Engineering & Materials Science
Multilayer films
100%
Temperature
93%
Nanoindentation
70%
Strain rate
66%
Plasticity
61%
Hyaluronic acid
56%
Twinning
51%
Mechanical properties
50%
Indentation
50%
Synchrotron radiation
47%
Cryogenics
46%
Dissimilar metals
44%
Creep
42%
Crystallinity
40%
RNA
39%
Biomimetics
39%
Dendrites (metallography)
38%
Hardening
38%
Polymers
38%
Vacuum
36%
Superalloys
35%
Thermodynamic stability
34%
Photoisomerization
33%
Nickel
33%
Nanoparticles
32%
Thin films
31%
Carbon fibers
30%
Yield stress
29%
Characterization (materials science)
28%
Hardness
28%
Compaction
27%
Repair
26%
Mechanical testing
26%
Welds
26%
Heating
25%
Multilayers
25%
Isomers
24%
Switches
23%
Fibers
22%
Polyacrylates
21%
Lamellar structures
21%
Chemical analysis
21%
Genes
21%
X rays
20%
Micromechanics
20%
Materials science
20%
Stress relaxation
19%
Composite materials
19%
Activation analysis
19%
Diffraction
18%
Chemical Compounds
Strain
89%
Multilayer Film
77%
Cryogenics
48%
Small Interfering RNA
45%
Creep
40%
Combinatorial Library
40%
Plastic Property
38%
Hyaluronic Acid
38%
Yield Point
37%
Multilayer
35%
Synchrotron Radiation
35%
Hydrazone
33%
Alloy
30%
Carbon Fiber
30%
Particle Density
28%
Ambient Reaction Temperature
28%
Shear Strain
27%
Crystallinity
25%
Diffusion
24%
Grain Boundary
23%
Liquid Film
23%
Thermal Stability
21%
Molecular Cluster
21%
Fiber
21%
Grain Size
20%
E Isomer
19%
Strength
19%
Kikuchi Reaction
19%
Creep Strength
18%
Precipitation Hardening
18%
Magnesium Atom
18%
Photoisomerization
17%
Oxide
17%
Nanoparticle
16%
Composite Material
16%
Electron Backscatter Diffraction
15%
Purity
15%
Amorphous Material
15%
Activation Volume
15%
Activation Analysis
14%
X-Ray Fluorescence Spectroscopy
14%
Amorphous Film
14%
Solid Solution
14%
Metallic Glass
14%
Glass Transition Temperature
13%
Electron Probe Microanalysis
13%
X-Ray
13%
Solidification
12%
Transmission Electron Microscopy
11%
Van Der Waals Force
11%
