Title | 31st International Symposium on Shock Waves 2 [electronic resource] : Applications / edited by Akihiro Sasoh, Toshiyuki Aoki, Masahide Katayama |
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Imprint | Cham : Springer International Publishing : Imprint: Springer, 2019 |
Edition | 1st ed. 2019 |
Connect to | https://doi.org/10.1007/978-3-319-91017-8 |
Descript | XX, 1186 p. 833 illus., 581 illus. in color. online resource |
Chapter1.Strength and Frequency of Underwater Shock Waves Related to Sterilization Effects on a Marine Bacterium -- Chapter2.Effects of Liquid Impurity on Laser-Induced Gas Breakdown in Quiescent Gas: Experimental and Numerical Investigations -- Chapter3.Air Blast from a Structural Reactive Material Solid -- Chapter5.Experimental study on Configuration Effects of Supersonic Projectiles in Transitional Ballistic Regimes -- Chapter6.Non-Ideal Blast Waves from Particle-Laden Explosives -- Chapter7.Attenuation of Blast Wave in a Duct with Expansion Region (Effects of configuration, porous panel, and acoustic material) -- Chapter8.Enhancement of Deflagration-to-Detonation Transition Process with Energetic Solid Particle -- Chapter9.Large Scale Computation of Direct Initiation of Cylindrical Detonations -- Chapter10.Numerical Study on a Cycle of Liquid Pulse Detonation Engines -- Chapter11.Experimental investigate on the flame-shock wave interaction and pressure oscillation in a confined combustion chamber -- Chapter12.The Influence of Spatial Heterogeneity in Energetic Material on Non-ideal Detonation Propagation -- Chapter13.Detonation Experiment Research of Gaseous Mixtures with Suspended Metal Particles -- Chapter14.Large Eddy Simulation of Mixing Characteristic in the Cold Rotating-Detonation Chamber -- Chapter15.Research on the Continuous Rotating Detonation Wave in a Hollow Chamber with Laval Nozzle -- Chapter16.Experimental Study on a Long Duration Operation of a Rotating Detonation Engine -- Chapter17.Decaying modes of propagation of spinning detonation and flame front in narrow channel -- Chapter18.Measurement of gaseous fuel concentration in rotating detonation engines -- Chapter19.Investigation of High-Frequency Pulse Detonation Cycle with Fuel Phase Transition -- Chapter20.Simulations of Hydrogen Detonation in Vibrational Non-equilibrium -- Chapter21.Aerodynamic Force Measurement in a Large-Scale Shock Tunnel -- Chapter22.Trial Implementation of TiN Surface Coating for a Main Piston Towards Reducing the Opening Time for a Diaphragmless Driver Section -- Chapter23.Aerodynamic Force Measurement Techniques in JF12 Shock Tunnel -- Chapter24.Optimising the X3R Reflected Shock Tunnel Free-Piston Driver for Long Duration Test Times -- Chapter25.Development and Analysis of an Apollo Earth Re-entry Condition with Representative Post-shock Reynolds Number in the X2 Expansion Tunnel -- Chapter26.Liquid-Coupled Dual Piston Driver for Small-Scale Shock Tubes -- Chapter27.Initial testing of a 2m Mach-10 free piston Shock tunnel at CAAA -- Chapter28.CFD Evaluation and Experiment test of the Running time of the Hypersonic Ludwieg Tube Quiet Wind Tunnel -- Chapter29.Development and Performance Study of Shock Tube with Extended Test-times for Materials Research -- Chapter30.Measurement of Temperature Field around Spiked Bodies at Hypersonic Mach Numbers -- Chapter31.Three-dimensional Laser Interferometric CT density measurement of unsteady flow field around a cylinder induced by discharged shock wave from a cylindrical nozzle -- Chapter32.Curved shock wave propagation in environmental stratosphere by laser ablation -- Chapter33.Hypervelocity tests with a detonation driven expansion tube -- Chapter34.Experiments in HEG related to sonic line and shock stand-off distance on capsule shapes -- Chapter35.Catalytic Recombination Characteristics of Atomic Oxygen on Material Surfaces by Optical Emission Spectroscopy -- Chapter36.Influence of Dual Ignition on Test Conditions of a High Enthalpy Shock Tunnel -- Chapter37.Ablation Measurements in A Low Density Heat Shield Using Ablation Sensor Unit -- Chapter38.The Development of High Enthalpy Reentry Conditions in the X3 Expansion Tube -- Chapter39.Prediction of Intensity Profiles behind a Shock Wave Travelling in Air at Speeds Exceeding 12 km/s -- Chapter40.Revisiting temperature measurements at the focus of spherically converging shocks in argon -- Chapter41.Influence of Matrix Resin on Impact Resistance of CFRP by a Small Sphere -- Chapter42.Improvement of Impact Resistance of Ceramics by using Resin-based Materials -- Chapter43.Measurement of Plasma Formed by High-speed Impact to Estimate Temperature at Impact Point -- Chapter44.Application of Riemann Solver for Compressible and Non-Expanding Fluid to Impact on Regolith -- Chapter45.Mathematical modeling of the impact of high-speed metallic plates -- Chapter46.Study of Shock Impact Pressure Amplification and Attenuation of Acoustic Waves in E-Glass Material -- Chapter47.Reconstruction of Recoilless Weapon Blast Environments Using High-fidelity Simulations -- Chapter48.Contribution of Cavitation Generation to Shock Wave Sterilization Effects in a Narrow Water Chamber -- Chapter49.Shockwaves confer immunity