Keyphrases
Fatigue Life
100%
Fatigue Load
87%
Headed Shear Stud
84%
Headed Stud
74%
Timber Structures
74%
Timber
62%
Istanbul
56%
Numerical Analysis
56%
High-cycle Loading
46%
Timber Buildings
37%
Static Strength
37%
Fatigue Behavior
37%
Railway Station
37%
Timber Beam
37%
Cultural Heritage
37%
Traditional Timber Frame
37%
Glass Fabric
37%
Turkey
37%
FRCM Systems
37%
FRCM Composites
37%
Freeze-thaw Durability
37%
Historical Masonry
37%
Masonry
37%
Freeze-thaw Cycles
37%
Textile Reinforced
37%
Strengthening Method
37%
Biaxial
37%
Seismic Response
37%
Reinforced Elastomers
37%
Strengthening System
37%
Composite Sample
37%
Stud
34%
Push-out Test
28%
Structural Members
25%
Historical Timber Buildings
25%
Damage Accumulation
21%
Ultimate Limit State
21%
Serviceability Limit State
21%
20th Century
18%
Seismic Performance
18%
Structural System
18%
Finite Element Analysis
18%
Site Observation
18%
Construction Companies
18%
Station-based
18%
Finite Element Analysis Software
18%
Composites Durability
18%
Loading Sequence
18%
Structural Weakness
18%
Finite Element Model
18%
Engineering
Fatigue Life
100%
Shear Studs
93%
Fatigue Loading
87%
Limit State
65%
Loading Cycle
46%
Finite Element Analysis
44%
Elastomer
37%
Fatigue Behavior
37%
Freeze Thaw Durability
37%
Seismic Response
37%
Joints (Structural Components)
37%
Railway
37%
Strengthening System
37%
Thaw Cycle
37%
Tensiles
37%
Assessment Method
37%
Critical Point
37%
Main Problem
37%
Material Loss
37%
Severe Damage
37%
Periodic Time
37%
Compressive Strength
37%
Compression Strength
37%
Bending Strength
37%
Static Strength
37%
Analytical Study
37%
Experimental Investigation
31%
Structural Member
25%
Damage Accumulation
21%
Serviceability
21%
Central Part
18%
Finite Element Modeling
18%
Structural Problem
18%
Structural System
18%
Symbolics
18%
Northern Part
18%
Seismic Performance
18%
Gateway
18%
Site Investigation
18%
Reinforced Concrete Structure
18%
Sample Matrix
18%
Masonry Structure
18%
Combustibility
18%
S-N Curve
18%
Steel-Concrete Composite Structure
18%
Stress Range
18%
Fatigue Resistance
18%
Linear Damage Accumulation
18%
Design Code
18%
Outer Surface
12%