INIS
aging
22%
alloys
41%
aluminium
18%
applications
15%
comparative evaluations
21%
copper
30%
cryogenics
13%
cutting
84%
cutting tools
13%
data
14%
elastomers
91%
fibers
34%
finite element method
27%
hardness
61%
heat treatments
60%
investigations
30%
learning
13%
low temperature
30%
machining
91%
magnesium
30%
manufacturing
13%
matrices
79%
metals
40%
microhardness
35%
microstructure
39%
neural networks
30%
nitriles
30%
optimization
30%
particulates
30%
peaks
30%
plastics
13%
polyesters
30%
prediction
30%
pressure vessels
30%
processing
42%
reduction
15%
reviews
61%
roughness
34%
rubbers
30%
silicon nitrides
30%
speed
21%
stellite 6
30%
surfaces
71%
titanium
30%
tools
29%
trace elements
30%
values
41%
wear
40%
weight
34%
zinc
24%
Material Science
Age Hardening
13%
Aging of Materials
24%
Alloy
100%
Atmospheric Aerosols
10%
Carbide
8%
Cast
27%
Chip Formation
30%
Composite Laminate
30%
Composite Material
93%
Copper
61%
Cutting Tool
11%
Diesel
30%
Elastomer
30%
Fiber
35%
Fiber-Reinforced Composite
15%
Film
8%
Finite Element Modeling
15%
Friction
15%
Hardness
99%
Heat Treatment
56%
Machinability
30%
Machining
96%
Magnesium
30%
Material
22%
Matrix Composite
28%
Mechanical Property
30%
Mechanical Testing
35%
Metal Matrix Composite
43%
Microhardness
35%
Microstructural Analysis
11%
Microstructure
35%
Natural Fiber
10%
Polyester
30%
Pressure Vessel
30%
Reinforced Composite
12%
Reinforcement
46%
Rubber
30%
Scanning Electron Microscopy
10%
Silicon Nitride
30%
Stellite
30%
Surface
54%
Surface Roughness
35%
Temperature
47%
Three-Body Abrasive Wear
10%
Titanium
30%
Turning
11%
Wear (Damage)
30%
Wear Property
12%
Wear Resistance
8%
Zinc
11%
