Buoyancy effects on concurrent flame spread over thick PMMA

Engineering

• Convective 100%
• NASA 100%
• Fire Safety 100%
• Ambient Pressure 100%
• Mixed Convection 100%
• Fire Safety Design 100%
• Reduced Pressure 100%
• Gravity Condition 100%
• Buoyancy Effect 100%
• Airflow Velocity 100%
• Ground Potential 100%
• Controlling Mechanism 100%
• Combustibility 100%
• Flow Velocity 100%

Keyphrases

• Poly(methyl methacrylate) 100%
• Concurrent Flame Spread 100%
• Buoyancy Effect 100%
• Microgravity 100%
• Pressure Effect 50%
• Low Pressure 50%
• Work Study 25%
• Cotton 25%
• Flow Velocity 25%
• Ambient Pressure 25%
• Fire Safety 25%
• Forced Flow 25%
• Flame Spread 25%
• Burning Behavior 25%
• Microgravity Data 25%
• Mixed Convection 25%
• Experimental Testing 25%
• Safety Applications 25%
• Cygnus Cygnus 25%
• Microgravity Experiments 25%
• Normal Gravity 25%
• Combustible Material 25%
• Fire Experiment 25%
• Flame Spread Rate 25%
• Flammability 25%
• Fire Safety Design 25%
• Airflow Velocity 25%
• Reduced Pressure 25%
• Buoyancy 25%
• Similarity Experiment 25%
• Thin Solids 25%

INIS

• methacrylates 100%
• flames 100%
• buoyancy 100%
• space vehicles 66%
• fires 33%
• data 22%
• testing 22%
• space 22%
• environment 22%
• solids 22%
• safety 22%
• gravitation 22%
• low pressure 22%
• habitat 11%
• comparative evaluations 11%
• applications 11%
• surfaces 11%
• correlations 11%
• design 11%
• reduction 11%
• velocity 11%
• cotton 11%
• air flow 11%
• extrapolation 11%
• heat 11%
• overpressure 11%
• nasa 11%
• slabs 11%
• flow rate 11%
• convection 11%
• flammability 11%
• fiberglass 11%
• slowdown 11%