INIS
surfaces
100%
wear
55%
lasers
55%
steels
45%
slurries
41%
permanent magnets
41%
coatings
35%
optimization
33%
speed
33%
erosion
31%
simulation
30%
alloys
29%
rotation
27%
electrodynamics
27%
design
26%
performance
23%
air
21%
damage
19%
losses
19%
colmonoy
18%
damping
18%
polymers
17%
distance
17%
brakes
17%
microstructure
16%
monitoring
16%
thickness
15%
stellite 6
15%
layers
14%
modeling
14%
ultrasonics
14%
curves
14%
seals
13%
probabilistic estimation
13%
transmission
13%
chemical properties
13%
nondestructive analysis
13%
drugs
13%
screening
13%
eddy currents
13%
pneumonia
13%
nozzles
13%
beams
13%
mechanical properties
13%
chains
13%
carbon nanotubes
13%
dyes
13%
walls
13%
power plants
13%
modifications
13%
Engineering
Laser Surface
55%
Permanent Magnet
41%
Alloying
36%
Thrust Bearing
27%
Ultrasonics
20%
Optimisation Procedure
16%
Erosive Wear
16%
Al Alloy
13%
Brake Pad
13%
Probabilistic Approach
13%
Scanning Speed
13%
Coating Property
13%
Laser Surface Modification
13%
Structural Health Monitoring
13%
Erosion Resistance
13%
Disk Brake
13%
Transducer
13%
Non Destructive Evaluation
13%
Stand-off-Distance
13%
Automotives
13%
Sliding Wear
13%
Slurry Erosive Wear
13%
Fatigue Loading
13%
Sensor Network
13%
Sliding Speed
13%
Metal Matrix Composite
13%
Artificial Neural Network Model
13%
Frictional Force
13%
Electric Power Plant
13%
Artificial Neural Network
13%
Influencing Factor
13%
Response Surface Methodology
13%
Phase Composition
11%
Guided Wave
9%
Fitting Curve
9%
Outer Diameter
9%
Finite Element Analysis
9%
Finite Element Simulation
9%
Silicon Dioxide
8%
Damage Growth
6%
Damage Detection
6%
Widespread Fatigue Damage
6%
Inspection Interval
6%
Crack Initiation Fatigue
6%
Detection Sensitivity
6%
Critical Damage
6%
System Reliability
6%
Dilution
6%
Design Specification
6%
Test Condition
6%