Engineering & Materials Science
Cements
100%
Composite materials
71%
Fibers
63%
Fiber reinforced concrete
48%
Cracks
41%
Strain rate
35%
Reinforced concrete
32%
Textiles
31%
Glass
21%
Tensile strength
20%
Polypropylenes
19%
Ultra-high performance concrete
19%
Concretes
19%
Steel fibers
18%
Mechanical properties
17%
Glass fibers
17%
Toughness
16%
Toughening
14%
Yarn
14%
Tensile testing
14%
Ballistics
13%
Characterization (materials science)
13%
Stiffness
13%
Pultrusion
12%
Reinforcement
11%
Autoclaved aerated concrete
11%
Binders
11%
Tensile stress
10%
Temperature
10%
Basalt
10%
Materials properties
10%
Steel
10%
Polymers
9%
Laminates
9%
Image analysis
9%
Testing
9%
Portland cement
8%
Tensile properties
8%
Sulfates
8%
Plastics
8%
Elastic moduli
8%
Engineered cementitious composite
8%
Tensile strain
8%
Ductility
8%
Drying
7%
Crack propagation
7%
Strain hardening
7%
Durability
7%
Constitutive models
7%
Fatigue of materials
7%
Chemical Compounds
Fiber
58%
Strain
50%
Composite Material
49%
Strength
27%
Tension
24%
Aromatic Polyamide
22%
Glass
21%
Poly(propylene)
15%
Strain Hardening
14%
Tensile Strength
14%
Shear
12%
Length
11%
Simulation
11%
Reinforced Plastic
11%
Compression Strength
10%
Binding Agent
10%
Alkali
9%
Ductility
9%
Displacement
9%
Bend Strength
8%
Slab Like Crystal
8%
Mixture
8%
Fracture Energy
7%
Volume
7%
Slag
7%
Fracture Toughness
6%
Energy
6%
Curing
6%
Strain Energy
5%
Sulfate
5%
Resistance
5%
Microstructure
5%