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Model for shock interaction with sharp area reduction
J. Falcovitz,
O. Igra
Department of Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
2
Scopus citations
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Keyphrases
Area Reduction
100%
Nozzle
100%
Area Change
100%
Shock Interaction
100%
Stream Tube
100%
Numerical Simulation
50%
Two Dimensional
50%
Cross-sectional Area
50%
Area Ratio
50%
Model Prediction
50%
Shock
50%
Amplification Factor
50%
Planar Shock Wave
50%
Steady Flow
50%
Shock State
50%
Overpressure
50%
Wave Interaction
50%
Quasi-one-dimensional
50%
Amplification Ratio
50%
Incident Shock
50%
Riemann Problem
50%
Contact Discontinuity
50%
Narrow Tube
50%
Constant Cross-section
50%
Interaction Curves
50%
Centred Rarefaction Wave
50%
Sonic Flow
50%
Generalized Riemann Problem
50%
Engineering
Area Reduction
100%
Shock Interaction
100%
Riemann Problem
100%
Streamtubes
100%
Two Dimensional
50%
Computer Simulation
50%
Cross Section
50%
Area Ratio
50%
Model Prediction
50%
Good Agreement
50%
One Dimensional
50%
Steady Flow
50%
Propagating Wave
50%
Amplification Factor
50%
Section Area
50%
Amplification Ratio
50%
Rarefaction Wave
50%
Lead Model
50%
Cross-Section Constant
50%
Sonic Flow
50%