Hi,
I tried two models with different Panel Calculation Model: one with Partial stiffening, and the other Without stiffening. I got two different diagrams for Mx, the former with uniform diagram and the latter with uniform varying diagram. Please find the attached pictures. I wonder why?
You have used
in model 1
shell model for slab which gives expected "quasi linear" moment distribution. Moment changes "lineary" because it is transferred by several nodes along beam length
and
in model 2
Rigid diaphragm for slab which do not transfer torsion moment to side beams . In second model moment is transferred to side beam only by beam 18 (middle beam so between endnos and middlenode torsion moment value is constant.)
Results are as expected.
Remark
You have used fully rigid slab calculation model in your model (not partial stiffening).
I am aftraid I do not understand your question. Please explain your expectations with more details.
Different slab calculation models gives different load disribution and different results. Results for slab FE model will be not the same as for slab simulated by fully rigid diaphragm.
Giving user possibility to choose method (calculation model) corresponding to his expectations is the main purpose for their various calculation model in the software. You should choose the model which corresponds to your needs.
You cannot expect the same results for those two (FE and Fully rigid) slab models. Torsion moment in the beam is the effect of bending in slab simulated by FE, while bending is neglected in fully rigid model.
I am sorry I have not noticed that.
Rigid diaphragm does not transfer torsionat all (I should have noticed that)
It does not change anything regarding Mx. When Finite Elements are not defined in the slab, torsion is transferred to beams 11 12 25 26 (in their middle points) only by beams 18 28
Slabs transfers only vertical forces to supporting beams.
I understand it in the following way (please correct me if I have missed your point)
Claddings and partial stiffening calculation model generates the same load distribution.
I have compared maximum mx value in beam 12 for caes DL1 Dl2 LL1 in both model.
For all cases difference is about 30 %. So differences are similar for all cases
When only distributed load on slab would be considered (neglected loads applied to beam elements) difference is 32 % regardless of applied load value
Selfweight is distributed for partial stiffening in the following way.
The load in the middle is duplicated.
distributed loads values
I cannot obtain values described in your email (for panel 17 beam 9 and case 2) using model shared previously.
Example Mx moment for beam 9 (2.66-2.48 instead of 3.97)
Could you please share model with those values displayed (and screenshots presenting what you are comparing)
Thanks. I forgot to state that I modified the model for simplicity. Please find the attached link.
I don't know where one can download Autodesk castscreen app?
I think that you should compare value from panel cut (9.49) with difference between moment Mx from both ends of beam 9 (3.97-(3.97))=7.94. Missing part (about 1.5) is transferred by other bars attached to nodes 2 and 4
Results matches better when slab is separated from beams 11 12 (no load transfer from slab to other bars attached to nodes 2 and 4), then
Mry =14.57 in slab
7.25- (-7.27) = 14.52 - Mx difference in 9 between nodes 2 and 4
Ad1 (Missing 1,5)
You have to check balance of nodal moments in all bars connected to beam 9 ends.
Ad 2 (separating panel from beams)
I have defined pabel width slightly smaller than beam 9 length.
