flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Buckling restrained braced frame debuts in the Northeast, at Bronx health center

Building Tech

Buckling restrained braced frame debuts in the Northeast, at Bronx health center

Faced with building a mid-rise structure on a site with poor soil conditions, a structural engineering team turns to a West Coast favorite—BRBF technology—for a steadying influence.


By David Barista, Editorial Director | March 1, 2016
Buckling restrained braced frame debuts in the Northeast at Bronx health center

Rendering and photos courtesy STV

The buckling restrained braced frame system was introduced to  the U.S. construction market in 1999 as a solution for meeting hardened building codes following the 1994 Northridge earthquake. Since then, BRBF has been used to stabilize hundreds of buildings along the West Coast, especially in earthquake-prone California.

As seismic codes play a larger role in building projects east of the Sierras, Building Teams across the country are turning to seismic design solutions like BRBF that were perfected in the West to meet increasingly stringent code requirements. 

The latest example is the five-story, 179,000-sf Adult Behavioral Health Center, recently completed as part of the Dormitory Authority of the State of New York’s rebuilding of the Bronx Psychiatric Center campus, on behalf of the New York State Office of Mental Health.

Unlike many large-scale New York City structures built on solid rock foundations, the 156-bed Bronx healthcare facility is situated on wetlands that had been filled in with four million cubic yards of material generated from the construction of the Cross Bronx Expressway from 1948 to 1972. The poor soil conditions resulted in a Site Class F categorization and a Seismic Design Category D for the site. It called for an expanded geotechnical investigation and assessment, as well as seismic mitigation measures that were recently implemented under the New York State Building Code.

 

Situated on wetlands, the five-story, 179,000-sf Adult Behavioral Health Center in the Bronx, N.Y., required special seismic mitigation measures. Buckling restrained braces were the most economical, efficient solution.

 

The structural design team, led by STV, first considered a traditional concentric braced frame lateral system. The solution met seismic requirements, but posed space-planning concerns for the client. Its relatively sizable structural elements and supporting walls would have bumped up against the health center’s programmatic requirements for rooms and circulation and would have jeopardized the architect’s open, airy indoor design scheme.

The final design approach, developed in conjunction with engineers in STV’s Los Angeles office, called for a BRBF system—a first for the Northeast—to enhance the structural performance of the building and greatly reduce steel frame member sizes. It also minimized the number of supporting walls needed for the project, and saved approximately $500,000 in material costs, according to Chris Cerino, PE, SECB, VP and Director of Structural Engineering, Building & Facilities Division, with STV. The firm also served as the design architect and electrical, civil, geotechnical, and telecom engineer on the project.

With the BRBF approach, certain braced frame steel columns could be downsized from W14x426 to W14x342, and select braced frame steel beams were reduced from W36x150 to W24x68.

“Smaller frame members gave STV designers flexibility in considering the movement of staff, residents, and food and building services,” says Cerino. “It also improved sightlines in all staff and resident areas to reduce the dependency on electronic monitoring.”

Buckling restrained braces (BRBs) vary slightly based on the manufacturer, but all BRBs include five basic components: a steel-plate core shaped like a kayak paddle (1) is placed within a hollow steel tube (2) that is coated with a low-friction material (3), which is then grouted in place (4) and capped (5). The grouted steel tube design prevents the steel core from buckling when in compression, while the coating prevents axial load from being transferred to the encasement.

The result is a “full, balanced response in relation to the forces being applied,” says Cerino. “Because the steel core is restrained, it develops nearly uniform axial strains across the section, resulting in efficient energy dissipation.”

This balanced energy dissipation, in turn, permits design teams to use much smaller beam sizes than with a standard braced frame.

On the Adult Behavioral Health Center project, Cerino’s team specified a proprietary system manufactured by Star Seismic. According to Cerino, Star’s Wildcat BRB system, which features single-pin connections, reduced erection time because it eliminated the need for stiffener plates. “Its patented collar reduces welding, since simple fillets can be used,” says Cerino. “That factored into the overall monetary savings.”

