1-23 of 23 Books
A preliminary investigation of a UTIAS implosion-driven shock tube
A preliminary investigation of a UTIAS implosion-driven shock tube
By J. C. Poinssot
An analytical and experimental study of an implosion-driven shock tube
An analytical and experimental study of an implosion-driven shock tube
By S. K. Chan
An experimental, analytical and numerical study of temperatures near hemispherical implosion foci
An experimental, analytical and numerical study of temperatures near hemispherical implosion foci
By Tsutomu Saito
Implosion driven hypervelocity launcher performance using gaseous detonation waves
Implosion driven hypervelocity launcher performance using gaseous detonation waves
By Watson, J. D.
Performance analysis of UTIAS implosion-driven hypervelocity launcher
Performance analysis of UTIAS implosion-driven hypervelocity launcher
By P. A. L. Sevray
Pressure measurements at the focus of combustion-driven implosions
Pressure measurements at the focus of combustion-driven implosions
By B. Vasudevan
Production of diamonds from graphite using explosive-driven implosions
Production of diamonds from graphite using explosive-driven implosions
By Surinder Paul Sharma
Over forty years of continuous research at UTIAS on nonstationary flows and shock waves
Over forty years of continuous research at UTIAS on nonstationary flows and shock waves
By I. I. Glass
Multipoint initiated implosions from hemispherical shells of sheet explosive
Multipoint initiated implosions from hemispherical shells of sheet explosive
By J. E. Kennedy
Application of explosive-driven implosions to the production of solid-phase transitions
Application of explosive-driven implosions to the production of solid-phase transitions
By Jacob Kleiman
UTIAS implosion chamber
UTIAS implosion chamber
By Tsutomu Saito
A preliminary study of spherical detonation-wave symmetry in stoichiometric hydrogen-oxygen mixtures
A preliminary study of spherical detonation-wave symmetry in stoichiometric hydrogen-oxygen mixtures
By A. K. Macpherson
Shock compression and flash heating of graphite/metal mixtures at temperatures up to 3200 K and pressures up to 25 GPa
Shock compression and flash heating of graphite/metal mixtures at temperatures up to 3200 K and pressures up to 25 GPa
By J. Kleiman
A spectroscopic investigation of combustion-driven implosions
A spectroscopic investigation of combustion-driven implosions
By Randy A. Roig
A preliminary Monte-Carlo analysis of the reflection of an imploding hemispherical shock wave similar to that generated in the UTIAS implosion driven hypervelocity launcher or shock tube
A preliminary Monte-Carlo analysis of the reflection of an imploding hemispherical shock wave similar to that generated in the UTIAS implosion driven hypervelocity launcher or shock tube
By A. K. Macpherson
Chemical-reaction and diffusion rates in solids produced by shock compression
Chemical-reaction and diffusion rates in solids produced by shock compression
By J. Kleiman
The separation and analysis of diamond from graphite generated by explosive-driven implosions
The separation and analysis of diamond from graphite generated by explosive-driven implosions
By Leslie Kathryn Wood
Equilibrium composition data for combustible stoichiometric mixtures of hydrogen-oxygen (water)
Equilibrium composition data for combustible stoichiometric mixtures of hydrogen-oxygen (water)
By Randy A. Roig
Chromite formation by shock-wave compression
Chromite formation by shock-wave compression
By J. Kleiman
Explosion-driven hemispherical implosions for generating fusion plasmas
Explosion-driven hemispherical implosions for generating fusion plasmas
By D. Sagie
Structural design and development of UTIAS implosion-driven launchers
Structural design and development of UTIAS implosion-driven launchers
By W. Czerwinski
Effects of shock waves on various materials
Effects of shock waves on various materials
By P. W. C. Chan
Performance trials of the eight-inch diameter UTIAS Implosion-Driven Hypervelocity Launchers MK II and MK III
Performance trials of the eight-inch diameter UTIAS Implosion-Driven Hypervelocity Launchers MK II and MK III
By S. K. Chan