Engineering & Materials Science
Reinforced concrete
100%
Reinforcement
82%
Cracks
76%
Concretes
75%
Concrete construction
55%
Concrete slabs
28%
Fiber reinforced concrete
27%
Static analysis
20%
Ultra-high performance concrete
18%
Crack initiation
18%
Piles
15%
Steel fibers
15%
Cantilever beams
14%
Shear bands
14%
Cements
14%
Scattering
12%
Hydration
12%
Service life
12%
Stiffness
12%
Hot Temperature
11%
Planning
10%
Fibers
10%
Fiber reinforced materials
9%
Concrete bridges
9%
Thermal load
9%
Stress concentration
9%
Finite element method
9%
Computer simulation
8%
Temperature
8%
Geopolymers
8%
Soils
8%
Polymer concrete
8%
Pile foundations
8%
Concrete buildings
8%
Testing
8%
Vegetable oils
8%
Prestressing
8%
Tensile stress
7%
Poisson ratio
7%
Steel
7%
Drying
7%
Steel construction
7%
Risk assessment
7%
Steel sheet
7%
Atmospheric humidity
6%
Bending moments
6%
Viscoelasticity
6%
Boundary conditions
6%
Costs
6%
Fracture mechanics
6%
Bending tests
6%
Bearing capacity
6%
Abutments (bridge)
6%
Creep
6%
Structural analysis
5%
Failure analysis
5%
Porosity
5%
Materials properties
5%
Retaining walls
5%
Hardening
5%
Temperature distribution
5%
Mechanical properties
5%
Earth & Environmental Sciences
cement (construction material)
10%
material
9%
loss
7%
cracking (fracture)
6%
hardening
6%
book
5%
traffic
5%
crack
5%
recommendation
5%