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Multiscale modeling of damaged surface topology in a hypersonic boundary
Neil A. Mehta,
Deborah A. Levin
Aerospace Engineering
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Keyphrases
Multiscale Modeling
100%
Atomic Oxygen
100%
Highly Oriented Pyrolytic Graphite
100%
Surface Topology
100%
Hypersonic
100%
Molecular Dynamics
66%
Quartz Surface
66%
Kinetic Monte Carlo
66%
Surface Evolution
66%
N2 Adsorption
66%
Elastic Modulus
33%
Atomically Smooth
33%
Argon
33%
Trajectory Simulation
33%
Defect Effect
33%
Model Surfaces
33%
Graphite Surface
33%
Silica Aggregates
33%
Number of Sites
33%
Sticking Probability
33%
Amorphous Silica
33%
Accurately Model
33%
Process Execution
33%
Material Erosion
33%
Ice nucleation
33%
Engineering
Multiscale Modeling
100%
Silicon Dioxide
100%
Surface Evolution
66%
Length Scale
33%
Sticking Probability
33%
Erosion Model
33%
Material Erosion
33%
Silica Aggregate
33%
Modulus of Elasticity
33%
Material Science
Surface (Surface Science)
100%
Refractory Material
37%
Nucleation
25%
Desorption
25%
Elastic Moduli
12%
Silicon Dioxide
12%