sybie99
Structural
- Sep 18, 2009
- 150
When designing a waffle/coffer slab, can the following method be used or are there errors or flaws in the approach:
1. Determine the equivalent thickness of a solid slab, that is with the same section modulus.
2. Now analyse the slab as a solid slab.
3. Check deflections are okay
4. See that, where there are positive moments, the neutral axis falls within the flange. To do this see that the maximum positive moment is less than Mr = 0.45 x fcu x b x hf x (d - hf/2, which, if true, means you can use the rib spacing as beam width when designing rib reinforcement.
5. Use postive moments from flat slab FE analysis to calculate reinforcement needed/rib.
6. For negative moments see that these moments(i.e. hogging moments) fall within the solid area around columns or the solid column strips if these are provided.
If this method can be used, it means I can design coffer slabs where the column layout is irregular making it difficult to analyse by hand, by doing a normal FE Analysis of the equivalent solid slab.
Thanks
1. Determine the equivalent thickness of a solid slab, that is with the same section modulus.
2. Now analyse the slab as a solid slab.
3. Check deflections are okay
4. See that, where there are positive moments, the neutral axis falls within the flange. To do this see that the maximum positive moment is less than Mr = 0.45 x fcu x b x hf x (d - hf/2, which, if true, means you can use the rib spacing as beam width when designing rib reinforcement.
5. Use postive moments from flat slab FE analysis to calculate reinforcement needed/rib.
6. For negative moments see that these moments(i.e. hogging moments) fall within the solid area around columns or the solid column strips if these are provided.
If this method can be used, it means I can design coffer slabs where the column layout is irregular making it difficult to analyse by hand, by doing a normal FE Analysis of the equivalent solid slab.
Thanks
