Checkmann
Structural
- Mar 20, 2020
- 10
Hi everyone,
I have been doing a lot of research but cannot find a solid answer on how to account for P-Delta effects properly in ETABS (big P-Delta, let’s ignore little P-delta in this post). I know there is also a method to add a load case specifically for P-Delta, but I want to look at the Preset P-Delta Options in ETABS, as seen in the attachment.
There are 3 methods:
1) None
2) Non-iterative – Base on Mass
3) Iterative – Based on Loads
I would like to know when you use each of these methods. Method 1 is to simply ignore P-Delta effects in the model. As far as I understand if you do this you have to check Equation 12.8-16 of ASCE 7. If your Theta is under 0.10 then you can totally ignore P-Delta. But if it is greater than 0.10 then you have to increase your member forces and deflections by a factor of 1/(1-Theta). This is always an option.
But if you know you already will have to consider P-delta - say for a flexible moment frame building - it seems easier to let the software do the calcs and adjust the forces automatically. So that gets me to which method do I use, iterative or non-iterative? I have seen posts suggesting both ways, and the CSI wiki is really confusing.
It says that “when gravity load is specified, we recommend using Iterative.” But what does that mean? When is gravity load not specified? When is it appropriate to use non-iterative based on mass procedure?
So then if we assume I should use Iterative based on loads approach what loads do I add and which factors do I apply? The CSI Wiki link above seems to suggest that I add Dead and Live loads with the factors they are assigned using the lateral load analysis combinations. For example, if I have 1.32D + L + EQ then I would add 1.32 to the DL and 1.0 to the LL for P-Delta. But I have read other publications that suggest using 1.2 for DL and 1.6 for LL. Does anyone have any clarity on this?
Thanks for your help!
I have been doing a lot of research but cannot find a solid answer on how to account for P-Delta effects properly in ETABS (big P-Delta, let’s ignore little P-delta in this post). I know there is also a method to add a load case specifically for P-Delta, but I want to look at the Preset P-Delta Options in ETABS, as seen in the attachment.
There are 3 methods:
1) None
2) Non-iterative – Base on Mass
3) Iterative – Based on Loads
I would like to know when you use each of these methods. Method 1 is to simply ignore P-Delta effects in the model. As far as I understand if you do this you have to check Equation 12.8-16 of ASCE 7. If your Theta is under 0.10 then you can totally ignore P-Delta. But if it is greater than 0.10 then you have to increase your member forces and deflections by a factor of 1/(1-Theta). This is always an option.
But if you know you already will have to consider P-delta - say for a flexible moment frame building - it seems easier to let the software do the calcs and adjust the forces automatically. So that gets me to which method do I use, iterative or non-iterative? I have seen posts suggesting both ways, and the CSI wiki is really confusing.
It says that “when gravity load is specified, we recommend using Iterative.” But what does that mean? When is gravity load not specified? When is it appropriate to use non-iterative based on mass procedure?
So then if we assume I should use Iterative based on loads approach what loads do I add and which factors do I apply? The CSI Wiki link above seems to suggest that I add Dead and Live loads with the factors they are assigned using the lateral load analysis combinations. For example, if I have 1.32D + L + EQ then I would add 1.32 to the DL and 1.0 to the LL for P-Delta. But I have read other publications that suggest using 1.2 for DL and 1.6 for LL. Does anyone have any clarity on this?
Thanks for your help!