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Earthquake, wind, and fire: joint effects on structures
Pedro Martinez-Vazquez
Civil Engineering
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peer-review
42
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Dive into the research topics of 'Earthquake, wind, and fire: joint effects on structures'. Together they form a unique fingerprint.
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Keyphrases
Joint Effect
100%
Earthquake
100%
Design Framework
100%
Engineering Practice
100%
On-state Current
50%
Continuous Flow
50%
Ductility
50%
Wind Effects
50%
Temperature Gradient
50%
Knowledge Gaps
50%
Extreme Situations
50%
Performance-based Design
50%
Concrete Structures
50%
Robust Performance
50%
Induced Hazards
50%
Steel Structures
50%
Earthquake Records
50%
Infrastructure Resilience
50%
Deterioration Degree
50%
Fire Effects
50%
Earthquake Effects
50%
Strength Reduction Factor
50%
Design Initiative
50%
Earthquake-resistant Design
50%
Combined Hazards
50%
Historical Earthquakes
50%
Wind Gradient
50%
Engineering
Joints (Structural Components)
100%
Engineering
100%
Thermal Gradient
50%
Temperature Gradients
50%
Concrete Structure
50%
Strength Reduction Factor
50%
Resistant Design
50%
Earth and Planetary Sciences
Wind Velocity
100%
Steel Structure
100%
Concrete Structure
100%
Joint Effect
100%
Chemical Engineering
Thermal Gradient
100%