Ingeniería y ciencia de los materiales
Concrete blocks
100%
Heat resistance
90%
Autoclaved aerated concrete
61%
Thermodynamic properties
48%
Heating
41%
Temperature
37%
Heat transfer
32%
Hot Temperature
32%
Industrial wastes
28%
Olefins
26%
Composite materials
26%
Thermal insulation
24%
Climate change
24%
Portland cement
24%
Energy efficiency
23%
Structural analysis
22%
Heat losses
22%
Energy utilization
21%
Air conditioning
20%
Energy conservation
17%
Radiation
17%
Thermal conductivity
16%
Convection
14%
Cooling systems
14%
Mechanical properties
14%
Economics
14%
Costs
12%
Thermal comfort
12%
Water
11%
Pneumatics
11%
Stainless steel
9%
Mortar
9%
Arid regions
8%
Potential energy
8%
Economic analysis
8%
Concrete mixtures
8%
Iterative methods
8%
Specific heat
7%
Enthalpy
7%
Gas emissions
7%
Greenhouse gases
7%
Sustainable development
6%
Surveying
6%
Cooling
6%
Sulfur
6%
Electric potential
5%
Electricity
5%
Química
Thermal Resistance
81%
Block Like Crystal
50%
Industrial Waste
27%
Energy Consumption
24%
Heat Transfer
24%
Energy
21%
Simulation
18%
Decarbonization
18%
Thermal Conductivity
17%
Sunflower Oil
13%
Vulcanization
13%
Thermomechanical Property
13%
Elemental Sulfur
12%
Brown
11%
Air Conditioning
11%
Drinking Water
11%
Lightweight Material
11%
Composite Material
11%
Electric Energy
10%
Application
10%
Potential Energy
7%
Thermodynamic Property
6%
Weight
6%
Enthalpy
5%
Surface Temperature
5%
Ciencias ambientales y de la tierra
cavity
25%
economic impact
23%
heat transfer
19%
climate
19%
radiation
16%
cooling
14%
heating
14%
seismic design
14%
economics
13%
insulation
12%
city
12%
cost
11%
convection
11%
temperature
11%
ground motion
11%
reinforcement
11%
energy
10%
urban development
10%
perlite
10%
vibration
10%
simulation
9%
lithology
9%
modeling
9%
surface temperature
9%
material
9%
heat capacity
8%
economic analysis
8%
distribution
8%
energy demand
8%
economic activity
7%
thermal conductivity
7%
mortar
7%
heat flow
7%
greenhouse gas emissions
6%
electricity
6%
world
6%
sustainable development
6%
project
5%