrodynamics; Development of Coupled Fluid-Structure Interaction Code for Explosion Problem; Chapter 2: Dynamic Deformation, Fracture and Processing of Materials; Current Models of Dynamic Deformation and Fracture of Condensed Matter; Energy Kinetics in Explosive Cladding of Dissimilar Metals with Interlayer; Numerical Study on the Influence of Different Anvils on Explosive Welding

Numerical Simulation of Underwater Explosive Welding ProcessAspects of Electrodynamic Forming Processes; Study on the Effects of Shock Wave Propagation on Explosive Forming; Explosive Metalworking: Experimental and Numerical Modeling Aspects; High Strain Rate Test of a Steel Plate under Blast Loading from High Explosive; Numerical Analysis on the Damage of the Explosion Pit at Kumamoto University; Estimation of Crater in Reinforced Concrete Wall Caused by Mini-Blasting; Cladding of Titanium and Magnesium Alloy by Explosive Welding Using Underwater Shockwave Technique and Effect on Interface

Influence of Gap Length on Collision Angle and Collision Point Velocity of Magnetic Pressure Seam WeldingParallel Seam Welding of Aluminum Sheets by Magnetic Pulse Welding Method with Collision between Metal Jets; Consolidation of Mg2Si Powder Using Shockwave Generated by Projectile Impact; An Investigation on Deburring Technology Using Concentrated Underwater Shock Wave; A Method of Explosive Forming Process for Making a Palm and a Back of Human Hand; Numerical Simulation of Oblique Collision of Flier Plate; Chapter 3: New Applications

Improvement Effect of Discharge Circuit for the Underwater Shock Wave

Notes:

Description based upon print version of record.

Includes bibliographical references and indexes.

Description based on online resource; title from PDF title page (ebrary, viewed November 4, 2013).

ISBN:

3-03826-207-2