Eccentric footings and combined footings
Eccentric footings and combined footings
(OP)
In our office, colleagues often use load reduction to design footings with the columns directly on the exterior portion of the lot (zero clearance) to avoid oversize footings. This often results in underdesigned exterior footings. Now I need to design one that needs to use the full commercial live load and dead load for 4 storeys. The footings that come out of SAFE are about 50% bigger. The lot has 12 meters distance end to end and 3 columns spanning them (or 6 meters beam span). I'm thinking of using combined footings for the 3 columns in a row. But haven't seen much book references that treat such for most combined footings often use 2 columns only. Do you recommend that I use 50% bigger spread footings for the eccentric footing or one combined footing for the 3 columns? Which would have better seismic resistance, for those with experience of familiar with them? I understand the combined footing is more sensitive to variable changes in loading affecting the shears and moments in the span. Thank you.






RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
The 50% bigger footing has no merit whatsoever as it has no basis.
One method which I have used is to provide a rectangular footing with the short dimension parallel to the beam. This minimizes the eccentricity between the column and the footing, but it requires that the column be designed for the eccentric moment for the height of the first story. It also requires that the top of the first story column be tied continuously across to the opposite side.
I have done this for one or two story buildings but never for four story buildings. It may be a bit of a challenge but it is worth looking into.
BA
RE: Eccentric footings and combined footings
Please find attached the foundation layout. I haven't worked with combined footings before that encompassed 3 footings that is 5.8 meter apart (see picture). If I won't use any combined footings and just use isolated footings as as. Can anyone comment on the seismic behavior of it as far as settlement and lateral movement is concerned? The side footings are much larger than the middle (but loads one half of the middle). During vertical and lateral seismic shaking, would there be real tendencies for them to get separated? Hope those who have actual experience or have worked on this very irregular footings can comment as I have no experience working with 3 combined footings. And would horizontal combined footings for the 3 columns make it significantly smaller? Any who has worked on such problem before? Thanks.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
The foundation sizes come from SAFE. If I make it smaller, the end of the footing would tilt
and bearing capacity reduces considerably and only the footing portion below the columns would feel the full weight and even exceed the soil bearing capacity. Remember columns must be position with the kern region for all parts of the footings to be in contact with the soil. Go outside it and the end lifts up. How come the layout doesn't accomplish what I want? I don't understand. Please elaborate. Thanks.
RE: Eccentric footings and combined footings
What the heck is SAFE?
Use a combined footing with a length of 11.73m and a width of whatever you require. You will have three columns applying load to the combined footing. You must reinforce the footing for the resulting bending moments and shears.
Your present foundation plan is unacceptable because the exterior columns are outside the kern of the exterior footings.
BA
RE: Eccentric footings and combined footings
I'm surprised. You mean in the United States you don't design any footing whose columns are outside the kern? But in other countries, it is quite popular. Has no one else here do it??
About SAFE. See:
http://www.csiberkeley.com/safe
"SAFE is the ultimate tool for designing concrete floor and foundation systems.".
Well. The footing sizes come from SAFE, which can model the column with zero clearance. The reason the program produces huge footings is precisely because it addresses the shear and moment issues.
Hope others can comment too.
RE: Eccentric footings and combined footings
Mike McCann
MMC Engineering
http://mmcengineering.tripod.com
RE: Eccentric footings and combined footings
I would not consider adopting your foundation plan in a real structure. If it comes from "SAFE", I would not consider using "SAFE" for future foundation design.
It should be self evident that, given the size of your footings and the small gap between them, that a combined footing incorporating three columns would be more efficient than three separate footings, the outside two of which are hugely eccentric to the applied load.
If that is not self evident to you, we need to talk a little more.
