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Proceedings Papers
In This Volume
2022 16th Hypervelocity Impact Symposium
Front Matter
High-velocity Penetration Mechanics and Target Response
Tracking Flying Targets and Measurements of Their Surface Temperature using High Speed Infrared Imaging.
HVIS 2022; V001T01A001https://doi.org/10.1115/HVIS2022-3
Topics:
Infrared imaging
,
Temperature
,
Projectiles
,
Heat transfer
,
Probes
,
Shock waves
,
Army
,
Artillery
,
Bombs
,
Design
Failure of Fuel Tanks Due to High Velocity Projectiles Impact
HVIS 2022; V001T01A002https://doi.org/10.1115/HVIS2022-25
Topics:
Deformation
,
Failure
,
Fuel storage
,
Projectiles
Jet Penetration from Scaled Shaped Charges: Theory and Experiment
HVIS 2022; V001T01A005https://doi.org/10.1115/HVIS2022-41
Topics:
Armor
,
Concretes
,
Containment
,
Containment vessels
,
Explosives
,
Firing
,
Jets
,
Modeling
,
Risk
,
Steel
High-Velocity Launchers and Diagnostics
2D VS 3D: Does Perspective Affect Thermography Temperature Values
HVIS 2022; V001T02A001https://doi.org/10.1115/HVIS2022-4
Topics:
Temperature
,
Thermography
Railgun Launch of Cylindrical and Conical Projectiles at Muzzle Velocities up to 2100 M/S
HVIS 2022; V001T02A003https://doi.org/10.1115/HVIS2022-42
Topics:
Projectiles
,
Separation (Technology)
,
Copper alloys
,
Cylinders
,
Design
,
Geometry
,
Guns
,
Stress
,
Symmetry (Physics)
,
Thread
Impact Flash Evaluation of Steel and Aluminum Plates at Varying Angles with Millimeter Sized Impactors
HVIS 2022; V001T02A004https://doi.org/10.1115/HVIS2022-47
Topics:
Aluminum plate
,
Steel
,
Aluminum
,
Calibration
,
Defense industry
,
Photodetectors
,
Physics
,
Plates (structures)
,
Projectiles
,
Spectra (Spectroscopy)
Hypervelocity Phenomenology Studies
Hypervelocity Impact of Aluminum Projectiles Against Soil with Frozen Water
HVIS 2022; V001T03A003https://doi.org/10.1115/HVIS2022-37
Topics:
Aluminum
,
Projectiles
,
Soil
,
Water
Experimental Investigation of Impact Flash Emission and Ejection Phenomena in Hypervelocity Impacts on Metals
HVIS 2022; V001T03A004https://doi.org/10.1115/HVIS2022-49
Topics:
Emissions
,
Metals
,
Projectiles
,
Ablation (Vaporization technology)
,
Damage assessment
,
Emission spectroscopy
,
Imaging
,
Photometry
Cryogenic Capture of Hypervelocity Impact Ejecta
HVIS 2022; V001T03A005https://doi.org/10.1115/HVIS2022-51
Topics:
Chemical reactions
,
Cryogenics
,
Design
,
Evacuations
,
Foams (Chemistry)
,
Ice
,
Nylon fabrics
,
Plumes (Fluid dynamics)
,
Pressure
,
Solar energy
Analysis of Hypervelocity-Impacted thin Films for Space Applications
HVIS 2022; V001T03A006https://doi.org/10.1115/HVIS2022-56
Topics:
Thin films
,
Damage
,
Space vehicles
,
Cavities
,
Insulation
,
Microscopy
,
Optical microscopy
,
Robustness
,
Spectroscopy
,
Statistics
Material Response (including EOS)
Wave Structuring Viscosity in the Shock Compaction of Solid Matter
HVIS 2022; V001T04A001https://doi.org/10.1115/HVIS2022-18
Topics:
Compacting
,
Shock (Mechanics)
,
Viscosity
,
Waves
,
Shock waves
,
Compression
,
Explosions
,
Density
,
Explosives
,
Granular materials
Shock Response of Architectured Interpenetrating Phase Composites
HVIS 2022; V001T04A003https://doi.org/10.1115/HVIS2022-52
Topics:
Composite materials
,
Shock (Mechanics)
State-of-the-art Experiments Enabling Advances in State-of-the-art Models
Experimental Validation of Hydrazine Reaction Model Through Hypervelocity Impact Tests
HVIS 2022; V001T05A001https://doi.org/10.1115/HVIS2022-1
Topics:
Damage
,
Design
,
Explosions
,
Fuel storage
,
Impact testing
,
Momentum
,
Numerical analysis
,
Projectiles
,
Space vehicles
Updates on the Debrisat Hypervelocity Experiment and Characterization of Fragments in Support of Environmental Models
Heather Cowardin, Corbin Cruz, James Murray, John Seago, Alyssa Manis, Drake Gates, Jackie Reyes, John Opiela
HVIS 2022; V001T05A002https://doi.org/10.1115/HVIS2022-8
Topics:
Construction
,
Databases
,
Engineering models
,
NASA
,
Projectiles
,
Satellites
,
Shapes
,
Space vehicles
Asteroid Impact and Planetary Defense
Articulating Hypervelocity Linear Accelerator Structure (Atlas) for Planetary Impact Science
