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Unsteady features on one-dimensional hydrogen-air detonations
Yu Daimon,
Akiko Matsuo
機械工学科
研究成果
:
Article
›
査読
23
被引用数 (Scopus)
概要
フィンガープリント
フィンガープリント
「Unsteady features on one-dimensional hydrogen-air detonations」の研究トピックを掘り下げます。これらがまとまってユニークなフィンガープリントを構成します。
並べ替え順
重み付け
アルファベット順
Mathematics
Detonation
100%
Hydrogen
89%
Shock
67%
Activation Energy
57%
Chemical Reaction
46%
Oscillation
42%
Explosion
31%
Simulation
25%
Gas
25%
Detonation Wave
21%
Projectile
20%
Equivalence
18%
Breakup
18%
Contact Discontinuity
18%
Rarefaction Wave
17%
Linear Stability Analysis
16%
Combustion
16%
Threshold Value
15%
Low Frequency
15%
Shock Waves
15%
Rayleigh
14%
Model
13%
History
12%
Decrease
11%
Diagram
11%
Intersection
10%
Line
9%
Series
8%
Curve
8%
Physics & Astronomy
detonation
70%
ignition
64%
shock
43%
hydrogen
41%
air
40%
chemical reactions
30%
oscillations
28%
activation energy
24%
equivalence
21%
thresholds
20%
explosions
20%
detonation waves
14%
hypersonics
13%
simulation
12%
gases
11%
intersections
11%
elastic waves
10%
flight
10%
density distribution
10%
projectiles
10%
temperature
10%
discontinuity
9%
shock waves
9%
histories
9%
diagrams
8%
low frequencies
7%
curves
6%
Engineering & Materials Science
Detonation
80%
Hydrogen
53%
Activation energy
52%
Chemical reactions
50%
Air
37%
Explosions
31%
Linear stability analysis
24%
Temperature
20%
Hypersonic aerodynamics
19%
Gases
19%
Shock waves
19%
Projectiles
18%
Chemical Compounds
Detonation
81%
Explosion Limit
56%
Reaction Activation Energy
35%
Hypersonic Velocity
34%
Simulation
32%
Detonation Wave
31%
Pressure
29%
Shock Wave
23%
Time
18%
Gas
17%
Wave
15%
Mixture
7%