Hi, there. I want to ask a question regarding piled-raft modelling in PLAXIS 3D.
Currently, I am modelling the raft as a volume and the piles as embedded beam. As in the theory stated by Poulos (1994), the load-settlement curve of the piled-raft foundation generally should look like this.
But currently in my model, the model has collapsed even though it is still far-far away even from the ultimate load of the raft foundation. I found out after that the reason for the collapse is because the capacity of the embedded piles have all been mobilized. This causes me a real problem because it means that I can't be able to model the Curve A-B as specified in the picture I attached. It's as if the model behave like a slab on pile rather than a piled-raft.Can someone please provide me an alternative or solution regarding this problem? Appreciate it very much
Hello Edward,With an enquiry related to a specific project, we recommend you to submit a SR using the link here: https://apps.bentley.com/srmanager/ProductSupport
No. its not related to a specific project. It's just that currently I want to model the load-settlement curve of a piled-raft but the model stopped (collapse) when all of the piles capacity are fully utilized. I want to know how can I overcome this so that I can continue to run it even though the piles are at full capacity. Thank you!
If you do not want us to check the project, so, you need to understand why it fails first. General idea to check it is shown by our colleague here: https://communities.bentley.com/products/geotech-analysis/f/forum/243632/plaxis-3d-tunnel-modelling adjusting possible things after that.
Sorry, but the page no longer exists :(
communities.bentley.com/.../plaxis-3d-tunnel-modelling
Okay, Thanks!But I want to ask is there a way so that a model can still run even though all the embedded piles are at their full capacity?
No way to run the model if the model fully collapses due to bearing capacity because no convergence can be achieved between driving force and resistance. This is also a real physical behavior.