Ingeniería y ciencia de los materiales
Ultrahigh molecular weight polyethylenes
100%
Friction
70%
Aluminum
52%
Boron
42%
Water
41%
Lubrication
38%
Wear of materials
37%
Lubricants
33%
Knee prostheses
32%
Thermal barrier coatings
32%
Texturing
31%
Ferritic stainless steel
29%
Transmission electron microscopy
27%
Proteins
26%
Temperature
26%
Powders
25%
Austenitic stainless steel
24%
Alumina
24%
Sintering
23%
Residual stresses
21%
Photodegradation
20%
Titanium
20%
Crystallite size
18%
Testing
17%
Steel
17%
Plasmas
17%
Molybdenum
17%
Zirconia
16%
Crystals
16%
Degassing
16%
Titanium dioxide
16%
Specific surface area
16%
Atomic force microscopy
15%
Wetting
15%
Hydrides
15%
Scanning electron microscopy
15%
Salts
15%
Martensitic stainless steel
15%
Brazing
15%
Hydrogen
14%
Stress relaxation
14%
Pore size
14%
Ingots
14%
Powder metallurgy
14%
Densification
14%
Energy gap
14%
Coatings
14%
Microstructure
13%
Stainless steel
13%
Steam turbines
13%
Química
Friction Coefficient
67%
Ultra High Molecular Weight Polyethylene
55%
Lubrication
45%
Wear
37%
Alloy
30%
Boron Atom
30%
Surface
22%
Sintering
22%
Kinematics
21%
Water Soluble
19%
Impeller
18%
Brazing
17%
Additive
16%
Stress Relaxation
16%
Turbine
16%
Transmission Electron Microscopy
16%
Degasification
15%
Plastic Deformation
15%
Powder Metallurgy
15%
Liquid Film
14%
Microstructure
14%
Solidification
13%
Densification
13%
Aluminium Alloy
13%
Reduction
13%
Ball Milling
12%
Alkyl Group
12%
Liquid
12%
Extrusion
12%
Hydrodynamics
11%
Photodegradation
11%
Foam
11%
Biocompatible Material
11%
Tetragonal Space Group
11%
Eutectics
10%
Hydride
10%
Pore Size
10%
Crystallite
10%
Titanium Dioxide
10%
Ammonium
9%
Atomic Force Microscopy
9%
Specific Surface Area
9%
Plasma
9%
Ammonia
9%
Semiconductor
9%
Band Gap
9%
Flow
9%
Simulation
9%
Abrasive
9%
Hydrogen
9%
Física y astronomía
friction reduction
38%
coefficient of friction
24%
tribometers
23%
entrainment
22%
aluminum
19%
lubricants
18%
sliding
18%
lubrication
18%
ferritic stainless steels
17%
wettability
16%
walking
16%
water
15%
salts
14%
steels
14%
statistical analysis
12%
ammonia
12%
molybdenum
12%
foams
12%
sulfur
11%
aluminum alloys
11%
balls
11%
precipitates
10%
boron
10%
scanning electron microscopy
10%
sintering
9%
temperature
9%
atomic force microscopy
9%
decomposition
9%
synthesis
9%
cycles
8%
transmission electron microscopy
8%
evaluation
7%
liquidus
7%
friction
7%