against infections in mice -- Chapter50.On the relation between the shock wave thickness in bio-materials and the threshold for blast induced neuro-trauma -- Chapter51.Development of a miniaturized focused shock wave generator for medical application -- Chapter52.Intracellular Ca2+ Increase Evoked by Single Acoustic Pulses -- Chapter53.A new device for crossing chronic total occlusions -- Chapter54.Medical application of shock waves: Developing the treatment application and understanding of injury -- Chapter55.Towards non-invasive insulin injection via control of the electrical breakdown in liquid -- Chapter56.Current Trend in Cell Membrane Manipulation by Ultrasound and Underwater Shock Wave -- Chapter57.Analysis of Deformation Process of a Bubble in an Elastic Capsule by Shock Waves and Their Medical and Biological Applications -- Chapter58.Shockwaves can cure biofilm infections in-vivo in combination with antibiotics -- Chapter60.Simulation of shock-bubbles interaction using a four-equation homogeneous model -- Chapter61.A Study of Dispersion, Vaporization, and Combustion of Burnable Liquids Surrounding Charges -- Chapter62.Multi-scale simulation of the interaction of a shock wave and a cloud of particles -- Chapter63.Surface Jetting Induced by Explosion in Liquid below an Immersed Bubble -- Chapter64.Generation Frequency of Rebound Shock Waves from Bubble Collapses in Cavitation Jet -- Chapter65.Experimental Study on the Influence of Underwater Explosion Depth on the Disintegration of Thin Resin Plate Attached Microbubbles -- Chapter66.Numerical Study of the Flow Separation in a Rocket Nozzle -- Chapter67.Hybrid RANS/LES simulation of shock-induced separated flow in truncated ideal contour nozzle -- Chapter68.Experimental Study of TICTOP Nozzles -- Chapter69.Three-Dimensional Instability of Shock-Wave/Boundary- Layer Interaction for Rocket Engine Nozzle Applications -- Chapter70.Shock interactions in Thrust Optimized Parabolic (TOP) Nozzles during Start-Up and Shut Down -- Chapter71.Shock System Deformation in High Mach Number Rocket Nozzles -- Chapter72.Interaction of Droplets with Incident Shock Waves -- Chapter73.A compact finite volume method for computing shock waves on hybrid grids -- Chapter74.Numerical Modelling of the Effects of Surface Roughness on Blunt Body Heat Transfer. -- Chapter75.Numerical study of shock propagation in liquid/gas media -- Chapter76.CFD models of shocks and flow fields associated with decelerating spheres in terms of flow history and inertial effects -- Chapter77.Conjugate Heat Transfer Analysis in a Hypersonic Flow -- Chapter78.Laser-induced shock waves in micro tubes -- Chapter79.Study of MHD Effects in the High-Enthalpy Shock Tunnel G?ttingen (HEG) using a 30T Pulsed Magnet System -- Chapter80.An Electrodynamic Aerobraking Experiment in a Rarefied Arc-Heated Flow -- Chapter81.Blast Wave Propagation Affected by Ground Characteristics -- Chapter82.Multiple reflected shock wave in closed volume with granular screen -- Chapter83.Some aspects of the numerical modeling of shock wave ? dense particles bed interaction using two-fluid approach -- Chapter84.To the complex approach to the numerical investigation of the shock wave - dense particles bed interaction -- Chapter85.Numerical Study on Shock Wave Reflection over a Double Wedge in Dusty Gas -- Chapter86.Shock and Blast Wave Interaction With Hard Sand Pan -- Chapter87.Long time history of unsteady drag on shock accelerated micro-particles -- Chapter88.Shock Focusing Effect upon Interaction of a Shock with Low-Density Dust Cloud -- Chapter89.Shock-induced motion of a spherical particle floating in air -- Chapter90.Exploring the capability of a new shock tube facility to investigate shock interaction with inert particle columns -- Chapter91.MITIGATION OF BLAST IN A WATER MIST -- Chapter92.Shock wave propagation through a series of perforated plates -- Chapter93.Experimental Investigation of Strong Shock Heated Gases Interacting with Materials in Powder form -- Chapter94.Selective shock-refraction properties in non-ideal fluids -- Chapter95.A Numerical Investigation of Oblique Shock Waves in Non-Ideal Compressible-Fluid Flows -- Chapter96.Assessment of real gas effects on SCO2 flows with shock waves -- Chapter97.Structure of shock waves in noble gases under high density conditions. -- Chapter98.Mach 4 Shock Train Structures in Rectangular Ducts -- Chapter99.Control of Shock Trains within Supersonic Intakes through the addition of Cavities -- Chapter100.Experiments in Supersonic Gaseous Ejector using 2D PIV Technique -- Chapter101.Numerical analysis of surface heat flux in a forward facing cavity -- Chapter102.Large Eddy Simulation of Expansion Wave Diffraction -- Chapter103.In-pipe aerodynamic characteristics of a projectile in comparison with free-flight for transonic Mach numbers between 0.5 and 1.5 -- Chapter104.Experimental Investigation of Shock Wave Characteristics in Small Scale Circular Channel -- Chapter105.Shock Oscillation Studies with Varying Stagnation Pressure in a Supersonic Diffuser -- Chapter106.Measurement of shock wave attenuation in microchannels -- Chapter107.Surface jets produced from an underwater shock wave