Dynamics of unsteady asymmetric shock interactions
From MaRDI portal
Publication:5217662
DOI10.1017/JFM.2020.28zbMath1460.76617OpenAlexW3006450781MaRDI QIDQ5217662
Ferry F. J. Schrijer, Stefan Hickel, L. Laguarda, B. W. van Oudheusden
Publication date: 25 February 2020
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/jfm.2020.28
Related Items (3)
Transition study for asymmetric reflection between moving incident shock waves ⋮ Shock polars for ideal and non-ideal gases ⋮ Morphology of oblique detonation waves in a stoichiometric hydrogen–air mixture
Cites Work
- Unnamed Item
- Unnamed Item
- Shock wave reflection phenomena
- Numerical confirmation of the hysteresis phenomenon in the regular to the Mach reflection transition in steady flows
- Numerical investigations of transition between regular and Mach reflections caused by free-stream disturbances
- Some physical aspects of shock wave/boundary layer interactions
- Effects of a single-pulse energy deposition on steady shock wave reflection
- Dynamic effects on the transition between two-dimensional regular and Mach reflection of shock waves in an ideal, steady supersonic free stream
- Low-order stochastic modelling of low-frequency motions in reflected shock-wave/boundary-layer interactions
- Experiments on shock wave reflection transition and hysteresis in low-noise wind tunnel
- A parametric study of Mach reflection in steady flows
- Numerical investigation of shock wave reflections in steady flows
- Hysteresis effect in stationary reflection of shock waves
- Irregular effects on the transition from regular to Mach reflection of shock waves in wind tunnel flows
- A study of the asymmetric shock reflection configurations in steady flows
- Shock Wave-Boundary-Layer Interactions
- Analytical and experimental investigations of the reflection of asymmetric shock waves in steady flows
- Experiments on the mechanism of inducing transition between regular and Mach reflection
This page was built for publication: Dynamics of unsteady asymmetric shock interactions
