Slickdeals,
Are you asking about analysis or design. You have said analysis, but the questions would appear to be design ones!
Regarding Analysis, most specialist PT designers I know outside USA would not analyse a floor with beams in Finite Element software. Basically because you are assuming a one way system while the software is analysing the complete floor as it theoretically acts as a plate with some stiff elements, but you as a designer do not want to reinforce it that way. The other comment I keep getting from designers on this is that the torsional stiffness effects they get from such software in these cases is compeletely unreasonable and they seem to get some unexplainable results!
Make sure you turn on the switch in Ram Concept to include Mxy momnets in design (it is off by default so they care calculated in the analysis but ignored in design). This is especially important in irregular grids and with section changes!
Regarding Design.
Yes, there will be two way action, there always is in design incorporating beam and slab and band beam and slab. Elastically, that is how the moments will distribute, relative to the stiffnesses of the different areas of the floor. However, as a designer you are reinforcing it as a one way slab and beam/band system.
This is where definitions get blurred.
PTI/Alami/ACI318 allow you to design a two way (flat) slab assuming a moment applied on a full panel width with no thought to column/middle strips, as long as a consistent load path is supplied by the reinforcement/tendons eg banded/distributed tendons. This works for ultimate strength, as long as the loads are relatively low stresses, the loads are uniform and the concrete depth does not vary (no band beams, drop panels etc). Unfortunately, they also allow this logic for service design (crack control, and deflection). In these design areas it does not work, the same as yield line design only satisfies untilate conditions, not service limit states (this ACI flat slab method is actually yield line by subterfuge)!
Unfortunately, PTI and Aalami and some other USA "experts" use this ACI average moment logic for slabs with drop panels and band beams. There is it completely illogical.
Yes, there is some moment is the slab area parallel to the band beams. But no, you cannot therefore assume that the full width of the slab can be included as part of the beam and that any reinforceemnt/tendons in the slab area can be included in the Tshapes section capacity using a depth equal to the depth of the band beam. Similarly with Drop Panels, this assumption cannot be made in support areas (I know of many companies in Asia/India currently doing this but they are wrong!).
So after a long explanation above, the beam should be designed as a T section with limited flange width (no, it is not conservative, the reverse is the case, the USA method is unconservative and results in gross underdesign). Any reinforceemnt/tendons in the slab parallel to the bands should not be included in the bands. If you weant to go to the trouble, any moment in the slab (someone above suggested this might be 10% but it will depend ont he design) could be resisted y reinforcement in the slab based on the depth of the slab only, but then you must allow for the concentration of moment in the other direction near the support (like a column strip).
The bean beam must be designed for shear (any slab should also), but wide flat beams really do not nned to be limited to the normal beam shear minimum shear rules, the slab rules would apply (AS3600 and ACI cover this, BS8110 deos not and the Indoan code has followed BS code on this). I would normally have shear ties for the first couple of metres from the column face even if they are not needed then only if needed by calculation and also to support transverse reinfrocement and tendons.
Punching shear needs to be checked as the band is so wide that punching can occur.
