Skip to main navigation
Skip to search
Skip to main content
University of Kentucky Home
LOGIN & Help
Home
Research units
Researchers
Grants & Contracts
Research output
Facilities & Equipment
Honors & Awards
Activities
Search by expertise, name or affiliation
Effect of Fiber Reactivity and Permeability on Mass Loss and Surface Recession in Ablative Thermal Protection Systems
Martin, Alexandre
(PI)
Mechanical Engineering
Overview
Fingerprint
Grants & Contracts
(1)
Fingerprint
Explore the research topics touched on by this project. These labels are generated based on the underlying awards/grants. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Engineering
Accuracy
20%
Design
20%
Diffusion
40%
Fiber
100%
Heat Flux
20%
Heat Shield
20%
Mass Loss
100%
Models
60%
Obtains
20%
Phenolics
20%
Pyrolysis
20%
Re-Entry Vehicle
20%
Reactivity
100%
Research
20%
Surfaces
100%
Surrounding Environment
20%
System Protection
100%
Temperature
20%
Thermal Protection
100%
Physics
Atmospherics
20%
Carbon Fiber
20%
Diffusivity
40%
Environment
20%
Focusing
20%
Heat
40%
Model
60%
Oxygen
40%
Protection System
100%
Reentry Vehicle
20%
Regimes
100%
Temperature
20%
Utilization
20%
Material Science
Carbon Fiber
20%
Fiber
100%
Material
100%
Permeability
100%
Surface
100%
Temperature
20%