Engineering & Materials Science
Life cycle
100%
Costs
65%
Steel bridges
52%
Uncertainty
46%
Beams and girders
43%
Box girder bridges
41%
Inspection
35%
Deterioration
35%
Corrosion
31%
Fatigue of materials
29%
Highway bridges
24%
Fatigue crack propagation
22%
Planning
21%
Reliability analysis
20%
Decision making
19%
Prestressed concrete
18%
Concretes
18%
Gas pipelines
16%
Steel
15%
MEMS
15%
Cracks
14%
Random variables
14%
Degradation
14%
Crack propagation
13%
Roofs
13%
Reinforced concrete
12%
Load limits
12%
Aging of materials
12%
Finite element method
11%
Sensitivity analysis
11%
Materials science
11%
Elastoplasticity
11%
Defects
10%
Materials properties
10%
Reinforcement
10%
Concrete construction
10%
Temperature
10%
Derailments
10%
Environmental design
10%
Ocean structures
9%
Statistical Models
9%
Metals
9%
Magnetic levitation
9%
Concrete bridges
9%
Earthquakes
8%
Carbonation
8%
Polymers
8%
Asphalt concrete
8%
Carbon nitride
8%
Liquefaction
8%
Mathematics
Prediction Model
18%
Life Cycle Cost
15%
Fatigue Life Prediction
15%
Maintenance
14%
Life Cycle
13%
Penetration
12%
Steel
10%
Cost Model
10%
Fatigue
9%
Reinforced Concrete
9%
Corrosion
9%
Elastoplasticity
9%
Concrete Structures
9%
Reliability Analysis
8%
Crack
8%
Quantification
8%
Attack
7%
Entropy
7%
Bayesian Approach
7%
Fatigue Life
6%
Interaction
6%
Cell
5%
Profile
5%
Methodology
5%
Strategy
5%
Earth & Environmental Sciences
cost
13%
uplift
11%
life-cycle management
11%
industrial building
10%
TBM
9%
evaluation
8%
credit
8%
leadership
8%
certification
6%
safety
6%
shield
6%
roof
6%
corrosion
5%
experimental study
5%
index
5%
sustainability
5%
infrastructure
5%
inspection
5%
steel
5%