BA
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Combined footings that uses more than 2 columns is very sensitive to the loads. Since I don't know the future loads or exact positions of the furnitures or movable items in the commercial spaces in the 4 storey that would be put, I can't be certain of the exact positions of the shear and moments. How do you handle this in 3 combined footing?
dhengr, it's footing tie beam around the perimeter of the layout. Anyway.. guys.. For two combined columns.. to get resultant.. one uses x = (column load 1) Length/ (column load 1) x (column load 2), what formula do you use for 3 columns in a row? All examples I saw in references uses only 2 columns in combined footing except mat foundation. In my country.. many structural engineers put the columns at the edge of the footing to save previous land spaces especially in commercial establishments so one can't afford setback so we have few experiences with limited combined footing that uses 3 columns spaces. Is there no other country like mine that uses the layout often?
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
http://data.bolton.ac.uk/staff/phm2/files/Semester...
http://www.nceng.com.au/
"Programming today is a race between software engineers striving to build bigger and better idiot-proof programs, and the Universe trying to produce bigger and better idiots. So far, the Universe is winning."
RE: Eccentric footings and combined footings
Thanks guys. So I'll use combined footings. Anyway. The rear and back of the ground floor is open and the second floor front and back cantilever 1.5 meters forward and back. Only the left and right side has full 6" thick wall. My tranverse side is weak. I rely solely on the column-beam joints to give strength to the open front and back. Anyone can comment about open story? Are you confident that joints moment frames are enough? I can't use shear walls because the front and back has to be opened. Any suggestions? Thanks.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
The combined footings thing idea seems simple.. just upside down columns and beams and upper tension at midspan and lower tension at supports.. how many have actually designed such? any unexpected problems you encountered? the following is the idea.. note the lower combined footings can't be exactly rectangular.. any other suggestions? any torsions you think can happen? also note the vault position.. any torsion from this and how do you think overall can behave?
RE: Eccentric footings and combined footings
These are elementary questions, which you should be asking of your mentor. I hope you have one, if you are designing 4 storey structures.
RE: Eccentric footings and combined footings
I don't have mentor and this is not elementary question. I'll explain. We are trying to fix the problem done by another engineer who gave the design to our client. As I have said. 95% of engineers in my country use eccentric footings. The following is the original size of the footings (and hence actual building load) from Area = Service Load/bearing capacity. I'll continue after the image...
The engineer (that we are not connected with) did the footing size using Area=Service Load/bearing capacity and just put the column at the exterior side of footing. We feel the building may overturn because the formula used is for centrally uniform bearing. Now what we did was to increase the size of the footings to what I shared yesterday (the picture with very big side footings). Now when you guys suggested we do combined footings. It is still oversized.. that is.. the combined footings would have area 3 times the actual. If we do it with actual area corresponding to actual weight. It would become very narrow (just imagine how you would do combined footings of the above picture). You may suggest to use strap beam, but the contractor of the clients and most contractors can't do strap beam because it is quite complicated due to the fact that there must be no soil bearing underneath the beam and this is difficult to do in my country. So does anyone have other suggestion? The reason it's difficult to do the combined footing thing is because we can't make the width smaller anymore because the shear and moments would no longer be safe for the eccentric footings. So maybe I must use my original oversize isolated footings? My concern is the differential settlement. Or maybe just do mat foundation to solve it and just tell the client to make his story designed for 6 storey because of foundation issues?
