Ingeniería y ciencia de los materiales
Computer aided manufacturing
100%
Fracture toughness
92%
Computer aided design
80%
Fibers
64%
Natural fibers
60%
Composite materials
56%
Restoration
39%
Polypropylenes
39%
Textiles
38%
Tensile strength
36%
Bamboo
35%
3D printers
35%
Dental prostheses
31%
Acetal resins
31%
Polymers
30%
Polysulfones
29%
Steam piping systems
28%
Fillers
25%
Nanofibers
25%
Zirconia
22%
Graphene
22%
Acrylics
22%
Steam pipelines
21%
Cellulose
21%
Crystalline materials
20%
Tensile properties
19%
Thermoplastics
19%
Functional groups
19%
Tomography
18%
Carbon fibers
18%
Characterization (materials science)
16%
Numerical analysis
16%
Maleic anhydride
16%
Testing
15%
Nanocellulose
15%
X rays
14%
Corrosion
14%
Image reconstruction
13%
Image processing
12%
Prostheses and Implants
12%
Thermal cycling
11%
Crystallinity
11%
Tensile testing
10%
Delamination
9%
Electrochemical properties
9%
Image texture
8%
Polyester resins
8%
Torque
8%
Reinforcement
8%
Stereolithography
7%
Química
Resistance
51%
Fiber
40%
Composite Material
36%
Fracture Toughness
27%
Filler
23%
Melt Flow Index
22%
Fracture Strength
20%
Tensile Strength
20%
Acetal
19%
Poly(propylene)
19%
Carbon Fiber
17%
Rheology
17%
Pipeline
15%
Torque
14%
Corrosion
13%
Graphene
13%
Acrylic Resin
12%
Force
12%
Strength
12%
Maleic Anhydride
11%
Delamination
11%
Environment
11%
Cantilever Beam
7%
Flexibility
7%
Surface
7%
Time
6%
Additive
6%
Flexural Modulus
6%
Crystalline Texture
6%
Bend Strength
5%
Young's Modulus
5%
Sawdust
5%
Física y astronomía
splints
35%
computer aided manufacturing
28%
composite materials
23%
computer aided design
22%
cold plasmas
21%
polypropylene
19%
injection
17%
low pressure
16%
fibers
15%
steels
14%
injection molding
14%
microorganisms
11%
characterization
10%
medical equipment
7%
gases
7%
agriculture
7%
profiles
6%
fungi
6%
pathogens
6%
viscosity
6%
electric generators
6%
hydrogen peroxide
5%
thermal plasmas
5%
viruses
5%
food
5%
deactivation
5%
materials science
5%
bacteria
5%