Engineering & Materials Science
Composite materials
100%
Glass fibers
97%
Drilling
67%
Polyesters
51%
Delamination
49%
Machining
46%
Polymers
45%
Surface roughness
40%
Mechanical properties
35%
Statistical methods
33%
Bending strength
29%
Tensile strength
29%
Hardness
25%
Durability
25%
Analysis of variance (ANOVA)
22%
Nanocomposites
21%
Fibers
16%
Laminates
16%
Radial tires
16%
Aluminum
15%
Marine applications
15%
Surface morphology
15%
Natural fibers
15%
Reaming
15%
Rotors
15%
Jute fibers
14%
Aging of materials
13%
Data envelopment analysis
13%
Water absorption
13%
Zinc oxide
13%
Predictive analytics
13%
Dental prostheses
13%
Basalt
13%
Metals
13%
Cellulose
13%
Atomic force microscopy
13%
Governors
12%
Vickers hardness
12%
Mechanical testing
12%
Inert gases
12%
Soft computing
12%
Aircraft engines
12%
Grinding wheels
12%
Taguchi methods
12%
Electric discharge machining
12%
Silicates
11%
Thermodynamic properties
11%
Mechanical engineering
11%
Seawater
11%
Quartz
11%
Chemical Compounds
Machining
75%
Composite Material
68%
Glass
65%
Delamination
62%
Reinforced Plastic
60%
Fiber
54%
Polyester
44%
Surface Roughness
44%
Bend Strength
36%
Tensile Strength
33%
Force
19%
Metal Matrix Composites
17%
Grinding Wheel
17%
Torque
16%
Dental Implant
14%
Error
13%
Nanocomposite
13%
Vickers Hardness
13%
Bearing
11%
Noble Gas Atom
11%
Surface
10%
Implant
10%
Environmental Friendliness
9%
Tension
9%
Application
9%
Nitrile
9%
Tungsten
9%
Carbon Fiber
9%
Epoxy Resin
9%
Weight
9%
Microstructure
8%
Atomic Force Microscopy
8%
Environmental Process
7%
Impact Strength
7%
Time
7%
Weight Gain
6%
Oxide
5%
Mathematics
Nanocomposites
34%
Machining
29%
Surface Roughness
23%
Electric Vehicle
20%
Surface Morphology
19%
Atomic Force Microscopy
19%
Energy Harvesting
18%
Zinc Oxide
17%
Metal Matrix Composites
17%
Necrosis
17%
Fiber
17%
Durability
17%
Damage
17%
Permanent Magnet
16%
Process Parameters
16%
Cellulose
16%
Titanium
16%
Epoxy
16%
Optimization
15%
Soft Computing
15%
Implant
15%
Data Envelopment Analysis
15%
Experimental Analysis
14%
Parametric Optimization
14%
Aluminum
13%
Composite
12%
Dimensional Analysis
12%
High Speed
12%
Composite Materials
12%
Glass
12%
Steel
12%
Finite Element Analysis
11%
Cutting Force
11%
Immersion
11%
Polymers
10%
Hardness
10%
Reinforcement
9%
Statistical method
9%
Nanoparticles
9%
Minimise
8%
Performance Metrics
7%
Review
7%
Modeling
6%
Ring
6%
Bone
6%
Design
6%
Percent
6%
Framework
5%