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
No. We have 3 engineers working with this. Ok. I live in the Philippines. 95% of engineers use full eccentric footings in buildings. Is there anyone here in the Philippines who can comment why we use them when this is not allowed in other countries? But if designed, it can really work. See the following:
It works, isn't it? Any comment? this is why most engineers in Philippines use it. Although you may agree that this is good only for very low rise up to 3 storey, right? If this is the only solution we have. Then I have to advice client his layout is optimum only for 2 storey or 3. I admit that for 4 storeys and up, the eccentric footing can get so big and create the problem I have now.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Those are not strap beams.. FTB means Footing Tie Beam, as shown in the previous engineer plan above.. they are connected just below the floor slabs and above the footing. This is just to prevent settlement but not handle the eccentricty. Well, the reason his footings not adequate is because the loadings he used plus the weight of the footing is how he got the area.. but this is for centrally loaded footing. So he got it wrong. Anyway. I'll advice client that either I'll use oversized combined footing to make it 6 storey or he has to settle for 2 storey to just use zero clearance eccentric footing. This is allowed for 2-storey or residentials because the loads are only very small. The Philippines copy all the structural codes in the United States ACI but in the portions in footings.. the kern requirement is removed to save pages.. that is why most designs you can see use columns located at side or even at corner of footing in residential or low rise commercial.. but not in high rise which needs centrally loaded footing.
RE: Eccentric footings and combined footings
Your coloured sketches above are not valid. Just increasing the size does not make the pressure uniform.
RE: Eccentric footings and combined footings
Then you missed this:
http://www.structuremag.org/article.aspx?articleid...
"Conclusion
Results indicate that when a strap footing is used as part of a foundation system, a detail that allows for pressure to be relieved from the strap footing is necessary on construction documents. Without it, a considerable unforeseen load path could be created that may result in the failure of the strap beam, followed by overstress of the soil/rock under the eccentric footing. It is also important to emphasize the need for field enforcement and control of these requirements."
It's dangerous. It's underground, one can't know. At least in beams above ceiling, you can see warning it's failing by the beam flexing. Underground no warning and sudden failure. Hence strap beams not used here and no contractors make them.
For eccentric footing that is oversize, the end can serve as counterweight to the eccentric end hence soil pressure can be fairly uniform.. but note even in actual, bearing of soil vs
clay are not uniform, so the counterweight can do the trick. We used it on millions of buildings and no one collapse.. but only for residential and low rise commercial.
The reason I suggest to make it 6 storey is because the size of the combined footings would
be larger than area of 4 storey so make as well make it 5-6 storey in design to avoid waste
of foundation construction. I talked with client. We will go for combined footings that
that would gap the entire lot. Hope calculations next week can support it. But we can go for 4-storey if the design can make it possible. 2 other engineers are also working on this same project and they will do the calculations.
RE: Eccentric footings and combined footings
2. If you use eccentric footings as first proposed, the exterior column must carry the entire eccentric moment of the exterior footing. It can be done but it is not efficient and it may be unacceptable architecturally (because the column is too large).
3. If you use combined footings, you will have three loads on each footing. The centroid of those three loads will be near the centroid of the footing. If the footing is sufficiently rigid, the pressure will be nearly uniform over its entire area. It will have positive and negative moments which may be reinforced with continuous top and bottom bars running the full 11.7m length of the footing.
4. I understand that wind forces in the Philippines are quite high, so the rigid frames in the transverse direction will benefit from rotational restraint at the base of each column. Such restraint will be provided by a combined footing but not with individual pad footings.
5. There is no need no create a void under any part of each of the combined footings. In fact, a void would be detrimental to the proper functioning of the foundation.
6. There is no need to make each combined footing wide enough for a six story building. Make it wide enough for a four story building because that is what you have. It should be deep enough so that it behaves as a rigid body.
7. Do not jog the south foundation as shown on an earlier plan. Make it straight so that your reinforcement can be made straight. Its outer perimeter will then be a parallelogram.
BA
RE: Eccentric footings and combined footings
Thanks. I know gap is not necessariy for combined footings.. only for strap beam. My only concern for now before we meet the design team next week is the combined footings may be narrow if designed for 4-storey only. The designed column sizes are 0.5x0.4 meter with the 0.5 in the longitudinal direction with each supporting less than or about 300 kips. Can the width of the 11.7 meter combined footing be merely say 1.5 meter? For isolated footing. It is easy to calculate the length and width of the area by getting the square root of it. But in combined footing. If the total area is say 17.55 sq. meter and the length is 11.7 meter, then the width is only 1.5 meters. Is this sufficient, or must there be certain minimum? This is the only question for now before I meet the design team next week for integrating into the SAFE software. So please bear with me for this important and last question about the width. Thanks.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
The reference you attached shows examples of combined footings and also footing with strap beams, both as described above. Using these solutions, there is no moment (or at least no added moment due to eccentricity from the footing) on the columns. BA's statement was about eccentric pad footings, with no rectifying moments.
