Engineering & Materials Science
Concretes
100%
Cracks
88%
Glass
72%
Silicates
67%
Cements
63%
Constraint theory
63%
Semiconducting polymers
57%
Nanoindentation
51%
Fracture energy
50%
Molecular dynamics
41%
Indentation
39%
Composite materials
36%
Hardness
34%
Brittle fracture
33%
Aluminosilicates
32%
Fracture toughness
32%
Mechanics
29%
Densification
29%
Conjugated polymers
27%
Binders
27%
Calcium
25%
Fracture mechanics
23%
Stiffness
23%
Hydrates
21%
Polymers
21%
Hydration
21%
Adhesives
21%
Ductility
20%
Ultra-high performance concrete
20%
Calcium silicate
20%
Computer simulation
19%
Ultraviolet radiation
19%
Elastic moduli
18%
Glues
18%
Crosslinking
18%
Nanostructured materials
18%
Concrete pavements
17%
Bone
17%
Graphene
17%
Plasticity
17%
Rigidity
16%
Enzymes
16%
Carbonates
16%
Dyes
16%
Analytical models
15%
Characterization (materials science)
15%
Precipitates
15%
Calibration
15%
Mechanical properties
15%
Polypropylenes
14%
Chemical Compounds
Size Effect
91%
Silicate Glass
89%
Simulation
48%
Ductility
43%
Fracture Energy
41%
Densification
39%
Fracture Toughness
37%
Glass
37%
Molecular Dynamics
35%
Composite Material
34%
Strength
33%
Aluminosilicate Glass
31%
Calcium(0)
31%
Tension
28%
Binding Agent
26%
Multicomponent Reaction
25%
Brittleness
25%
Fracture Mechanics
24%
Plastic Property
22%
Energy
22%
Length
21%
Mechanics
20%
Construction Material
19%
Bitumen
19%
Ternary System
17%
Delamination
17%
Clay Mineral
17%
Dissipation
17%
Homogenization
16%
Free Volume
16%
Strain
16%
Atomistic Simulation
15%
Young's Modulus
15%
Application
14%
Hydrate
13%
Calorimetry
13%
Curing
13%
Shear
12%
Poly(propylene)
12%
Tensile Strength
12%
White
12%
Carbonate
11%
Elasticity Constant
10%
Molecular Cluster
9%
Nanomaterial
9%
Dye
9%
Gel
9%
Probe
8%
Porosity
8%
Reaction Yield
8%
Physics & Astronomy
silicates
57%
glass
35%
indentation
31%
calcium silicates
21%
fracturing
19%
meteorites
18%
densification
18%
hydrates
17%
molecular dynamics
16%
carbonates
16%
enzymes
15%
hardness
15%
decoupling
15%
fracture strength
14%
precipitates
12%
fragments
12%
roughness
12%
modulus of elasticity
11%
damage
10%
rings
10%
shear
10%
predictions
9%
composite materials
8%
polymers
8%
calcium
8%
fibers
8%
characterization
8%
simulation
7%
sodium silicates
7%
subroutines
6%
windshields
5%
microhardness
5%
ductility
5%