Shock waves in aviation security and safety G.S. SettlesB.T. KeaneJ.A. Gatto Original article Pages: 267 - 275
The propagation mechanism of high speed turbulent deflagrations J. ChaoJ.H.S. Lee Original article Pages: 277 - 289
Existence of the detonation cellular structure in two-phase hybrid mixtures B. VeyssiereW. Ingignoli Original article Pages: 291 - 299
The influence of detonation cell size and regularity on the propagation of gaseous detonations in granular materials T. SlungaardT. EngebretsenO.K. Sønju Original article Pages: 301 - 308
On the shock-induced explosion resulting from an impact by a planar detonation P. VidalB.A. Khasainov Original article Pages: 309 - 323
Shock tube spherical particle accelerating study for drag coefficient determination C. DevalsG. JourdanL. Houas Original article Pages: 325 - 331
Shock wave interactions with particles and liquid fuel droplets E.J. ChangK. Kailasanath Original article Pages: 333 - 341
Comparison of kinetic and continuum approaches for simulation of shock wave/boundary layer interaction I.A. GraurM.S. IvanovD. Zeitoun Original article Pages: 343 - 350