There is a discussion in our office regarding the best detail to use at the junction of an elevated slab with a CMU wall that would continue from below to levels above.
The elevated slab will be a joist supported 4" slab on 1.5" form deck. The wall is an 8" CMU shear and bearing wall.
One option is to stop the wall at the bottom of the slab, place the deck and slab, then build the wall up from the slab. There would need to be consideration of re-bar detailing at this junction to ensure proper shear transfer both from the slab and from the wall above. This has been compared to platform framing in residential construction.
The second option is to build to wall to a as tall as practical, then anchor a sill angle to the wall to support the slab perimeter and transfer shear then place the slab. If needed the slab can serve as a staging platform for any remaining wall construction. This might be considered analogous to balloon framing.
Each option has advantages and disadvantages
Op 1, Requires more coordination of trades and can interrupt the mason. It does allow easier placement and finishing of the slab.
Op 2, Provides a continuous wall with uninterrupted reinforcing.. It does not require the use of partial height blocks to match coursing with the exterior walls.
The NCMA TEK 5-7A Fig 12. shows the second option but does not appear to indicate whether it is preferred over the second.
Are there design details or case studies that make a case for one option over the other. What have been the experiences of the engineers and designers in this forum?
Thank you.
The elevated slab will be a joist supported 4" slab on 1.5" form deck. The wall is an 8" CMU shear and bearing wall.
One option is to stop the wall at the bottom of the slab, place the deck and slab, then build the wall up from the slab. There would need to be consideration of re-bar detailing at this junction to ensure proper shear transfer both from the slab and from the wall above. This has been compared to platform framing in residential construction.
The second option is to build to wall to a as tall as practical, then anchor a sill angle to the wall to support the slab perimeter and transfer shear then place the slab. If needed the slab can serve as a staging platform for any remaining wall construction. This might be considered analogous to balloon framing.
Each option has advantages and disadvantages
Op 1, Requires more coordination of trades and can interrupt the mason. It does allow easier placement and finishing of the slab.
Op 2, Provides a continuous wall with uninterrupted reinforcing.. It does not require the use of partial height blocks to match coursing with the exterior walls.
The NCMA TEK 5-7A Fig 12. shows the second option but does not appear to indicate whether it is preferred over the second.
Are there design details or case studies that make a case for one option over the other. What have been the experiences of the engineers and designers in this forum?
Thank you.