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Acoustic amplification during solid propellant combustion
M. M. Ibiricu
,
Herman Krier
Mechanical Science and Engineering
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peer-review
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Dive into the research topics of 'Acoustic amplification during solid propellant combustion'. Together they form a unique fingerprint.
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Keyphrases
Solid Propellant
100%
Chamber Pressure
100%
Solid Propellant Combustion
100%
T-burner
100%
Specific Amplification
100%
Sound Amplification
100%
Acoustic Waves
50%
Oscillation Frequency
50%
Propellant
50%
Burning Rate
50%
Combustion Behavior
50%
Oscillatory Combustion
50%
Combustion Instability
50%
Transient Burning
50%
Acoustic Pressure Wave
50%
Engineering
Chamber Pressure
100%
Transients
50%
Data Show
50%
Oscillatory
50%
Acoustic Pressure
50%
Loop Form
50%
Burning Rate
50%
Frequency Line
50%
Elastic Wave
50%
Earth and Planetary Sciences
Solid Propellant
100%
Pressure Chamber
100%
Solid Propellant Combustion
100%
Elastic Wave
50%
Combustion Stability
50%
Burning Rate
50%