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Non-linear analysis of solid propellant burning rate behavior
Junye Wang
Centre for Science
Research output
:
Contribution to journal
›
Journal Article
›
peer-review
7
Citations (Scopus)
Overview
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Dive into the research topics of 'Non-linear analysis of solid propellant burning rate behavior'. Together they form a unique fingerprint.
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Keyphrases
Burning Rate
100%
Solid Propellant
100%
Nonlinear Analysis
100%
Propellant Burning Rate
100%
Rate of Increase
50%
Runaway
33%
Dynamic Factor
33%
Combustion
16%
Combustion Model
16%
Undamped Oscillation
16%
Wave Combustion
16%
Thermal Wave
16%
Heat Release
16%
Non-steady
16%
Spatial Mesh
16%
Parametric Analysis
16%
Thermal Wave Model
16%
Oscillation Damping
16%
Intrinsic Instability
16%
Numerical Prediction
16%
Pressure Variation
16%
Nonlinear Effects
16%
Unstable Models
16%
Unsteady Burning Rate
16%
Numerical Solution
16%
Mathematics
Time Step
100%
Factor Dynamic
100%
Nonlinear Analysis
100%
Nonlinear
50%
Parametric
50%
Numerical Prediction
50%
Additional Point
50%
Numerical Solution
50%
Engineering
Nonlinear Analysis
100%
Burning Rate
100%
Rate Increase
37%
Dynamic Factor
25%
Heat Release
12%
Numerical Difficulty
12%
Non-Linear Effect
12%
Wave Model
12%
Parametric Analysis
12%
Numerical Solution
12%
Numerical Prediction
12%
Earth and Planetary Sciences
Solid Propellant
100%
Burning Rate
100%
Undamped Oscillation
12%
Detonation
12%
Material Science
Solid Propellant
100%
Detonation
50%
Neuroscience
Behavior (Neuroscience)
100%