Projectiles, Aerial + Aerodynamics
Label
Projectiles, Aerial + Aerodynamics
Name
Projectiles, Aerial + Aerodynamics
Sub focus
Actions
Incoming Resources
- Subject of21
- Modeling cerebral vascular injury, prepared by David Powell
- Numerical computation of the radar cross section of a 120-mm mortar, by Christopher S. Kenyon and Traian Dogaru
- Aerodynamic optimization of a supersonic bending body projectile by a vector-evaluated genetic algorithm, prepared by Justin L Paul
- Prediction of swerving motion of a dual-spin projectile with lateral pulsejets in atmospheric flight, Bradley Burchett, Allen Peterson, and Mark Costello
- Numerical simulations of supersonic flow over an elliptic projectile with jet interaction, Jubaraj Sahu
- Linear theory of a projectile with a rotating internal part in atmospheric flight, Geoffrey Frost and Mark Costello
- The effect of sabot grooves on lift force for kinetic energy projectiles, Ameer G. Mikhail
- Interception of ballistic targets, Andrew A. Thompson
- On the resistance of the air at high speeds and on the automatic rotation of projectiles, by D. Riabouchinski
- Microadaptive flow control applied to a spinning projectile, J. McMichael ... [and others]
- Numeric computation of the radar cross section of in-flight projectiles, by Traian Dogaru and Christopher Kenyon
- Unsteady numerical simulations of subsonic llow over a projectile with jet interaction, Jubaraj Sahu
- Computational fluid dynamic (CFD) analysis of a generic missile with grid fins, by James DeSpirito ... [and others]
- Accuracy and railguns, Alexander E. Zielinski
- Moments on a coning M864 by a liquid payload, the candlestick problem and porous media, Gene R. Cooper
- Critical velocity of electromagnetic rail gun in response to projectile movement, Jerome T. Tzeng
- Navier-Stokes predictions of the individual components of the pitch-damping coefficient sum, by Paul Weinacht
- Time-accurate simulations of synthetic jet-based flow control for an axisymmetric spinning body, Jubaraj Sahu
- Lateral control jet aerodynamic predictions for a 2.75-in rocket testbed munition, by Paul Weinacht
- Flight behaviors of a complex projectile using a coupled computational fluid dynamics (CFD)-based simulation technique, free motion, by Jubaraj Sahu and Frank Fresconi
- Prediction of projectile performance, stability, and free-flight motion using computational fluid dynamics, Paul Weinacht