Engineering
Pressure Relief Valve
100%
Models
69%
Seals
67%
Surfaces
55%
Fluid
45%
Fluid Pressure
35%
Nozzle
32%
Deformation
32%
Set Pressure
28%
Computational Fluid Dynamics
27%
Multiscale
27%
High Temperature
25%
Spring Force
23%
Macroscale
23%
Numerical Study
22%
Elements
22%
Model Structure
20%
Applications
20%
Closed State
20%
Microflows
20%
Surface Deformation
20%
Structural Behavior
20%
Finite Element Modeling
20%
Development
20%
Simple Geometry
16%
Axisymmetric Problem
16%
Measurement
16%
Steel
16%
Closed Position
15%
Fluid Flow
15%
Elevated Temperature
15%
Contacting Surface
13%
Numerical Approach
13%
Temperature
13%
High Pressure
13%
Products
13%
Research
11%
Gasket
11%
Microscale
10%
Gas Flow
10%
Nanometre
10%
Pressure Point
10%
Low Pressure
10%
Prediction
10%
Austenitic Stainless Steel
10%
Influencing Parameter
6%
Couplings
6%
Drives
6%
Surface Asperity
6%
Weir
6%
Limited Amount
6%
Monotonic
6%
Design Method
6%
Power Industry
6%
Set Point
6%
Incompressible Fluid
6%
Numerical Modeling
6%
Pressure Distribution
6%
Modeling Strategy
6%
Roughness
6%
Lift Valve
6%
Flange
6%
Plastic Deformation
6%
Scale Effect
6%
Mass Flowrate
5%
Ideal Gas
5%
Experimental Technique
5%
Research Program
5%
Transmissivity
5%
Contact Pressure
5%
Good Agreement
5%
Stainless Steel
5%
Pressure Gas
5%
Power Plant
5%
Computer Aided Design
5%
Energy Equation
5%
Inlet Pressure
5%
Characteristics
5%
Slip Flow Regime
5%
Maxwell Model
5%
Microchannel
5%
Momentum Equation
5%
Metal Contact
5%
Boundary Condition
5%
Plant Component
5%
Physics
Pressure
59%
Model
55%
Metal
40%
Gaps
35%
Fluid Flow
20%
Charge Flow Device
20%
Statics
20%
Ratios
18%
Deformation
18%
Shapes
15%
Low Pressure
15%
Computational Fluid Dynamics
15%
High Pressure
13%
Measuring Instruments
10%
Finite Element Methods
10%
Gas Flow
10%
Scale Effect
6%
Atmospherics
5%
Momentum
5%
Geometry
5%
Boundaries
5%
Regimes
5%
Boundary Condition
5%
Continuum Flow
5%
Steel
5%
Diffusivity
5%
Area
5%
Computer Aided Design
5%
Voids
5%
Computational Method
5%
Motivation
5%
Symmetry
5%
Ideal Gas
5%
Surface Roughness
5%
Dimensions
5%
Slip Flow
5%
Mass Flow Rate
5%