SidePlate

April 24, 2008

Innovative structures help hospitals cut costs
from www.djc.com
By DIHONG SHAO
ABKJ Consulting Civil and Structural Engineers

Innovation can provoke resistance. When a new structural idea is proposed for a building as complex as a modern health care facility, it must satisfy the interests of all the design team members involved, fulfilling their needs for a range of concerns such as schedule, appearance, cost impacts, functionality and constructability.

Teamwork is required to make an innovative idea into a reality. This was certainly the case when new seismic technologies and performance-based designs were introduced on several recent hospital projects.

From lab to job site

After the 1994 Northridge California earthquake, the steel industry was uncertain about how to handle steel moment frame connection design.

Rigorous limitations were imposed on what could be designed without project-specific testing. As a result, heavy steel columns weighing up to 730 pounds per foot were required for a new seven-story, 325,000-square-foot addition to the Sharp Memorial Hospital in San Diego.

After extensive engineering analyses and a thorough search of tested steel moment frame connections, engineers realized the column weight could be cut in half if a deeper column could qualify for the design. The emerging SidePlate proprietary moment framing connection had great potential if project-specific tests could be performed and qualified. The new design would also shave up to $1.8 million off the cost of the project.

The owner, contractor and architect agreed to carry out a testing program to qualify the connection. The design team worked with the Office of Statewide Health Planning and Development (the state agency in charge of all hospital design and construction in California) and successfully performed three full-scale tests in 2002 and 2003.

Sharp Memorial Hospital was the first facility to utilize this technology, and the tests enabled a design guideline to be developed that has been approved by OSHPD for all projects using this type of connection.

With the project near completion, the $1.8 million savings has been realized.

SidePlate in the Northwest

In 2004, ABKJ brought the SidePlate technology to this region for the new five-story, 200,000-square-foot Overlake Hospital South Tower in Bellevue. The building is designed for five additional floors, allowing the owner to double the floor space in the future.

The building was completed last summer and the technology saved $1 million in construction costs.

ABKJ is currently using SidePlate technology on the eight-story, 340,000-square-foot Patient Care Tower for the $400 million Good Samaritan Hospital expansion project in Puyallup. Past successes made it easier to bring the owner, contractor and architect on board with this technology.

Performance-based design, in addition to prescriptive code-based design, was used to plan the new tower.

More and more hospital insurance providers require performance-based design and demand specific building seismic performances under different levels of seismic intensity. This requirement helps ensure that anticipated building performance levels can be achieved to reduce structural and non-structural damage during an extreme seismic event, and that the facilities will be operational under more frequent but less intense seismic events.

Friction damper savings

In performance-based design, it is not uncommon for higher performance levels to result in higher costs. Innovative technologies can counteract this.

When ABKJ was hired to help retrofit the St. Joseph Medical Center Patient Tower in Tacoma, the design used state-of-the-art seismic damper technology, saving $1 million by eliminating the foundation work with conventional retrofit techniques.

The friction damper is a device installed in a regular building seismic brace. It slips when the seismic forces in the brace exceed a predetermined force. The damper acts like a breaking pad in an automobile, reducing the amount of lateral sway. When the friction damper device slips, the friction forces still resist the seismic forces.

The existing St. Joseph building was designed and constructed in the 1970s. The tall, slender columns between the top of the building podium and the base of the tower created a “soft story” where excessive lateral displacements would occur during moderate seismic activity.

After various engineering approaches and cost comparisons, the approach of using friction dampers was implemented. It took many sessions between the owner, construction manger, architect and contractor to agree on the friction damper design approach. The retrofit was carried out successfully and the project was completed in 2006.

The committed contractor, open-minded construction manager and supportive architect made this cost-saving idea a reality. It takes great teamwork to deliver the savings that make a project a success.

SidePlate is proud to be a part of these industry news-making projects: Sulpizio Family Cardiovascular Center at Univeristy of California, San Diego Medical Center and Fort Belvoir Hospital.

SidePlate Systems obtained its 5th patent – demonstrating once again its cutting-edge creativity in steel frame connection technology for multiple design applications and building types, and for both new and retrofit construction.

SidePlate® steel frame connection technology has been independently BLAST & PROGRESSIVE COLLAPSE TESTED!

The SidePlate® moment connection was selected for blast and progressive collapse testing, as part of a first-ever joint civilian agency/Department of Defense Steel Frame Blast and Progressive Collapse Test Program, to investigate the behavior of conventional steel frame construction and its beam-to-column connections when subjected to high-level bomb blast and subsequent progressive collapse conditions.

SidePlate® steel frame connection system outperformed the post-Northridge ‘traditional’ WUF-B connection by:

• 2- and 3-times the gravity load carrying capacity
• 2-times the rotational ductility
• 5-times the energy absorption

Progressive collapse test program results can be obtained by contacting the Interagency Security Council at http://www.oca.gsa.gov/mainpage.php.

SidePlate Systems, Inc has joined forces with Hardy Frames, Inc., makers of the Hardy Frame® Panel and Brace Frame, to introduce standardized Moment Frames for residential and light commercial buildings. The new Hardy Frame® Moment Frame is the only pre-approved, pre-engineered and pre-fabricated Moment Frame system available. Our product is a cost-effective, state-of-the-art, Special Moment Frame (SMF) for one and two story applications that allows buildings to be designed with larger openings and less wall area required for lateral load resistance while exceeding the most stringent building code requirements. Additionally, the Hardy Frame® Moment Frame uses a pinned-base connection resulting in reduced foundation requirements and costs. For immediate installation and to facilitate framing, these Frames arrive at the jobsite fully assembled with wood nailers attached to all column flanges and to the top & bottom of the header.

Unlike other moment connection types which must depend on the use of wide flange ‘H’ shapes for the connecting beam, the Hardy Frame® Moment Frame is uniquely configured with SidePlate’s patented use of HSS tube steel beams. Because of the torsional stiffness and strength of HSS sections, lateral buckling of the beam flanges is avoided. As a result, this minimizes, if not eliminates altogether, costly and troublesome lateral bracing typically required by code to satisfy SMF design requirements. Such requirements apply to all other moment connection types, including the RBS (dog bone) connection. For more information or to download a Hardy Frame® Moment Frame catalog, installation details, code reports or calculations, go to www.hardyframe.com. To speak with a representative please call Hardy Frames, Inc. at (800) 754-3030.