Slip forming

Slip forming, continuous poured, continuously formed, or slipform construction is a construction method in which concrete is poured into a continuously moving form.[1] Slip forming is used for tall structures (such as bridges, towers, buildings, and dams), as well as horizontal structures, such as roadways. Slipforming enables continuous, non-interrupted, cast-in-place "flawless" (i.e. no joints) concrete structures which have superior performance characteristics to piecewise construction using discrete form elements. Slip forming relies on the quick-setting properties of concrete, and requires a balance between quick-setting capacity and workability. Concrete needs to be workable enough to be placed into the form and consolidated (via vibration), yet quick-setting enough to emerge from the form with strength. This strength is needed because the freshly set concrete must not only permit the form to "slip" by the concrete without disturbing it, but also support the pressure of the new concrete as well as resist collapse caused by the vibration of the compaction machinery.

Slipforming of a 118m-tall grain silo in Zürich in 2015
Continuous slip formed gravity-based structure supports under construction in a Norwegian fjord. The visible jib cranes would each be delivering buckets of concrete to the support cylinders during the continuous pour of concrete creating seamless walls.
The first residental houses built with Slip forming, was erected 1950 in Västertorp, Sweden by AB Bygging
Recent picture of the Swedish residental houses in Västertorp

In vertical slip forming the concrete form may be surrounded by a platform on which workers stand, placing steel reinforcing rods into the concrete and ensuring a smooth pour.[2] Together, the concrete form and working platform are raised by means of hydraulic jacks.[3] Generally, the slipform rises at a rate which permits the concrete to harden by the time it emerges from the bottom of the form.[1]

In horizontal slip forming for pavement and traffic separation walls concrete is laid down, vibrated, worked, and settled in place while the form itself slowly moves ahead. This method was initially devised and utilized in Interstate Highway construction initiated by the Eisenhower administration during the 1950s.

Slipform Monobox System

History

The slip forming technique was in use by the early 20th century for building silos and grain elevators. James MacDonald, of MacDonald Engineering of Chicago was the pioneer in utilizing slip form concrete for construction. His concept of placing circular bins in clusters was patented, with photographs and illustrations, contained in a 1907 book, “The Design Of Walls, Bins, And Grain Elevators”.[4]

In 1910, MacDonald published a paper “Moving Forms for Reinforced Concrete Storage Bins,” [5] describing the use of molds for moving forms, using jacks and concrete to form a continuous structure without joints or seams. This paper details the concept and procedure for creating slip form concrete structures. On May 24, 1917, a patent was issued to James MacDonald of Chicago, "for a device to move and elevate a concrete form in a vertical plane".[6]

Silos

James MacDonald’s bin and silo design was utilized around the world into the late 1970s by MacDonald Engineering. In the 1947-1950 period, MacDonald Engineering constructed over 40 concrete towers using the slip-form method for AT&T Long Lines[7] up to 58 m (190 ft) tall for microwave relay stations across the United States.

AT&T Long Lines relay tower in Indiana constructed with the slip-form method.

The former Landmark Hotel & Casino in Las Vegas was constructed in 1961 by MacDonald Engineering as a subcontractor, utilizing Macdonald’s concept of slip form concrete construction to build the 31 story reinforced steel tower.[8]

Residental and commercial building

The technique was introduced to residential and commercial buildings already in the 1950s in Sweden. The Swedish company Bygging developed in 1944 the first hydraulic hijacks to lift the forms, which got patented. The first houses was built in Västertorp, Sweden, and Bygging became pioneers around the world with slip forming technique, from 1980 with the name Bygging-Uddemann. [9]

Residental and commercial building also was introduced in the late 1960s in USA.[2] One of Its first uses in high-rise buildings in the United States was on the shear wall supported apartment building at Turk & Eddy Streets in San Francisco, CA, in 1962, built by the San Francisco office of Macdonald Engineering. The first notable use of the method in a residential/retail business was the Skylon Tower in Niagara Falls, Ontario, which was completed in 1965. Another unusual structure was the tapered buttress structures for the Sheraton Waikiki Hotel in Honolulu, Hawaii, in 1969. Another shear wall supported structure was the Casa Del Mar Condominium on Key Biscayne, Miami, FL in 1970.

From the 1950s, the vertical technique was adapted to mining head frames, ventilation structures, below grade shaft lining, and coal train loading silos; theme and communication tower construction; high rise office building cores; shear wall supported apartment buildings; tapered stacks and hydro intake structures, etc. It is used for structures which would otherwise not be possible, such as the separate legs of the Troll A deep sea oil drilling platform which stands on the sea floor in water about 300 m (980 ft) deep, has an overall height of 472 m (1,549 ft) weighs 595,000 t (93,700,000 st), and has the distinction of being the tallest structure ever moved (towed) by mankind.

In addition to the typical silos and shear walls and cores in buildings, the system is used for lining underground shafts and surge tanks in hydroelectric generating facilities. The technique was utilized to build the Inco Superstack in Sudbury, Ontario, and the CN Tower in Toronto. In 2010, the technique was used to build the core of the supertall Shard London Bridge tower in London, England.

gollark: Apparently Discord's going to add a games store - because a more fractured platform is exactly what we need.
gollark: Apparently Discord's going to add a games store - because a more fractured platform is exactly what we need.
gollark: <@137959364320296961> Very late response: I'd prefer the genetics for visible stuff (color etc) shown at the start, and other stuff shown either when the creature does something related to the stat in question or when tested.
gollark: Just made Anrak.
gollark: 18.5% of Notelians to lost in wilderness and a few to gecko attacks.

References

  1. Nawy, Concrete Construction Engineering Handbook, 2008, p. 10—33.
  2. "'Slip Forming' Technique Introduced in Baltimore." Washington Post. May 1, 1971.
  3. Nawy, Concrete Construction Engineering Handbook, 2008, p. 10—34.
  4. “The Design Of Walls, Bins, And Grain Elevators”. By Milo Smith Ketchum, The Engineering News Publishing Co.,1907, page 294.
  5. James MacDonald - “Moving Forms for Reinforced Concrete Storage Bins.” Proceedings of the Seventh Annual Convention Held at N.Y., N.Y. Volume 7, By National Association of Cement Users (U.S.). December 12–20, 1910. page 554.
  6. Official gazette of the United States Patent Office, By United States. Patent Office Volume CCXXXVII. April 24, 1917, page 943.
  7. The Concrete Microwave Towers of AT&T's First Transcontinental Radio Route>
  8. Construction of tower for the LandMark Hotel/Casino, Las Vegas
  9. Glidformsgjutning av betonghus, av civilingenjör Sven-Erik Svensson, Bygging AB, Stockholm
Construction of 2 coal silos via slip forming

Bibliography

  • Nawy, Edward G. Concrete Construction Engineering Handbook. New York: CRC Press, 2008.
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