HVIS 2022; V001T06A004https://doi.org/10.1115/HVIS2022-36
Topics:
Linear accelerators
,
Design
,
Solar energy
,
Combustion
,
Density
,
Gases
,
Physics
,
Porosity
,
Retrofitting
Experiments on the Survivability of Extremophiles
HVIS 2022; V001T06A007https://doi.org/10.1115/HVIS2022-63
Topics:
Bacteria
,
Experimental design
,
Microorganisms
,
Pressure
,
Shear (Mechanics)
,
Stress
,
Testing
Fracture and Fragmentation
Innovative Fragmentation Modeling for Hypervelocity Impacts of Debris
HVIS 2022; V001T07A001https://doi.org/10.1115/HVIS2022-7
Topics:
Modeling
,
Explosions
,
Satellites
,
Algorithms
,
Computation
,
Graphics processing units
,
Hydrodynamics
,
Internal energy (Physics)
,
Particulate matter
,
Robustness
Analytic and Numerical Methodologies
Fluid-Solid Coupled Simulation of Hypervelocity Impact and Plasma Formation
HVIS 2022; V001T08A001https://doi.org/10.1115/HVIS2022-23
Topics:
Fluids
,
Plasmas (Ionized gases)
,
Simulation
,
Projectiles
,
Collisions (Physics)
,
Fluid dynamics
,
Computer simulation
,
Copper
,
Emissions
,
Flight
Numerical and Experimental Evaluation of the Hypervelocity Impact Performance of an Aluminum Foam and Uhmwpe Stuffed Sandwich Panel
HVIS 2022; V001T08A003https://doi.org/10.1115/HVIS2022-35
Topics:
Aluminum
,
Sandwich panels
,
Computer simulation
,
Carbon reinforced plastics
,
Damage
,
Density
,
Risk
,
Aluminum plate
,
Composite materials
,
Engineering simulation
Transition Regime between High-Velocity and Hypervelocity Impact and Related Energy Partitioning in Metals: State-of-the-Art Review, Characterization, and Modeling
HVIS 2022; V001T08A004https://doi.org/10.1115/HVIS2022-48
Topics:
Metals
,
Modeling
,
Physics
,
Ballistics
,
Computation
,
Computer simulation
,
Failure
,
Impact modeling
,
Internal energy (Physics)
,
Melting
A Dedicated Simulation Chain for Hypervelocity Impacts Effect on Disc, Impact Sensor of the Comet Interceptor/ Esa Mission
A. M. Piccirillo, V. Della Corte, S. Ferretti, A. Rotundi, E. Ammannito, I. Bertini, G. Ferraioli, S. Fiscale, L. Inno, A. Longobardo, G. Sindoni, P.J. Wozniakiewicz, M. Sylvest, M. Patel
HVIS 2022; V001T08A006https://doi.org/10.1115/HVIS2022-39
Topics:
Chain
,
Disks
,
Sensors
,
Simulation
,
Dust
,
Computer simulation
,
Computer software
,
Finite element methods
,
Particle collisions
,
Particulate matter
Spacecraft/meteoroid Debris Shielding and Failure Analysis
SPH and Adaptive FEM/SPH Methods in Debris Cloud Simulation
HVIS 2022; V001T09A001https://doi.org/10.1115/HVIS2022-5
Topics:
Finite element methods
,
Finite element model
,
Simulation
Preliminary Results of a Technology for ON-ORBIT Micrometeroid and Debris Characterization
Sidney Chocron, Roberto Enriquez-Vargas, Drew Hackney, Alexander J. Carpenter, Daniel J. Portillo, James D. Walker, Michael A. Koets, Randy Rose, Robert Grimm, Ryan McBee
HVIS 2022; V001T09A002https://doi.org/10.1115/HVIS2022-6
Topics:
Algorithms
,
Aluminum
,
Computer simulation
,
Computer software
,
Design
,
Satellites
,
Sensors
,
Stress
,
Wave theory of light
,
Waves
Development of Analysis Techniques for Non-Spherical Hypervelocity Impacts
Joshua E. Miller, Bruce A. Davis, Robert J. McCandless, Alberto Delgado, Donald J. Henderson, Arturo Pardo, Daniel Rodriguez, Marcus S. Sandy
HVIS 2022; V001T09A006https://doi.org/10.1115/HVIS2022-34
Topics:
Computer simulation
,
Model validation
,
Projectiles
Prediction and Enhancement of Thermal Protection Systems from Meteoroid Damage using a Smooth Particle Hydrodynamic Code
HVIS 2022; V001T09A008https://doi.org/10.1115/HVIS2022-59
Topics:
Damage
,
Particulate matter
,
Aluminum
,
Simulation
,
Space vehicles
,
Defense industry
,
Flux (Metallurgy)
,
Garages (Residential)
,
Heat shielding
,
Hydrodynamics
Armor Anti-Armor and Ballistic Technology
Quantitative Analysis of Physical Properties of Shaped Charge Jet by the use of IN-SITU Mass Analysis From X-RAY Image Processing (I-MAX)
Fumikazu Saito, Hiroaki Kishimura, Yutaka Takizawa, Yohsuke Okada, Takashi Ogino, Mitsuyori Nakashita31
HVIS 2022; V001T10A001https://doi.org/10.1115/HVIS2022-46
Topics:
Aluminum
,
Image processing
,
X-rays