nicoga3000
Civil/Environmental
- Apr 22, 2010
- 22
I've been working on the design for an octagonal mat for a storage tank over the past few days. Originally, I looked at a circular mat, but the rebar requirements were astronomical (the spacing was getting close to 3" c/c on #11 bars...so that won't work). The rebar requirements for my octagonal mat are still pretty high, but given that I can reinforce orthogonality vs radially/circumferentially, it becomes slightly more manageable. But even still, I have run into, call it, an issue. See the attached photo.
What we have is a circular shaft. After some discussion, I've decided that the circular ringwall can be reasonably assumed to be an equivalent octagon (for analysis, this is MUCH more manageable over a circular ringwall). Given the loading conditions (which are quite high) and low bearing capacity, this footing is quite large - about 63 feet in side-to-side diameter. What I've done is taken the area above what I labeled the flexure face and determined what sort of moment I'd get. Assuming a #10 bar, I figured the development length (ld) and went ld away from the flexure face. Wherever that hit, I took that area as my length of "available" beam for reinforcement. OK, fine, this part I'm comfortable with.
But if you look at the left half of the drawing, there is an area that would (I think...) have very low flexure. The requirements here are quite small in comparison. I COULD go as far as to switch bars here, but I don't know if it would be cost effective for the field crews when they're out there trying to differentiate between n number of bars. We've also got the middle of the mat to deal with. Top steel here should, in theory, be quite large. I can only think to do a strip analysis and call it a simply supported beam with a distributed pressure acting along it for loading. That would give me a fair approximation of the moment I think. It comes out to being larger than the flexure face moment, but given that the circular ringwall is 40' in diameter, it makes sense.
So my question...Does anyone have any experience in designing these sorts of foundations (octagonal OR circular mats) and have some good resources? I've read the paper on chimney foundations, but it doesn't address mats in the sense that I'm using them. I've also tried to research and read/buy every paper that's been suggested elsewhere on the internet. So far, NOTHING has given me what I consider to be a close approximation of the type of foundation and loading condition that I'm dealing with. I've tried to use STAAD.Pro to design a mat, but besides geometry issues, I just can't seem to get results that I feel comfortable with. I'm not about to put up a tank with a shoddy foundation!
Any help, suggestions, guidance, or general thoughts/ideas would be welcome. I'm more than willing to share whatever else I can in order to better guide the discussion! I feel like round and octagonal mats are like the ugly duckling of the foundation world - they seem to get pushed into the corner and never spoken about. Round and circular "things" are not always the most friendly to hand calculations I know, but anything is better than nothing I guess! Thanks all!
What we have is a circular shaft. After some discussion, I've decided that the circular ringwall can be reasonably assumed to be an equivalent octagon (for analysis, this is MUCH more manageable over a circular ringwall). Given the loading conditions (which are quite high) and low bearing capacity, this footing is quite large - about 63 feet in side-to-side diameter. What I've done is taken the area above what I labeled the flexure face and determined what sort of moment I'd get. Assuming a #10 bar, I figured the development length (ld) and went ld away from the flexure face. Wherever that hit, I took that area as my length of "available" beam for reinforcement. OK, fine, this part I'm comfortable with.
But if you look at the left half of the drawing, there is an area that would (I think...) have very low flexure. The requirements here are quite small in comparison. I COULD go as far as to switch bars here, but I don't know if it would be cost effective for the field crews when they're out there trying to differentiate between n number of bars. We've also got the middle of the mat to deal with. Top steel here should, in theory, be quite large. I can only think to do a strip analysis and call it a simply supported beam with a distributed pressure acting along it for loading. That would give me a fair approximation of the moment I think. It comes out to being larger than the flexure face moment, but given that the circular ringwall is 40' in diameter, it makes sense.
So my question...Does anyone have any experience in designing these sorts of foundations (octagonal OR circular mats) and have some good resources? I've read the paper on chimney foundations, but it doesn't address mats in the sense that I'm using them. I've also tried to research and read/buy every paper that's been suggested elsewhere on the internet. So far, NOTHING has given me what I consider to be a close approximation of the type of foundation and loading condition that I'm dealing with. I've tried to use STAAD.Pro to design a mat, but besides geometry issues, I just can't seem to get results that I feel comfortable with. I'm not about to put up a tank with a shoddy foundation!
Any help, suggestions, guidance, or general thoughts/ideas would be welcome. I'm more than willing to share whatever else I can in order to better guide the discussion! I feel like round and octagonal mats are like the ugly duckling of the foundation world - they seem to get pushed into the corner and never spoken about. Round and circular "things" are not always the most friendly to hand calculations I know, but anything is better than nothing I guess! Thanks all!
