Get the New FHWA Drilled Shaft Manual
Get the NCHRP Synthesis 418 – Pile Criteria From Test Pile Data
Dan’s Speaking Schedule September 12-13, 2012: Concrete used in Drilled Shaft Construction - ADSC/DFI Drilled Shaft Seminar - Denver, Colorado Other DBA Team Speaking Appearances D. Mike Holloway (May 17, 2012): A Driven Pile is a Tested Pile - Not So Fast - DFI SuperPile - Portland, Oregon
John Turner (September 12-13, 2012): Analysis & Design of Drilled Shafts - ADSC/DFI Drilled Shaft Seminar - Denver, Colorado
John Turner (September 12-13, 2012): Techniques for Drilled Shaft Construction - ADSC/DFI Drilled Shaft Seminar - Denver, Colorado Conferences, Meetings, Seminars, Workshops
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By Robert Thompson, on May 10th, 2010
Our support of Kiewit Engineering and two Kiewit joint ventures working on the flood control projects around New Orleans has completed. I posted on the support work we provided for the Gulf Intracoastal Waterway – West Closure Project here. The JV for that project is Gulf Intracoastal Constructors (GIC), a joint venture of Kiewit and Traylor Brothers.
Another project we worked on is the Chalmette Levee Loop Improvements LPV-145 project. The joint venture for this project is Chalmette Levee Constructors (CLC), a joint venture of Kiewit, Massman, and Traylor Brothers. Some information about the project can be found at Traylor Brothers website here. This project consists of building over 5 miles of T-wall on the levee. A test pile program with piles at 4 tests sites was completed, including static and dynamic tests on H-piles and open-ended pipe piles. Dynamic, static compression, and static tension tests were performed at 3 of the 4 sites. One site had only dynamic tests during driving. Our newest staff engineer, Aaron Hudson begin_of_the_skype_highlighting end_of_the_skype_highlighting, started his tenure at DBA by heading to New Orleans to help me with our work on this project.
During the test pile program, the project location was accessible only by boat. A temporary bridge has been constructed over Bayou Bienvenue to provide better access. The bridge is a pre-engineered bridge kit similar to the Bailey Bridge sets used by the U.S. Army starting in WWII, and still in use today by the Army and the private sector all over the world. I had some experience as an Army Engineer officer planning and executing the assembly and launch of Bailey Bridges. In the Army labor is plentiful, so there are not near as many cranes and other equipment available when assembling a bridge kit as there are on a modern construction site. Compare this photo from a training exercise near Fort Polk, Louisiana in 1989 (from my Army days) with one in our show below and at the website of the current Bailey Bridge manufacturer.
I have posted some photos from our visits there to our Picassa Albums (linked below). There are pictures of the test piles and the temporary bridge. Also included are some photos I took of the Inner Harbor Navigation Canal Barrier project. This project is amazing with 66-inch diameter cylinder piles and 18” pre-stressed concrete piles making up the bulk of the structure. Project photos at the Corps of Engineers site are here.
Update 7/25/10: Webcams of the West Closure Project are here. The Corps’ Team New Orleans has a Flickr page here with lots of great photos.
By Robert Thompson, on October 30th, 2009
Who says we only work on drilled shafts?? Robert had the opportunity to work for Kiewit Engineering Company providing geotechnical engineering support to Gulf Intracoastal Constructors (GIC), a joint venture of Kiewit and Traylor Brothers on the Gulf Intracoastal Waterway West Closure Project near Belle Chase, Louisiana. The project is part of the overall flood protection system improvements that are supposed to protect New Orleans from future hurricanes. The key components of this particular project are a massive gate and pump station across the Gulf Intracoastal Waterway. Go For more information on the project, go here, here, and here (video from Corps of Engineers).
Robert spent a good part of the summer in New Orleans doing a variety of geotechnical engineering tasks to support the construction efforts of GIC. The main thing he worked on was the test pile program. The project included a massive test pile program with 24 test piles spread among 5 test sites with various combinations of dynamic, static axial, static tension, and static lateral tests. The piles were mostly open-ended steel pipe piles varying from 18” to 54” in diameter. A few 18” x 18” pre-stressed precast concrete piles were also thrown in for good measure. In addition to performing drivability studies and evaluating tests data, Robert got to spend some time in the wonderful June and July weather in southern Louisiana on the site observing pile installation and testing. And as always, he came back with a lot of pictures. Here are a few to enjoy.
By Robert Thompson, on August 17th, 2009
Robert’s paper with Lloyd Held (retired from Eustis Engineering) and Steve Saye of Kiewit Engineering Company on the Biloxi Bay Bridge test pile program has been published in the latest issue of the DFI Journal, published by the Deep Foundations Institute. A total of 22 indicator piles were installed on the project using the pile driving analyzer to monitor the pile behavior. Five load tests were performed: two axial Statnamic, two lateral Statnamic, and one static axial. The results of the test pile program established driving criteria for production piles that included end of drive blow counts and pile tip elevations with an appropriate allowance for setup.
Click on the image below or go to our Publications page.
The bridge was recently featured on the cover of Civil Engineering Magazine along with a feature article by Pat Cassity, P.E., S.E. of Parsons Transportation Group. Source: ASCE
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