Engineering & Materials Science
Steel
100%
Buckling
65%
Timber
53%
Earthquakes
52%
Reinforced concrete
48%
Ductility
37%
Failure modes
28%
Concretes
27%
Construction industry
27%
Aluminum
25%
Monitoring
22%
Stiffness
22%
Specifications
22%
Seismic design
22%
Finite element method
20%
Retrofitting
18%
Bearing capacity
18%
Orifices
17%
Seismic response
17%
Shape optimization
17%
Developing countries
17%
Concrete construction
17%
Fuzzy control
16%
Compressive strength
16%
Bolts
16%
Controllers
15%
Internet of things
13%
Damping
13%
Static analysis
12%
Industry
12%
Composite materials
12%
Energy utilization
11%
Bolted joints
11%
Time delay
10%
Flanges
10%
Earthquake engineering
10%
Uncertainty
10%
Enclosures
10%
Sensors
10%
Neural networks
9%
Shear deformation
9%
Public health
9%
Alarm systems
9%
Fuzzy rules
8%
Roofs
7%
Testing
7%
Sustainable development
7%
Plastics
7%
Economics
6%
Reinforcement
6%
Earth & Environmental Sciences
residential energy
24%
pandemics
21%
ductility
18%
literature review
16%
monitoring system
15%
compressive strength
15%
steel
14%
energy consumption
14%
cold
14%
evaluation
13%
disaster
13%
infiltration
13%
public participation
13%
mitigation
12%
environmental perception
12%
industrial building
11%
sensor
11%
land conservation
11%
urban renewal
11%
public
10%
monitoring
10%
demand
10%
buckling
10%
questionnaire survey
9%
globalization
9%
social science
8%
environmental economics
8%
energy use
8%
analysis
7%
regeneration
7%
history
6%
market
5%
health monitoring
5%
economy of scale
5%
wide area network
5%
software
5%
engineering
5%
soil
5%
notice
5%
Social Sciences
energy consumption
39%
residential building
23%
energy
22%
construction industry
19%
employability
17%
conservation
13%
housing construction
11%
worker
10%
China
9%
literature
9%
evaluation
7%
building
6%
learning
5%
reinforcement
5%
experience
5%
residential area
5%
education
5%