Ingeniería y ciencia de los materiales
Concrete construction
100%
Autoclaved aerated concrete
93%
Thermodynamic properties
42%
Climate change
37%
Structural analysis
35%
Heat resistance
34%
Heat losses
34%
Energy conservation
27%
Temperature
25%
Heating
24%
Energy utilization
24%
Poisson ratio
23%
Cracks
22%
Concrete blocks
19%
Concretes
17%
Reinforced concrete
17%
Pneumatics
16%
Stainless steel
15%
Hot Temperature
13%
Potential energy
12%
Concrete mixtures
12%
Air conditioning
11%
Fracture mechanics
10%
Thermal conductivity
10%
Elasticity
9%
Water
9%
Molecular dynamics
9%
Reinforcement
9%
Electric potential
8%
Continuum damage mechanics
7%
Boundary conditions
7%
Microcracking
6%
Steel
6%
Composite materials
6%
Global warming
6%
Thermal comfort
6%
Computer simulation
6%
Brittleness
6%
Heat transfer coefficients
5%
Química
Fracture Mechanics
52%
Poisson Ratio
49%
Simulation
40%
Energy Consumption
38%
Lattice Model
24%
Application
21%
Mechanics
19%
Air Conditioning
17%
Lightweight Material
17%
Composite Material
17%
Electric Energy
16%
Energy
16%
Force
11%
Potential Energy
11%
Thermal Conductivity
10%
Thermodynamic Property
10%
Block Like Crystal
7%
Mixture
5%
Física y astronomía
concrete structures
49%
climate
43%
climate change
40%
energy consumption
31%
projection
27%
low density materials
13%
air conditioning
12%
energy requirements
11%
economy
10%
weather
10%
Poisson ratio
10%
damage
10%
energy
10%
thermophysical properties
9%
emerging
7%
envelopes
7%
potential energy
7%
thermal conductivity
6%
fracture mechanics
5%
simulation
5%
temperature
5%