The Thomas Jefferson School of Law in San Diego, California is currently building a brand new $68.25 million downtown campus featuring a 177,000-square-foot school, a two-level library with surrounding balconies; a three-level underground parking structure; and ground-floor space for a law clinic, cafeteria, bookstore and retail store. Albina Pipe Bending Co., Inc. bent the recently installed 60’
curving stainless steel staircase that will start in the lobby and connect the second and third floors of the campus.
The architect, S2 Architecture, was so happy with the quality of the
stringers bent for the staircase that they changed the finish requirement on the project. Originally, the stringers were going to be skinned (covered) in wood, but because they looked so good upon receipt, the architect decided to leave the
stringers exposed for all to see!
A total weight of 33,000# of TS 20” x 8” x .625” wall A500 GR B material was used to create:
· 3 inside stringers bent the easy way to a 10' 1 1/4" Plan View Radius. 6 1/4" in 12" Pitch to net approx. 20 ft of bent material (ALL AESS). All stringers turned Counter Clockwise Up.
· 3 outside stringers bent the easy way to a 16' 1 1/4" Plan View Radius. 4 1/8" in 12" Pitch to net approx. 28 ft of bent material (ALL AESS). All stringers turned Counter Clockwise Up.
· 1 additional inside stringer bent the easy way to a 10' 1 1/4" Plan View Radius. 6 1/4" in 12" Pitch to net approx. 24 ft of bent material (ALL AESS). All stringers turned Counter Clockwise Up.
· 1 additional outside stringer bent the easy way to a 16' 1 1/4" Plan View Radius. 4 1/8" in 12" Pitch to net approx. 34 ft of bent material (ALL AESS). All stringers turned Counter Clockwise Up.
The new Thomas Jefferson School of Law is being built to achieve LEED Silver Certification standards from the U.S. Green Building Council, which means it will have energy-efficient amenities and use materials made from recycled content, such as the carbon steel used to form the 60’
spiral staircase stringers bent by Albina Pipe Bending Co., Inc.