RE: Eccentric footings and combined footings
Middle combined columns
Service Load of Colume 1: 730 Kn
Service Load of Colume 1: 1200 Kn
Service Load of Colume 1: 900 Kn
Footing weight: 200 Kn
Total Service load: 3030 Kn.
Soil Bearing capacity: 150 kpa
Area of combined footings: 20.2
Length of combined footings: 11.7
Width of combined footings: 1.72 meters
Imagine footing that span 11.7 meters and only 1.72 meters in width. The column sizes are 0.5x0.5 on average. Won't the width be too narrow and the whole setup can overturn? If I make the width 3 meters. Then the volume and weight of footing would be about twice. Is this advisable in practice to use twice the area required? Has anyone designed 3 combined footings here? What do you say of the short width? Also I assume footing depth of 0.5 meters which is average for isolated footing. Are footing depths for combined footings deeper usually?
Also the resultant would not exactly be at the center of the 11.7 combined footing but more than the center on the right. Would this produce bearable soil pressure at all? Is combined footings in my case a bad or good idea?
Next week my partner would do the detail calculations of the punching shear, moments, etc. but the thickness concerns me and it's the only few thing I want to know as tips for now. Thanks.
RE: Eccentric footings and combined footings
Middle combined columns
Service Load of Column 1: 730 Kn
Service Load of Column 1: 1200 Kn
Service Load of Column 1: 900 Kn
Footing weight: 200 Kn
Total Service load: 3030 Kn.
Soil Bearing capacity: 150 kpa
Area of combined footings: 20.2
Length of combined footings: 11.7
Width of combined footings: 1.72 meters
This is not quite correct because the loads are not quite centered on the footing.
e = (900 -730)(5.87 - 0.25)/3030 = 0.315m
S = 1.72(11.7)^2/6 = 39.2 m3
P*e/S = 3030*0.315/39.2 = 24.3 kPa
So P/A + M/S = 174 kPa (need wider footing or possibly tapered footing to meet stipulated soil bearing of 150 kPa).
Imagine footing that span 11.7 meters and only 1.72 meters in width. The column sizes are 0.5x0.5 on average. Won't the width be too narrow and the whole setup can overturn? It might, but it would be a result of N-S wind on the shearwalls. You have to provide a means to carry wind on the end walls down to the ground. The combined footing has not been sized for that.
If I make the width 3 meters. Then the volume and weight of footing would be about twice. Is this advisable in practice to use twice the area required? No, it is not an economical solution to the problem. You could investigate other ways of handling north-south wind. Has anyone designed 3 combined footings here? What do you say of the short width? Also I assume footing depth of 0.5 meters which is average for isolated footing. Are footing depths for combined footings deeper usually? Not necessarily, but you must check bending, shear and deflection to make sure you have a workable solution.
Also the resultant would not exactly be at the center of the 11.7 combined footing but more than the center on the right. Would this produce bearable soil pressure at all? Is combined footings in my case a bad or good idea?
Next week my partner would do the detail calculations of the punching shear, moments, etc. but the thickness concerns me and it's the only few thing I want to know as tips for now. Thanks.
BA
RE: Eccentric footings and combined footings
pattontom stated (in black, my comments in red):
Also the resultant would not exactly be at the center of the 11.7 combined footing but more than the center on the right. Would this produce bearable soil pressure at all? Yes, indeed. See my calculation above. Is combined footings in my case a bad or good idea? It is a good idea, but you must carry through with a complete analysis of how the various loads affect your foundation.
