Keyphrases
Optical Investigations
100%
Alternative Fuels
100%
Optical Materials
100%
Combustion
100%
Opto-mechanical Design
100%
Optical Access
100%
Gasoline
66%
Iso-octane
66%
Engine Speed
66%
Cyclic Loading
66%
Compression Ratio
66%
Optical Data
66%
Flame Shape
33%
High-speed Imaging Systems
33%
Speed Ratio
33%
Safety Factor
33%
Design Information
33%
Electromagnetic Waves
33%
Constant Volume Chamber
33%
Liquid Fuel
33%
Stoichiometric Conditions
33%
Image Projection
33%
Ellipse Fitting Method
33%
Design Case
33%
Inconstancy
33%
Ignition Kernel
33%
Measurement Results
33%
Flame Speed
33%
Ignition
33%
Mechanical Strength
33%
Flame Surface Area
33%
Renewable Fuels
33%
Compression Time
33%
Flame Kernel
33%
Internal Combustion Engine
33%
Failure Probability
33%
Reactor
33%
Flame Propagation
33%
Flame Speed Measurement
33%
Piston Engine
33%
Time Elapsed
33%
Design Process
33%
Image Analysis
33%
High Temperature Design
33%
Statistical Analysis
33%
Pressure Vessel
33%
Statistical Evaluation
33%
Propagation Characteristics
33%
Shape Descriptor
33%
Risk Probability
33%
Propagation Properties
33%
Working Temperature
33%
Visible Light
33%
High Pressure High Temperature
33%
Flame Propagation Behaviors
33%
Analyzing Methods
33%
Engineering
Flame Propagation
100%
Isooctane
100%
Engine Speed
100%
Compression Ratio
100%
Mechanical Design
100%
Cyclic Loading
100%
Ignition
100%
Alternative Fuel
100%
Roundness
50%
Engine Pistons
50%
Emitted Light
50%
Internal Combustion Engine
50%
Imaging Systems
50%
Propagation Characteristic
50%
Image Analysis
50%
Speed Ratio
50%
Design Process
50%
Elapsed Time
50%
Similarities
50%
Safety Factor
50%
High Pressure and High Temperature
50%
Pressure Vessel
50%
Design Data
50%
Limiting Factor
50%
Constant Volume
50%
Renewable Fuel
50%
Material Science
Alternative Fuel
100%
Optical Material
100%
Detonation
66%
Strength of Materials
33%
Liquid Fuels
33%