- Sosrobahu
Sosrobahu is a
construction which allows long stretches of flyovers to be constructed above existing main roads with a minimum of disruption totraffic . The technique was designed byTjokorda Raka Sukawati and involves the construction of the horizontal supports for the highway beside the existing road, which are then lifted and turned 90 degrees before being placed on top of the vertical supports to form the flyover pylons.This technique is of considerable value in increasing road mileage in large cities where there is restricted space for new roads and where the closure of existing roads for the length of time to build a flyover using normal construction techniques would impose significant
economic costs.Background
By the 1980s,
Jakarta was experiencing increasedtraffic congestion , and flyovers were seen as one solution to the improving transport infrastructure. One construction company operating at that time was PT Hutama Karya, which was granted a contract to build a highway above bypass A Yani, an extremely important stretch ofhighway where it was vital that the road would continue to be open to traffic throughout the period of construction.In addition to this challenge, PT Hutama Karya were also granted a
contract to build a flyover betweenCawang andTanjung Priok in 1987. The most difficult issue was the requirement to support the road with a row of concrete pylons (pier shafts) 30 m apart, on top of which would sit the 22 m wide road supports. The vertical pier shafts were to be sextagonal in shape with a diameter of 4 m, and were to sit in the central lane of the existing road. The erection of the pier shafts was not difficult; what caused problems were the pouredconcrete pier heads. With conventional construction techniques, the pier heads would be moved into place with the help ofiron supports beneath the outspread pier heads, but the use of iron supports would necessitate the closure of the road below. Another option was to support the pier heads from above, but this increased the costs of the project.In response to these problems, Sukawati had the idea of initially erecting the concrete pier shafts and then building the poured concrete pier heads in the centre lane, parallel to the existing roadway, and then raising and turning the pier heads 90 degrees into place. The only problem with this idea was that the pier heads weigh approximately 480 tonnes each.
Inspiration from a hydraulic car-jack
One day Tjokorda was working on his 1974
Mercedes-Benz , which he had jacked up so that the back twowheels were supported on the slippery floor of the garage where some oil had been accidentally spilled. When the car was pushed, it pivoted with the jack as the axis. He noted that it is aprinciple ofphysics that whenfriction is banished it is easy to move even the heaviest of objects.This event inspired the realization that a
hydraulic pump could be used to lift heavy objects and, as long as they were supported by something slippery, the heavy objects could be easily moved. Tjokorda's goal was to lift and move concrete pier heads each weighing 480 tonnes.Tjokorda conducted trials with cylinders 20 cm in diameter converted into a hydraulic lift and loaded with 80 tonnes of concrete. The weight was successfully lifted and turned slightly, but could not then be lowered as the position of the hydraulic jack had shifted. Tjokorda then made some improvements on the original
design , and in subsequent lifts the hydraulic jack stayed stable even with the full weight of the concrete above it.Other problems to be overcome included establishing the best type of
oil to use that wouldn't lose itsviscosity . The type of oil was a critical factor because it was the oil which transmitted theforce required to lift the heavy concrete pier heads.After the trials, Tjokorda finalised his design called the LBPH (the Indonesian acronym for Free Moving Platform) which consisted of a two concrete discs with a diameter of 80 cm enclosed in a container. Although only 5 cm thick, the discs are capable of supporting a weight of 625 tonnes each.
Between the two plates is pumped
lubricating oil. Arubber seal around the edges of the plates protected against the oil escaping under the high forces experienced during the lift. The oil in the container was connected to a hydraulic pump through a small pipe. This hydraulic system was capable of lifting loads using a pressure of 78 kgf/cm² (7.6 MPa, although the reasons for this were a mystery to Tjokorda at that time.Field trials
The new technique had not yet been trialled because of time constraints, however Tjokorda was certain that it would work and was willing to bear the responsibility should the concrete pier heads not be able to be turned 90 degrees as required for the construction of the flyover.
On the
27 July 1988 at 22:00 Jakarta time, the hydraulic pump was pressurized to 78 kgf/cm² (7.6 MPa). The pier head, despite lack of iron supports, was lifted and placed on top of the pier shaft and then with a light push was turned 90 degrees into its final position. The oil was then slowly pumped out and the pier head was lowered onto the shaft. The LPBH system was then shut down as it required heavy machinery to move it. Because he was worried that the single pier shaft and head might shift for a lack of support, he propped them up with eight concrete supports, 3.6 m in diameter. The LPBH was then used to raise the other pier heads over their respective shafts.Naming the technique and the granting of a patent
In November 1989, President Soeharto of
Indonesia gave the name Sosrobahu to the new technology. The name was taken from a character in theMahabharata , and derives from Old Javanese for thousand (sosro) shoulders (bahu).Tjokorda's
invention was used by US engineers in the construction of a bridge inSeattle . They placed the oil under a pressure of 78 kg/cm² (7.6 MPa) as per Tjokorda's original theories. Tjokorda himself wanted to investigate further the limits of his invention and built himself a laboratory where he successfully tested the LPBH to a limit of 78.05 kgf/cm² (7.654 MPa).Patents have been granted for the invention from Indonesia,Japan ,Malaysia , and thePhilippines , and has been applied for inSouth Korea . The Indonesian patent was granted in 1995, while the Japanese patient was granted in 1992. The technology has been exported to the Philippines, Malaysia,Thailand andSingapore . The longest stretch of overpass built using this technique is inMetro Manila ,Philippines at the Villamor/Bicutan link located at the southern part of the metropolis. In the Philippines, 298 supports have been erected, while inKuala Lumpur , the figure is 135. When the technology was introduced to the Philippines, the President of the Philippines,Fidel Ramos commented: "This is an Indonesian invention, but is also anASEAN invention".A second version of the technology has been developed. Whereas the first version used a steel anchor inserted in a concrete base, the second version uses a single plate with a hole in the middle which is not only simpler, but also significantly speeds up the time it takes to erect a pylon from 2 days to 45 minutes. It is expected that the lifespan of flyovers constructed using the Sosrobahu method will be approximately 100 years.
According to
Dr Draja Hoedajanto , an expert from theBandung Institute of Technology , Sosrobahu is a very simple solution to the problem of erecting flyover pylons and is suitable for use in the construction of elevated toll roads which have traffic running underneath them. Sosrobahu is clearly a useful and versatile technology.ources
[http://www.gatra.com/2004-08-13/majalah/beli.php?pil=23&id=43664 "Sosrobahu Bertumpu di Atas Piring"] ,
Gatra Magazine ,21 August 2004 ; in Indonesian, requests paymentExternal links
* [http://www.hutama-karya.com/script/prdsosrobahu.php About Sosrobahu] ; in Indonesian
* [http://www.skyscrapercity.com/showthread.php?t=122142&page=2&pp=20 Posting on the SkyscraperCity Forum with diagram] ; in Indonesian
* [http://www.pikiran-rakyat.com/cetak/2005/0305/10/cakrawala/profil.htm About Tjokorda Raka Sukawati and Sosrobahu] ; in Indonesian
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