Print List
| Summary |
|---|
| Controlled Rocking of Steel-Framed Buildings with Replaceable Energy Dissipating Fuses (NSF and NIED/E-Defense) |
| Micro-mechanical models for simulating earthquake-induced fractures in steel structures (NSF and the Nippon Steel Corporation) |
| Reliability-Based Approach for Capacity Design Factors for Seismic Resistant Structural Steel Buildings (American Institute of Steel Construction) |
| Seismic performance of exposed column base plates (American Institute of Steel Construction) |
| Benchmarking the Seismic Performance of Reinforced Concrete Frame Buildings (Pacific Earthquake Engineering Research Center) |
| Seismic Design Criteria and Plans for Large Scale Testing of Composite RCS Frames (NSF and the Taiwan National Center for Research in Earthquake Engineering) |
| Analytical Models for RC Frames with Strength and Stiffness Degradation (Pacific Earthquake Engineering Research Center) |
| Performance-Based Engineering for Fire in Steel Structures (internal study) |
|
Summary:
Controlled Rocking of Steel-Framed Buildings with Replaceable Energy Dissipating Fuses (NSF and NIED/E-Defense)
Summary:
Micro-mechanical models for simulating earthquake-induced fractures in steel structures (NSF and the Nippon Steel Corporation)
Summary:
Reliability-Based Approach for Capacity Design Factors for Seismic Resistant Structural Steel Buildings (American Institute of Steel Construction)
Summary:
Seismic performance of exposed column base plates (American Institute of Steel Construction)
Summary:
Benchmarking the Seismic Performance of Reinforced Concrete Frame Buildings (Pacific Earthquake Engineering Research Center)
Summary:
Seismic Design Criteria and Plans for Large Scale Testing of Composite RCS Frames (NSF and the Taiwan National Center for Research in Earthquake Engineering)
Summary:
Analytical Models for RC Frames with Strength and Stiffness Degradation (Pacific Earthquake Engineering Research Center)
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