INIS
additives
21%
adhesion
18%
air
20%
algae
21%
alloys
20%
aluminum
19%
annealing
30%
apolipoproteins
20%
argon ions
14%
bone tissues
14%
cerium
21%
coatings
64%
comparative evaluations
20%
depth
20%
energy
22%
failures
15%
films
36%
friction
52%
glass
14%
growth
19%
hardness
38%
increasing
15%
interactions
14%
interfaces
23%
investigations
16%
ion beams
15%
ions
33%
lanthanum alloys
18%
layers
29%
lubricants
17%
manufacturing
15%
mechanical properties
44%
metals
44%
microstructure
27%
modifications
20%
nanostructures
17%
oxides
15%
oxygen
15%
polymers
87%
polystyrene
17%
range
23%
sputtering
15%
substrates
19%
surfaces
100%
thickness
14%
thin films
14%
values
26%
wear
15%
x-ray photoelectron spectroscopy
20%
xps
18%
Material Science
Adhesion
16%
Air
20%
Aluminum
16%
Aluminum Composite
8%
Boron
8%
Cerium
10%
Coating
58%
Collagen
8%
Dispersion
10%
Elastic Moduli
12%
Electrical Property
10%
Etching
6%
Film
17%
Friction
31%
Glass Transition Temperature
7%
Grain Size
7%
Hardness
31%
Indentation
10%
Lanthanum Alloys
18%
Lubricant
10%
Lubricant Additive
7%
Material
11%
Mechanical Property
33%
Metal
17%
Microscopy
8%
Microstructure
12%
Mixture
6%
Nanoadditives
12%
Nanoindentation
24%
Nanoparticle
7%
Nickel
8%
Nucleation
11%
Oxide
7%
Oxide Film
10%
Perovskites
8%
Polymer
58%
Polymer Films
6%
Polystyrene
15%
Sliding Contact
7%
Surface
59%
Temperature
17%
Thin Films
14%
Tissue
8%
Vapor
5%
Velocity
7%
Void Fraction
9%
X-Ray Diffraction
8%
X-Ray Photoelectron Spectroscopy
20%
Young's Modulus
12%
Zinc
10%
Engineering
Additive Manufacturing
8%
Alloy
14%
Aluminum Alloys
5%
Applications
9%
Aspect Ratio
10%
Calcium
5%
Chemical Vapor Deposition
6%
Chromium
10%
Coating
13%
Coefficient of Friction
10%
Combustion
8%
Composite Panel
5%
Determines
6%
Erosion
7%
Experiments
5%
Friction Force
5%
Frictional Property
5%
Gauge Factor
6%
Hemp Fibre
5%
Indentation
16%
Irradiance
5%
Matrix Element
5%
Mechanical Properties
8%
Models
5%
Nanoscale
5%
Peak Heat Release Rate
5%
Polymer
6%
Polysilicon
10%
Selective Laser Melting
9%
Spray Water
5%
Surfaces
21%
Temperature
8%
Thermal Annealing
7%
Titanate Nanotube
10%
Tungsten
5%
Vapor Deposition
6%