Engineering
Air Mixture
100%
Aluminum Powder
31%
Ambient Pressure
13%
Blast Loads
11%
Blast Wave
24%
Coherent Particle
11%
Computer Simulation
69%
Couplings
17%
Critical Condition
15%
Deflagration
46%
Delay Time
18%
Detonation Wave
22%
Diameter Tube
17%
Dilution
20%
Discrete Element
17%
Dynamic Fracture
11%
Dynamic Response
14%
Element Method
17%
Energy Engineering
72%
Eulerian Multi
11%
Expansion Process
13%
Experimental Result
58%
Explosion Characteristic
38%
Explosive Charge
29%
Flow Field
21%
Fracture Parameter
17%
Ground Movement
20%
Ground Surface
17%
High Strain Rate
14%
Hydrodynamics
20%
Ignition
26%
Ignition Delay
18%
Initial Pressure
20%
Initial Velocity
11%
Internals
11%
Lagrange
11%
Lower Flammability Limit
11%
Mass Concentration
20%
Natural Gas
17%
Obtains
15%
Peak Value
11%
Pneumatics
15%
Polyurethan
11%
Pressure Field
11%
Pressure Rise Rate
12%
Seismic Wave
14%
Shock Loads
12%
Soil Liquefaction
11%
Transition to Detonation
46%
Two Dimensional
14%
Physics
Air Flow
11%
Anisotropy
5%
Blast Wave
11%
Center of Mass
5%
Combustion Chamber
5%
Compressibility
5%
Deceleration
5%
Deflagration
17%
Delamination
5%
Detonation Performance
9%
Detonation Wave
20%
Dynamic Fracture
5%
Earth Observing System
5%
Elastic Wave
12%
Electric Fields
5%
Explosive Device
14%
Finite Element Method
17%
Flat Plate
5%
Flow Distribution
5%
Flow Velocity
5%
Ignition Temperature
7%
Impact Velocity
5%
Large Deformation
6%
Mathematical Method
11%
Mathematical Model
11%
Metal Particle
8%
Morphodynamics
5%
Physical Process
5%
Pressure Distribution
8%
Property of Materials
5%
Rarefaction
5%
Rigid Structure
5%
Seismic Waves
30%
Shock Wave
12%
Shock Wave Propagation
5%
Soil Surface
5%
Sound Generator
5%
Sound Intensity
5%
Statics
6%
Strain Rate
5%
Structural Dynamics
5%
Terminal Velocity
5%
Two Phase Flow
5%
Warhead
60%
Wave Interaction
11%
Wavelet Analysis
5%