Next week my partner would do the detail calculations of the punching shear, moments, etc. but the thickness concerns me and it's the only few thing I want to know as tips for now. Thanks. I don't know what thickness you will need without doing the design. Try 500mm for a start and see how the reinforcement works out. If it is too crowded, you can always alter the depth, width or both.
BA
RE: Eccentric footings and combined footings
Michael.
Timing has a lot to do with the outcome of a rain dance.
RE: Eccentric footings and combined footings
I think the idea in the third diagram is that the eccentricity of the load is designed to be carried by the column in bending. This means bending moments in both column and footing as well as horizontal forces at top and bottom of column.
Depending on the properties of the soil and rigidity of the column, the soil pressure under the footing would be variable.
BA
RE: Eccentric footings and combined footings
BA. What do you mean of North south wind on the shearwall? I don't have any shearwall, the left and right walls are 6 inches Concrete Hollow Block filled with cement. The back has wall that is 1.5 meters beyond the columns (cantilevered), the front is open as the place would be lease to banks in the future. Also remember the 3 strips of combined footings will be connected to the upper floors solidly. So how would smaller width of the combined footings in each of them overturn the building longitudinally (which is longer than the transverse side) when they are connected as a unit?
RE: Eccentric footings and combined footings
Are you a real Structural Engineer? Your questions and lack of basic understanding of structural principles and concepts brings this question into play. This sounds like a pretty big project to be cutting your teeth on, and with some typical structural complications too. And, now you say there are two other engineers helping you think they way you are thinking. Given the types of questions you are asking it would seem wise, to me, that you find a local mentor, who has been through this type of construction and design before, who knows the local codes and methods of doing things, but also understands basic Structural Engineering methods, and who could sit with all of you and talk some of this stuff over. You could be looking at the same set of plans, seeing each others sketches and facial expressions as you discussed these things, back and forth. He can generally see when you aren’t understanding what he is trying to explain, and try a different approach. Several real smart guys here aren’t having much luck changing your thinking. That’s tougher to do from a distance and with someone who we have had no experience with. You can learn an awful lot from these older fellows who has been in the structural/construction wars for a longer time, and have seen some of these problems before. Contrary to your protestations, your country does not have different laws of physics and gravity than our countries do, and the mechanics by which we design structures don’t really change from country to country either. There might be minor variations in code criteria, but even those are not appreciably different. No one, not even in the Philippines, can put a large column load on the edge of a spread footing without providing some means of accounting for this eccentricity; either with a combined footing, or tie beams as one of your sketches shows, or by moment capacity in the columns as BA suggested.
RE: Eccentric footings and combined footings
paddingtongreen and BA, in the soil bearing diagram, all axial loads are the same. In diagram in the middle with eccentric load but normal size footing, the column at edge can produce tension in 90% of bottom. If the column at edge is hinged to the footing, it is an eccentric load. It produces variable compression on the soil near the edge, but cannot produce tension because soil cannot take tension. So it produces a triangular block of compression near the edge. But in the rightmost picture with oversize footing and same axial load with respect to left diagram, the bending and shear and sheer weight of the footing can compensate for the lifting and make it stable. This is simply not true. This is what SAFE shows. I don't think so. BA, what do you mean the column has to be designed for bending, it doesn't bend because the 2nd floor has beams that directly connect the left and right side of the lot and all columns connected continuously in upper floors (starting with second) and the floor diaphragms makes it act as one unit. Draw a Shear Force and Bending Moment diagram for the footing. The moment taken by the column is the footing load multiplied by the eccentricity to the center of column. This is the setup for millions of homes in our country. What do you think is wrong? I think what is wrong is your understanding of the situation. Anyway. Is it specifically mentioned in the ACI that the column needs to be located inside the kern? No, it is not nor does it need to be. Next year our structural code which is copied from the USA will be updated. Maybe I can convince the committee to include the kern thing and make all new building permit obey it? Don't even try because that would be wrong. For that to be true, we need to master the art of combined footings which is quite rare here. For example, the setup I'm doing have not been done by more than 80% of engineers here and they haven't handled such thing before except mostly mat and piles foundation. No comment on that as I do not know your local practice.
