After all the photos I took, I've tried to arrange them in some order based on various topics I found interesting.
And a reminder from T.S. Eliot (East Coker from the Four Quartets)
Old men ought to be explorers Here and there does not matter We must be still and still moving Into another intensity For a further union, a deeper communion
[July 3, 2005] Yesterday I watched the first stage of Le Tour de France and remembered that a year ago I watched the French cable-masters from Freyssinet construct a cable bundle. A lot has happened in the past year and not only has SCDOT and Freyssinet opened their doors for me, but PBC (and their parents, Tidewater Skanska and Flatiron) have gone out of their way to bring me into their family. A big thanks to Wade, Peo, Marvin, Brian, David, Olivier and Murray.
It was foggy when we arrived - watching the placement of a concrete platform segment. A bit surreal, not knowing where I was going or what I would see - just another trip through a foggy day (this day the fog was real - not virtual). This left photo is through the wire mesh of the elevator - just adding to the surreal nature of my adventure.
still foggy (left) but later, the weather was perfect (right)
From the top of the west tower (west, left; east, right)
Two types of anchorage bases: reinforced concrete (left) and V brace (right)
The story of preparing the cable array - from start to finish
A view of the stay-cable pipes (left) and a cable assembly area in the background
This is where it all starts - what I call the cable assembly platform. Here you see the guys, the cable sheath, a blue wheel that guides the cables from the cable spools (to the right, see below) into the sheath. A more detailed display of post-tensioning of cables using the wedge assembly is available at the NIH Engineering Services (Unfortunately NIH has removed the construction photos from their engineering web pages). These give a detailed view of the cable, inserted wedge (left) and haudralic pump (right).
Additional insights are gained from studying actual cables. Post tensioning cables from the Midbay bridge (pdf)
These guys do all the work of preparing the cable ends and feeding them up the sheath.
The sequence of cable insertion is specified by the diagram on the left. Random insertion would lead to cable crossins within the housing - but by following the sequence at each end, the cables follow a parallel path from platform to tower.
On the left you see two cables with their ends trimmed ready to be inserted into the cable housing (right) and pulled to the tower.
Cable being fed from spools
When the cable is secured at the tower end, it is then cut and prepared for connection to the platform anchorage
Cutting the cable is the first step for preparing the cable ends prior to insertion into the cable housing (below)
The prepared end is fed into the base of the cable housing: Cables were being prepared for both the south (left) and north (right) anchors.
Here is one of the Freyssinet guys terminating a strand (left) and Cyril, working in his nest near the top of the pylon
Since today is July 21, the Tour de France is almost over - and what a surprise it is. Perhaps from his vantage point, he is able to enjoy the Tour de France and visualize the fantastic rides of his countrymen: Thomas Voeckler (left, riding for BRIOCHES LA BOULANGERE) who held the yellow jersey for 10 days (starting with his unbelievable ride during the stage 5 break away moving from 59th to 1st) and Richard Virenque (right, riding for QUICK STEP) who is king of the mountain once again. (July 3, 2005: In the 2nd stage, Voeckler took the first king-of-the-mountain jersey with a surprise attack near the end of the 2nd stage.)
Then there is rain. When rain falls on the cable sheaths, it will roll over the sides, collect on the bottom and when there is enough mass to overcome surface tension, a drop will fall. I see this as sort of like plucking a violin string and with enough rain and enough synchrony of plucking, harmonic motion may be induced into the cable. The spiral groove seen on the right, as I understand it, is to disrupt the synchrony of departing rain drops and reduce the likelihood of induced harmonic motion. For more insights, read about vibrations in bridge cables or visit Sympathetic vibratory physics: It's a musical universe. To appreciate the reality of resonance and vibration responses induced by external forces, here is a clip of the wind-induced vibration of the Tacoma Narrows Bridge (1940)
Inside there is another story. First, you have to get inside. Here is a view of the elevator shaft inside the tower.
And here is an array of cable ends with wedges in place. Each cable passed through the anchorage has a wedge placed on the strand to hold it in place. In this photo, the cables have already received their final tensioning. (East side).
On the west side, the cable array (39 cables) is being subjected to the initial 20 - 30% of the final tension using hydaulic jack. A small conical shaped steel wedge is slipped around the cable and pressed into the pressure plate at the bottom of the array. The hydraulic jack then draws the cable through the pressure plate about 3 inches / cycle.
Inside the tower, wedges are again attached to the cables and then the proper tension (measured by the computer on the right) is produced by a hydraulic jack (left).
Dropping the crossbeam in place between the anchorage extensions
Placing a cross beam - (before, left; after, right)
Splicing the anchorage extension (left) and bolting the crossbeam (right)
Attaching and splicing the beams is an interesting process. First a drift pin is inserted in a few key holes to align the beams. Shown here is the initial bolt tightening (left) and applying the final torque (right). Click the image for a quicktime video (15 Mb - be patient).
|Click for video of initial bolt tightening||Click for video of final torque|
Bolts are then inserted and torqued to a final value and then lines painted on the top of each bold and on the beam to identify the position of each bolt.
While the platform work is progressing, the approach piers continue to grow. Here is shown the cap, joining the two columns to form a pier. A second rebar cap will be placed on the right and then surrounded with forms for creating the appropriate shape.
The pier before cap placement (left) and during (right)
and after placement
Finally, the lonely crane operator (left) and a ride down (right)
Our team on the way out (left) and on the way back (right)
And a friendly reminder - this is a no parking zone
This work is licensed under a Creative Commons License.
C. Frank Starmer