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TECHNICAL BULLETINS

Technical Bulletin 1

Special Moment Frame Connections with Sloped Columns

Welded moment connections in special moment frames are more susceptible to fracture when the connections are sloped. DuraFuse connections can accommodate slope without changing the stress states in the critical elements.

Technical Bulletin 2

ANS/AISCI 358 Chapter 15 DuraFuse Moment Frame CPRP Review Version

AISC Connection Prequalified Review Panel has recently reviewed an ANSI/AISC 358 Ch. 15 proposal incorporating DuraFuse Frames.  The chapter is currently working its way through the consensus process.  Check out the latest version embodying the design process of this cutting-edge connection system.

Technical Bulletin 3

How to Use the DuraFuse Features in RAM Frame

RAM Frame software has the option to model moment frame connections as DuraFuse connections. The software accurately models the elastic stiffness of frames with DuraFuse connections and performs the seismic checks that are pertinent to the members and joints. Detailed connection design that is not required for stiffness calculations or member checks is performed outside of RAM.

Technical Bulletin 4

Quantifying Connection Rigidity for DuraFuse Frames

Full-scale experiments were performed to evaluate the stiffness of connections in DuraFuse Frames. Sub-assemblies with beam depths ranging from 20.8 to 37.1 inches were subjected to initial cycles within the elastic range. The connection stiffnesses determined from the experiments were 2.7 to 3.5 times greater than the minimum connection stiffness required in order for the connections to be considered fully rigid (FR). Connections in DuraFuse Frames can be modeled as fully rigid (FR) connections for gravity and seismic loads.

Technical Bulletin 5

Backbone Curve for DuraFuse Frames

A general backbone curve for the DuraFuse Frames connection was developed for use in nonlinear analysis. The general backbone curve was derived based on nine experimental specimens subjected to cyclic loading. The backbone curve is defined by eight points calibrated from the test data. This paper summarizes the backbone curve, describes its development, and compares the general curve with the experimental data.

Technical Bulletin 6

Continuity Plates and the DuraFuse Frames Connection

Continuity plates are used in welded moment connections to transfer forces to the column web and to make the stress distribution at the beam-to-column welds more uniform. The DuraFuse Frames connection has a different load path that does not require standard continuity plates to transfer loads to the column. The cover plates in a DuraFuse Frames connection transmit the beam forces to the column and prevent local column flange deformations.

Technical Bulletin 7

How DuraFuse Frames are Represented in RAM

The software RAM Frame has the option to model moment frame connections as DuraFuse Frames connections. When this option is selected, the joints have stiffness parameters assigned to reflect the stiffness of DuraFuse Frames connections, as determined from analytical methods and experimental testing. The beam-to-column connection is considered to be fully restrained (FR) and the panel zone stiffness is modeled using the scissor method, following procedures recommended in the literature.

Technical Bulletin 8

Modeling DuraFuse Frames Connections in ETABS

The software ETABS is sometimes used to model steel moment resisting frames. When DuraFuse Frames are used for the steel moment frame, the joints in the ETABS model should be defined to accurately reflect the behavior of the DuraFuse Frames connections. The beam-to-column connection at each joint is considered to be fully restrained (FR) and the panel zone stiffness is modeled using the scissor method, following procedures recommended in the literature.

Technical Bulletin 9

DuraFuse Frames Code Approval IAPMO UES ER 610

Third-party code-approval reports are an important component of regulatory compliance in the construction industry, enabling innovation, problem solving and competitiveness. Their use is widespread in the realm of proprietary connection system and seismic technology, assuring compliance or equivalency with the governing building codes, such as IBC or CBC, or referenced standards, such as ANSI/AISC 341 or ANSI/AISC 360. DuraFuse Frames technology is covered by the IAPMO UES ER 610.

Technical Bulletin 10

Difference in Repair Cost for DuraFuse Frames vs. Other Steel Moment Frame Systems

Buildings that are designed with current codes are expected to be damaged during severe earthquakes. FEMA-P58 was developed to quantify expected building losses, based on the characteristics of the building and the seismic hazard. This bulletin summarizes a FEMA-P58 study that was used to compare the difference in expected building repair costs for DuraFuse Frames vs. a traditional steel moment frame system (RBS). DuraFuse Frames reduce structural repair costs by a factor of four, and residual drift demolition losses by a factor of ten.

Technical Bulletin 11

Post-Earthquake Evaluation of a Building with DuraFuse Frames

The March 18, 2020, earthquake near Salt Lake City, Utah, caused strong shaking at a site where a DuraFuse Frame building was under construction. The building was the new Student Center for the Salt Lake Community College (SLCC) Jordan Campus. A post-earthquake evaluation of the steel frame confirmed perfect performance of the DuraFuse Frames DF360 system during the event, with no damage to the steel frames. DuraFuse Frames systems are the most resilient steel moment frames available.

Downloads

Revit Family

The Revit Family provides a realistic view of the DuraFuse connection to aid in drawings and renderings. Log in to download the family.

Tekla Component

For quicker and more autonomous steel detailing, use the DuraFuse Frames custom component for Tekla. Log in to download the component.

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