Engineering & Materials Science
Asphalt concrete
15%
Bending strength
19%
Bridge decks
24%
Buckling
15%
Carbon nanotubes
18%
Carbonation
17%
Cements
25%
Composite materials
19%
Compressive strength
13%
Concretes
87%
Crack initiation
13%
Crack propagation
35%
Crack tips
27%
Cracks
100%
Display devices
15%
Electrodes
12%
Energy storage
17%
Fabrication
14%
Fatigue crack propagation
16%
Fatigue of materials
24%
Fiber reinforced concrete
25%
Fibers
22%
Finite element method
33%
Foams
29%
Fracture mechanics
23%
Geopolymers
18%
Glass
45%
Glass fibers
12%
Graphene
21%
Ions
14%
Liquid crystal displays
18%
Liquid metals
13%
Nanocomposites
18%
Nanofibers
18%
Nanowires
20%
Phantoms
24%
Polyaniline
27%
Polydimethylsiloxane
12%
Polymers
23%
Powders
18%
Precast concrete
15%
Reinforcement
18%
Silica
20%
Skin
21%
Strain gages
13%
Stress concentration
12%
Stretching
13%
Substrates
16%
Supercapacitor
15%
Tensile strength
31%
Chemical Compounds
Application
9%
Behavior as Electrode
11%
Bend Strength
15%
Carbon Fiber
7%
Carbon Nanotube
7%
Chloride
8%
Coalescence
9%
Complex Modulus
6%
Composite Material
18%
Compression Strength
15%
Corrosion
9%
Crack Initiation
14%
Crack Propagation
12%
Displacement
10%
Electrical Resistance
6%
Energy
13%
Energy Storage
16%
Fatigue Strength
7%
Fiber
23%
Field Effect
8%
Foam
18%
Fracture Mechanics
23%
Fracture Toughness
8%
Glass
26%
Glass Powder
25%
Graphene
9%
Heat
8%
Kinematics
9%
Length
9%
Multi Walled Nanotube
11%
Nanocomposite
11%
Nanofiber
11%
Nanowire
14%
Plate Like Crystal
7%
Polyurethane Foam
14%
Reinforced Plastic
15%
Resistance
12%
Shape
8%
Simulation
22%
Single Walled Nanotube
7%
Size Effect
22%
Slab Like Crystal
7%
Slag
8%
Strain
38%
Strength
30%
Surface
9%
Tensile Strength
22%
Transparency
8%
Voltage
8%
Volume
7%
Mathematics
Arbitrary
7%
Branch
6%
Brittle Materials
6%
Cell
7%
Cohesive Crack
42%
Constitutive Model
5%
Cost Model
6%
Crack
64%
Crack Growth
19%
Crack Initiation
9%
Crack Propagation
15%
Crack Tip
22%
Cracking
9%
Density Profile
6%
Discontinuity
7%
Dynamic Fracture
7%
Extended Finite Element Method
15%
Fatigue Crack Growth
7%
Fatigue Life Prediction
8%
Fiber
7%
Foam
11%
Fracture Mechanics
8%
Glass
10%
Grain Growth
7%
Graphene
20%
Influence
6%
Level Set Method
6%
Life Cycle Cost
8%
Mechanical Behavior
7%
Mechanical Properties
11%
Mesh
8%
Meshfree Method
21%
Modeling
8%
Molecular Dynamics Simulation
8%
Multi-walled Carbon Nanotubes
8%
Multilevel Analysis
7%
Multiscale Methods
6%
Nanocomposites
14%
Partition of Unity
10%
Partition of Unity Method
6%
Phantom
19%
Polyaniline
9%
Polymers
8%
Propagation
7%
Remeshing
17%
Shell Model
6%
Size Effect
26%
Softening
6%
Three-dimensional
14%
Vertex of a graph
9%
