flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Purdue, industry partners test light steel framing for seismic safety

Purdue, industry partners test light steel framing for seismic safety

Reasearch will conclude with shake table testing of structural and non-structural components.


By Purdue University | June 14, 2013
A view of the two-story test building. Photo: Kara Peterman
A view of the two-story test building. The completed structure is armored with 23,000 pounds of 1/2-inch steel plate. Photo: Kara Peterman

WEST LAFAYETTE, Ind. - A partnership of leading earthquake engineering researchers from top U.S. and Canadian universities and design professionals from the steel industry have begun the final phase of a three-year project to increase the seismic safety of buildings that use lightweight cold-formed steel for their primary beams and columns. 

Funded by a grant from the George E. Brown, Jr. Network for Earthquake Engineering Simulation Network (NEES), the researchers have already developed a series of computational models to determine how a complete building structure will perform during an earthquake. 

Headquartered at Purdue's Discovery Park, NEES is a collaborative, 14-site research initiative that aims to improve structural seismic design and reduce the damaging effects of earthquakes and tsunamis. NEES is funded by a $105 million National Science Foundation grant. NEEScomm is the operations unit at Purdue. 

The initial stage in the testing involved the construction of a two-story structure and then testing on a "shake table" at the University of Buffalo. The building will undergo the rigors of a controlled earthquake to determine how it performs. There will be two phases to the shake table testing: Phase One is taking place June 12-14 and will test only the structural components, which include the cold-formed steel skeleton and the OSB (oriented strand board) sheathing for the floor diaphragm and roof; Phase Two will add non-structural components like stairs, gypsum sheathing and interior partitions. The objective is to advance cold-formed steel light-frame design in buildings to the next level and equip engineers to implement these performance-based seismic designs in their projects. 

The data from the research is published on NEEShub, the cyberinfrastructure component of the NEES network. The NEEShub platform is powered by Purdue's HUBzero software. 

The research team is led by Benjamin Schafer of the Department of Civil Engineering at Johns Hopkins University and a longtime member of two standards-developing committees of the American Iron and Steel Institute (AISI) - the Committee on Specifications and the Committee on Framing Standards. Schafer's team includes additional researchers from Johns Hopkins and Bucknell University, with input from colleagues at the University of North Texas, Virginia Tech and McGill University in Montreal, Canada. 

Several steel industry partners are participating in the project, providing technical expertise, donated materials and additional funding. The steel industry partners include the American Iron and Steel Institute, Bentley Systems Inc., ClarkDietrich Building Systems, Devco Engineering Inc., DSi Engineering, Mader Construction Co. Inc., Simpson Strong-Tie Co. Inc., the Steel Framing Industry Association, and the Steel Stud Manufacturers Association. 

"We appreciate the valuable technical and economic input that our industry partners have provided," said Schafer, the project's principal investigator. 

"This project has already resulted in several innovations that will immediately impact seismic cold-formed steel design standards, making buildings safer," Schafer said. "Now comes the fun part - getting to see how all the research plays out on the shake table. One of the important deliverables from this project will be the transfer of our research results into an open-source software framework. The data will then be made available to engineers, allowing them to see how their structural system designs will respond to an earthquake before they are constructed. This software will create cost efficiencies and potentially save lives."

In fact, project data is already on NEEShub. Preliminary testing conducted on building components (shear walls in particular) have been posted for engineers to examine. Initial uploading of the test data happens immediately after the tests. Fully curated data will happen over the course of this summer. 

Schafer said Johns Hopkins graduate student Kara Peterman is on site at the University of Buffalo Structural Engineering and Earthquake Simulation Laboratory (SEESL) and is providing updates on the structure's construction and blog entries at the CFS NEES blog.

Project Background

The award is an outcome of the National Science Foundation 09-524 program solicitation for the George E. Brown, Jr. Network for Earthquake Engineering Simulation Research competition. The title of the project is "NEES-CR: Enabling Performance-Based Seismic Design of Multi-Story Cold-Formed Steel Structures," award number 1041578. 

The analysis and initial testing for the project began in late 2010 and took place at John Hopkins University and the University of North Texas. The focus has now moved to the University of Buffalo, where construction of the two-story test building was recently completed. Full-scale shake-table testing is expected to take place in the summer.

