PE_JRM
Civil/Environmental
- Mar 20, 2024
- 45
I am renovating an old cabin (DIY for myself) and having some trouble determining if the existing slab is adequate to support what I want to do. The existing slab was not well implimented. The existing slab is 4" thick, old enough (1965) to be only 3000 psi, probably unreinforced, no thickened perimiter, sort of level and flat and no sub-base. 34x20 feet dimensions. Poured directly on stiff clay with about 1500 to 2000 psf bearing). The only thing the slab has going for it is that it is uncracked after 60 years although it is lightly loaded.
For various reasons I want raise the floor a few feet by building a wood framed structure above the slab, essentially making the slab the floor of a crawl space.
Framing this conventionally with long beams and joists with edge supports exceeds the strength of the slab. This could be dealt with by placing a square footing under each beam support but this is expensive and a lot of work if I do it myself. This approach is probably the simplest and best solution but I'm looking for a way to transfer the load to the slab in a distributed fashion.
I've been using excel spreadsheet GRDSLAB and BOEF as well as LISA FEM (free limited node license) to compare various approaches. Due to the limited nodes and uncertainty in the soil parameters I don't really trust the FEM analysis for much more that a gross understanding of where the load is going. I've been using it as a gauge of the practicality of various ideas.
The idea I'm currently exploring is a grid...beams supported every few feet (maybe 4'?) and perpendicular joists 16" OC. This would give me a 4'x4' group of point loads on the interior region of the slab. The slab edge load can be controlled by the edge spacing around the grid. I've been referring to 1) Slab thickness design for industrial floors on grade and 2) ACI 360R-06. The issue I'm having with analysis is that I'm off the nomographs for these references, probably because industrial slabs are typically thicker than 4". I've also referred to the OLD Army manual TM 5-809-1/AFM 88-3, Chap. 15.
I'm a retired structural engineer (PE), although concrete was never my specialty. Any ideas you might have that I could use to show my existing slab good with a bunch of point loads on a grid would be appreciated. I'd like to keep the solution simple and something I can do with a calculator, pad and pencil since my buget for the project is small. This solution is kind of fiddly but its worth considering.
Another idea I've considered is to pour some load distributing reinforced pads (2'x2') on top of the existing slab and just let the existing slab crack (could saw cut around pads) if it wants to. These pads would be for the beam supports. I don't really like this solution but it has its merits as being the easiest to DIY impliment and probably the cheapest.
For various reasons I want raise the floor a few feet by building a wood framed structure above the slab, essentially making the slab the floor of a crawl space.
Framing this conventionally with long beams and joists with edge supports exceeds the strength of the slab. This could be dealt with by placing a square footing under each beam support but this is expensive and a lot of work if I do it myself. This approach is probably the simplest and best solution but I'm looking for a way to transfer the load to the slab in a distributed fashion.
I've been using excel spreadsheet GRDSLAB and BOEF as well as LISA FEM (free limited node license) to compare various approaches. Due to the limited nodes and uncertainty in the soil parameters I don't really trust the FEM analysis for much more that a gross understanding of where the load is going. I've been using it as a gauge of the practicality of various ideas.
The idea I'm currently exploring is a grid...beams supported every few feet (maybe 4'?) and perpendicular joists 16" OC. This would give me a 4'x4' group of point loads on the interior region of the slab. The slab edge load can be controlled by the edge spacing around the grid. I've been referring to 1) Slab thickness design for industrial floors on grade and 2) ACI 360R-06. The issue I'm having with analysis is that I'm off the nomographs for these references, probably because industrial slabs are typically thicker than 4". I've also referred to the OLD Army manual TM 5-809-1/AFM 88-3, Chap. 15.
I'm a retired structural engineer (PE), although concrete was never my specialty. Any ideas you might have that I could use to show my existing slab good with a bunch of point loads on a grid would be appreciated. I'd like to keep the solution simple and something I can do with a calculator, pad and pencil since my buget for the project is small. This solution is kind of fiddly but its worth considering.
Another idea I've considered is to pour some load distributing reinforced pads (2'x2') on top of the existing slab and just let the existing slab crack (could saw cut around pads) if it wants to. These pads would be for the beam supports. I don't really like this solution but it has its merits as being the easiest to DIY impliment and probably the cheapest.