BA. What do you mean of North south wind on the shearwall? I don't have any shearwall, the left and right walls are 6 inches Concrete Hollow Block filled with cement. An earlier comment of yours stated that the left and right walls are full 6" and I assumed they were shear walls for lateral forces acting in the north-south direction. I am assuming North at the top of your sketch. The back has wall that is 1.5 meters beyond the columns (cantilevered), the front is open as the place would be lease to banks in the future. Also remember the 3 strips of combined footings will be connected to the upper floors solidly. So how would smaller width of the combined footings in each of them overturn the building longitudinally (which is longer than the transverse side) when they are connected as a unit? The shear walls must be effectively carried down to footing level or some other bracing supplied to prevent overturning of the combined footings about an East-West axis.
BA
RE: Eccentric footings and combined footings
Oh.. he was referring to the biaxial bending moments of the columns.. of course, it's taken care of. We mostly use staad and etabs in getting the moments of the structures. We don't do manual calculations anymore here (so many structural engrs. even forgot the formulas). After we got the moments in the software. We enter them in either PCA columns, PCA beams, SAFE or other software to get the reinforcements required for shears and moments.
It's just that we commonly use zero clearance eccentric footings even at corner of building. Our local codes don't disallow it. Maybe it's time we really update our codes. The reasons the building don't fail even with fully eccentric footing is because the load combinations we used for the moments and shear is high at say 1.4DL + 1.7 LL or 1.2DL + 0.5 LL + 1 EQ. Now with actual service loadings that is way down, the actual bearing pressures of the soil actually applied is very low. This is how we get away with zero clearance eccentric loading.
RE: Eccentric footings and combined footings
We only used shear walls for buildings above 5 storey. We never use shear walls for 4 storey and below. The walls in the pictures are all concrete hollow block that only needs wall footing and not shear wall foundation. The building seismic resisting members are all special moment frames in both the transverse and longitudinal directions. For my layout and 4 storey. Do you think this is sufficient? In your country up to what storey can you use pure moment resisting frames as the complete lateral resisting system?
RE: Eccentric footings and combined footings
He was not referring to biaxial moments, only the column moment which resists the footing moment.
One more try here. Are you familiar with the principle of superposition? Probably not, if you just trust computer programs to do your job for you. But on the off chance that superposition rings a bell, try this: Take your big footing and place it on the ground. That gives you a uniform soil bearing pressure upwards, resisting just the mass of the footing. Now supermpose a force (your column load) at the edge of the footing. What happens? If there is just an applied force, the force goes straight down through the edge of the footing into the soil below. If you want to distribute some of that force to the rest of the footing, you have to provide a moment connection of the column to the footing. Do you ever design cantilevered retaining walls? Do you have a moment connection between the wall and the footing? Of course you do. I don't know why you fail to see that the same principle is in effect here.
Back to your computer programs...if you just believe everything that is output, you are just a technician, not an engineer. I imagine there are a lot of competent engineers in the Philippines, so won't take your comments about standard practice there as accurate.
As to shear walls, in Australia we commonly use shear walls wherever they are available, even in single storey structures.
RE: Eccentric footings and combined footings
Of course it's handled. The column bars are connected continous to the footings. I don't use dowels. For the original oversized exterior footing (the middle left side) with column at the edge most portion of the footing. The specs are the following:
Service Load: 730 Kn
Soil bearing capacity: 150 kpa
Length of footing: 4.6 meters Fc' 20.8 mpa
Width of footing: 3.0 meters
thickness: 0.650 meters
Bottom bars along length: 17 pcs of 20mm bars grade 60
Bottom bars along width: 11 pcs of 20 mm bars grade 60
Top bars along length: 17 pcs of 20mm bars grade 60
Top bars along width: 11 pcs of 20 mm bars grade 60
With this. There is uniform soil pressure at the bottom of the 4.6x3 meter footing with
service load of only 730 kn even a zero clearance completely eccentric column at edge of footing. Work of genius? Lol.