About the George E. Brown, Jr. Network for Earthquake Engineering Simulation Network (NEES) at Purdue

Since Oct. 1, 2009, the NEES operations and cyberinfrastructure headquarters has been at Purdue University's Discovery Park, the result of National Science Foundation cooperative agreement #CMMI-0927178. The 14 participating universities hosting NEES laboratories include Cornell University; Lehigh University; Oregon State University; Rensselaer Polytechnic Institute; University at Buffalo, SUNY; University of California, Berkeley; University of California, Davis; University of California, Los Angeles; University of California San Diego; University of California Santa Barbara; University of Illinois, Urbana-Champaign; University of Minnesota; University of Nevada, Reno; and University of Texas, Austin. In addition, 5 institutions involved as administrative partners include: San Jose State University, University of Washington, University of Kansas, University of South Carolina, and the Fermi National Laboratory.

Related Stories

Sustainability | Jan 9, 2023

Innovative solutions emerge to address New York’s new greenhouse gas law

New York City’s Local Law 97, an ambitious climate plan that includes fines for owners of large buildings that don’t significantly reduce carbon emissions, has spawned innovations to address the law’s provisions.

Fire and Life Safety | Jan 9, 2023

Why lithium-ion batteries pose fire safety concerns for buildings

Lithium-ion batteries have become the dominant technology in phones, laptops, scooters, electric bikes, electric vehicles, and large-scale battery energy storage facilities. Here’s what you need to know about the fire safety concerns they pose for building owners and occupants.

Market Data | Jan 6, 2023

Nonresidential construction spending rises in November 2022

Spending on nonresidential construction work in the U.S. was up 0.9% in November versus the previous month, and 11.8% versus the previous year, according to the U.S. Census Bureau.

Industry Research | Dec 28, 2022

Following a strong year, design and construction firms view 2023 cautiously

The economy and inflation are the biggest concerns for U.S. architecture, construction, and engineering firms in 2023, according to a recent survey of AEC professionals by the editors of Building Design+Construction.

Performing Arts Centers | Dec 23, 2022

Diller Scofidio + Renfro's renovation of Dallas theater to be ‘faithful reinterpretation’ of Frank Lloyd Wright design

Diller Scofidio + Renfro recently presented plans to restore the Kalita Humphreys Theater at the Dallas Theater Center (DTC) in Dallas. Originally designed by Frank Lloyd Wright, this theater is the only freestanding theater in Wright’s body of work.

University Buildings | Dec 22, 2022

Loyola Marymount University completes a new home for its acclaimed School of Film and Television

California’s Loyola Marymount University (LMU) has completed two new buildings for arts and media education at its Westchester campus. Designed by Skidmore, Owings & Merrill (SOM), the Howard B. Fitzpatrick Pavilion is the new home of the undergraduate School of Film and Television, which is consistently ranked among the nation’s top 10 film schools. Also designed by SOM, the open-air Drollinger Family Stage is an outdoor lecture and performance space.

Adaptive Reuse | Dec 21, 2022

University of Pittsburgh reinvents century-old Model-T building as a life sciences research facility

After opening earlier this year, The Assembly recently achieved LEED Gold certification, aligning with the school’s and community’s larger sustainability efforts.

Multifamily Housing | Dec 20, 2022

Brooks + Scarpa-designed apartment provides affordable housing to young people aging out of support facilities

In Venice, Calif., the recently completed Rose Apartments provides affordable housing to young people who age out of youth facilities and often end up living on the street. Designed by Brooks + Scarpa, the four-story, 35-unit mixed-use apartment building will house transitional aged youths.

Coatings | Dec 20, 2022

The Pier Condominiums — What's old is new again!

When word was out that the condominium association was planning to carry out a refresh of the Pier Condominiums on Fort Norfolk, Hanbury jumped at the chance to remake what had become a tired, faded project.

Cladding and Facade Systems | Dec 20, 2022

Acoustic design considerations at the building envelope

Acentech's Ben Markham identifies the primary concerns with acoustic performance at the building envelope and offers proven solutions for mitigating acoustic issues.

boombox1
boombox2
native1

More In Category


Urban Planning

Bridging the gap: How early architect involvement can revolutionize a city’s capital improvement plans

Capital Improvement Plans (CIPs) typically span three to five years and outline future city projects and their costs. While they set the stage, the design and construction of these projects often extend beyond the CIP window, leading to a disconnect between the initial budget and evolving project scope. This can result in financial shortfalls, forcing cities to cut back on critical project features.



Libraries

Reasons to reinvent the Midcentury academic library

DLR Group's Interior Design Leader Gretchen Holy, Assoc. IIDA, shares the idea that a designer's responsibility to embrace a library’s history, respect its past, and create an environment that will serve student populations for the next 100 years.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021