We have had many problems with the pile installation on this project. After several hundred piles we have a procedure that works, I am very reluctant to change what we have spent million of dollars to find out the hard way, works. I started managing this project about a year and a half ago just when the previous guy bailed out, and that was just when things started to get difficult.
Design started about 8 years ago. Back then they never let our firm get access to drill any borings for the long expanse of the rail areas. So we got stuck with some borings at the river, then some about 700 feet away near the abutment. Total length is slightly short of 2,000 feet. To this day I still do not have any borings in this last area we are now working on.
We looked at many types of foundation options but do to many structural requirements we got stuck with driving 24 inch diameter CISS piles into a boldery riverbed. Micropiles won't give us the lateral values the structural needs. The other problem is the structural can't now change the stiffness response of the footing because most of the rest of the bridge is already being constructed. To change types would not work with his modal response and plastic hinging requirements. We had originally wanted to use CIDH during primary design, but the structural needed the CISS in the end to do the job. Earthquake loads are by far the primary drivers of the loading conditions.
We have already constructed 85 percent of the foundations, but now its the last 15 percent we can't get over. The rail yard has cost 2 years already on the construction schedule, and the project is already running at 50 percent of the bid in change orders. And thats before we even drive a singe foundation pile to start with in the rail yard.
There are too many underground utilities in the rail yard to clear the bents. So we are already having to redesign for about the 10th time the foundations in the yard. We are now having to construct an ecentrically loaded footing. The piles on one side are directly under the pier wall, and then we have to turn the pile cap into a large outrigger to get to the other row of piles used to resist the overturning. Whenever we are short of capacity of the piles then we have been driving extra H piles in between the CISS piles to get a little extra capacity. To date the majority of the problem has been with tension values, but with these ecentric footings we will also have to deal with large compression loads. If I overdrive the CISS piles then I will hit a layer of siltstone about 70 feet down, that won't have nearly the end bearing that I can get in the bouldery gravel layer about 50 feet down. If we drive the piles to short we don't get tension, if i am to long we won't get end bearing and therefore not enough compression, I have a hot rail one one side, and a buried 34 kv traction power duct about 5 feet on the other side of the pile cap. So you can see that I am pined in a very small area with vary narrow windows of what can be done. The rail road made us relocate the pile cap so it would not encroach over the top of the vault for the 34 kv, this is why we now have an ecentric footing. And we can't move the pier wall because it then wouldn't line up with the existing portion of the bridge.
I already asked to skip the bent in question, but it won't work because we have a similar problem at the bent next to it, and we would have to move track, relocate train control ducts, and more hot rail, if I had to double the span, in order to get the footing loads down to something I could accommodate. It is alread difficult enough for that bent.
This project may send me to the funny farm in the end.
Any ideas please. I have already had about 6 geotech Phd's advising me on this project but sometimes they are't as good as all of your collective wisdom and experience. The Contractor has been around for decades and he has built literally thousand of bridges, and he said he hasn't come across one that was this difficult yet.
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