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Unsteady combustion of homogeneous energetic solids using the laser-recoil method
Steven F. Son,
M. Quinn Brewster
Mechanical Science and Engineering
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peer-review
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Keyphrases
Oxidizer
100%
Frequency Response
100%
Reaction Zone
100%
Quasi-steady
100%
Unsteady Combustion
100%
HTPB Composite Propellant
100%
Two-peak
66%
Surface Reaction
66%
Radiant Flux
66%
Condensed Phase
33%
Steady State
33%
Detailed Model
33%
Temperature Measurement
33%
Possible Causes
33%
Propellant
33%
Burning Rate
33%
Steady Burning
33%
Condensed-phase Reactions
33%
Double-base Propellant
33%
Firing Temperature
33%
Burning Rate Measurement
33%
One-dimensional Theory
33%
Frequency Peaks
33%
Thermal Layer
33%
Engineering
Energetics
100%
Oxidizer
100%
Frequency Response
100%
Reaction Zone
100%
Burning Rate
66%
One Dimensional
33%
Detailed Model
33%
Phase Reaction
33%