INIS
aluminum
17%
applications
33%
assessments
10%
coefficient of performance
10%
comparative evaluations
10%
composite materials
25%
cost
10%
cutting
14%
damage
31%
design
37%
drilling
55%
drills
32%
durability
22%
dynamics
14%
energy
14%
engineering
10%
engines
11%
epoxides
29%
errors
24%
evaluation
13%
failures
20%
fiberglass
63%
fibers
19%
finite element method
10%
flexural strength
10%
holes
10%
machining
41%
matrices
27%
mechanical properties
25%
metals
13%
nanocomposites
14%
norm
11%
optimization
64%
performance
11%
polyesters
29%
polymers
40%
prediction
19%
removal
11%
rotors
12%
roughness
29%
solutions
17%
speed
40%
surfaces
55%
tensile strength
14%
thickness
15%
tools
12%
values
37%
vehicles
14%
water
11%
weight
13%
Material Science
Aging of Materials
10%
Aluminum
10%
Basalt
7%
Brick
7%
Carbide
7%
Carbon Fiber
7%
Composite Material
100%
Conductivity
7%
Delamination
39%
Dental Prosthesis
7%
Drilling
61%
Durability
15%
Epoxy
21%
Experimental Design
7%
Finite Element Methods
7%
Flexural Strength
10%
Glass Fiber
62%
Glass-Fiber Reinforced Plastic
15%
Hardness
15%
Jute Fiber
7%
Machining
32%
Material
40%
Matrix Composite
8%
Mechanical Property
24%
Mechanical Testing
7%
Metal Matrix Composite
14%
Nanocomposites
10%
Performance Index
8%
Plastics
8%
Polyester
34%
Polymer Composite
19%
Quartz
7%
Reinforced Plastic
35%
Reinforcement
9%
Rubber
7%
Sand
7%
Silicate
7%
Solid
7%
Solution
11%
Surface
22%
Surface Morphology
8%
Surface Roughness
23%
Taguchi Method
7%
Temperature
19%
Thermal Expansion
7%
Thermal Property
8%
Titanium
7%
Torque
8%
Tungsten
7%
Turning
7%
Physics
Assessments
7%
Atomic Force Microscopy
7%
Carbon Fiber
7%
Composite
16%
Delamination
23%
Diameters
6%
Durability
7%
Failure Analysis
7%
Fibers
8%
High Speed
7%
Independent Variables
14%
Life Cycle Assessment
7%
Machining
10%
Mathematical Model
8%
Methods: Statistical
7%
Model
26%
Nanocomposite
14%
Optimization
16%
Oxide
7%
Permanent Magnet
7%
Responses
19%
Speed
9%
Submerging
7%
Surface Roughness
5%
Tires
7%
Utilization
9%
Value
12%