Cerino offers a few tips for Building Teams evaluating BRBFs:

  • Watch out for the added special seismic requirements and details that become triggered when using a high-performance seismic system. “Not that a BRBF has different triggers than a special concentrically braced frame system, but since much of the design is deferred to the specialty brace contractor, some of the details can become out of sight, out of mind,” he says.
  • Decide on the system early so you can address any client/procurement obstacles. “If it becomes too late, it can simply be easier to do nothing,” says Cerino. “That doesn’t help the project.”

 

Buckling restrained braces include several basic components: a steel-plate core is placed within a hollow steel tube that is coated with a low-friction material and then grouted in place and capped. The grouted steel tube design prevents the steel core from buckling when in compression, while the coating prevents axial load from being transferred to the encasement.

Related Stories

Multifamily Housing | Feb 3, 2023

HUD unveils report to help multifamily housing developers overcome barriers to offsite construction

The U.S. Department of Housing and Urban Development, in partnership with the National Institute of Building Sciences and MOD X, has released the Offsite Construction for Housing: Research Roadmap, a strategic report that presents the key knowledge gaps and research needs to overcome the barriers and challenges to offsite construction.

Healthcare Facilities | Jan 31, 2023

How to solve humidity issues in hospitals and healthcare facilities

Humidity control is one of the top mechanical issues healthcare clients face. SSR's Lee Nordholm, PE, LEED AP, offers tips for handling humidity issues in hospitals and healthcare facilities.

AEC Tech | Jan 27, 2023

Key takeaways from Autodesk University 2022

Autodesk laid out its long-term vision to drive digital collaboration through cloud-based solutions and emphasized the importance of connecting people, processes and data.

Mass Timber | Jan 27, 2023

How to set up your next mass timber construction project for success

XL Construction co-founder Dave Beck shares important preconstruction steps for designing and building mass timber buildings.

AEC Tech Innovation | Jan 24, 2023

ConTech investment weathered last year’s shaky economy

Investment in construction technology (ConTech) hit $5.38 billion last year (less than a 1% falloff compared to 2021) from 228 deals, according to CEMEX Ventures’ estimates. The firm announced its top 50 construction technology startups of 2023.

Concrete | Jan 24, 2023

Researchers investigate ancient Roman concrete to make durable, lower carbon mortar

Researchers have turned to an ancient Roman concrete recipe to develop more durable concrete that lasts for centuries and can potentially reduce the carbon impact of the built environment.

AEC Tech | Jan 19, 2023

Data-informed design, with Josh Fritz of LEO A DALY

Joshua Fritz, Leo A Daly's first Data Scientist, discusses how information analysis can improve building project outcomes. 

AEC Tech Innovation | Jan 14, 2023

CES recognizes a Dutch firm’s wearable technology for construction management

The firm’s TokenMe product offers construction managers a real-time crowd- and asset-tracking solution via low-power, location-aware radio and RFID tags and multiple sensors through which data are processed with cloud-based artificial intelligence.

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.

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



3D Printing

3D-printed construction milestones take shape in Tennessee and Texas

Two notable 3D-printed projects mark milestones in the new construction technique of “printing” structures with specialized concrete. In Athens, Tennessee, Walmart hired Alquist 3D to build a 20-foot-high store expansion, one of the largest freestanding 3D-printed commercial concrete structures in the U.S. In Marfa, Texas, the world’s first 3D-printed hotel is under construction at an existing hotel and campground site.


Brick and Masonry

A journey through masonry reclad litigation

This blog post by Walter P Moore's Mallory Buckley, RRO, PE, BECxP + CxA+BE, and Bob Hancock, MBA, JD, of Munsch Hardt Kopf & Harr PC, explains the importance of documentation, correspondence between parties, and supporting the claims for a Plaintiff-party, while facilitating continuous use of the facility, on construction litigation projects.

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