But I'll try combined footing because the sizes of this and other footings differ by 50% that I fear differential settlement can occur. So I'll tell the other senior engineers to start working on the combined footing BA suggested. I admit I'm just a junior member though. Thanks for the ideas and clarifications and tips.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Those numbers come from the SAFE program and you are right that have to manually confirm everything the program says. Hmm.. how would combined footing design help then in making the edge column resist the moment? Remember in the combined footing version the column is still at the edge most location. A combined footing only distribute the soil pressure to the whole combined footing encompassing other columns.
RE: Eccentric footings and combined footings
But if you have an isolated, offset pad, then the column has to deliver both the force and a moment which balances the eccentricity of the soil loading. A pinned base doesn't work.
I suggest that you contact the SAFE technical staff for assistance in interpreting the program output.
RE: Eccentric footings and combined footings
Using a 0.5x0.5 meter column. Do you know the theoretical axial load limit, like maybe 100-200 KN only, where a zero clearance eccentric column on edge of footing can work (can take the bending moment of any size of footing)? Maybe 730 KN would be so heavy.. so there must be a threshold where it can be done. Any idea what it is? Maybe the reasons millions of buildings in the Philippines use columns at edge of footing is because the loading is so low that it can theoretically take it.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
I'm asking of eccentric footing where the column is at edge of footing. Because if the combined footings very expensive and client can't afford it. Then I'd advice him to just design building for 2 storey with metal roof. But since his columns need to be at edge of footing with maximum eccentricity. Then the design has to be isolated spread footing with maximum eccentricity. I wonder what is the maximum axial load theoretically possible for this any size of column. I use Etabs and Safes all the time that I forgot how to compute manually. And I want to verify it with manual computations first. So please bear with me this last questions. Thanks.
RE: Eccentric footings and combined footings
A problem for those of us who are professional engineers is that we cannot live with something we cannot cover with calculations that we understand.
If you draw a free body diagram of your right hand drawing, take moment6s about the point where the column hits the foundation, you will find a resultant moment that can only go into the column. If it is hinged, the middle diagram is what you get, and the top of the footing needs to be reinforced.
Michael.
Timing has a lot to do with the outcome of a rain dance.
RE: Eccentric footings and combined footings
Complication in the footings is no reason for reducing the scope of this project. You already had tie beams, just make them big enough to work as rectifying strap beams.
No offence, but using computer aids without any knowledge of how or why the results are generated is a much more dangerous thing than eccentric footings.
RE: Eccentric footings and combined footings
So far, we have been talking about using combined footings in the transverse direction. But there are lateral forces in the north-south direction as well which must be transferred to the foundation. Foundation design must take into account all forces.
The three pad footings on Grid X2 can be centered under the columns with no difficulty. Perhaps a strip footing could be used on Grids X1 and X2 with a grade beam over it to distribute the column loads. In this way, the eccentricity would be small and the column may be adequate to handle the resulting bending moment.
Alternatively, msquare48's idea of a mat foundation could be explored.
BA
RE: Eccentric footings and combined footings
Pattontom my only comment is that you have stated that you do not have a mentor yet you are using a very powerful program like SAFE. To use that type of program without knowledge and experience in performing the design by manual calculations is a major concern. This is exactly what worries some of us gray hairs that have seen the next generation of structural engineers come along that simply trust the output from a program. I agree with the recommendations above that you find a local engineer that has the knowledge and experience to design the structure. Good luck.
RE: Eccentric footings and combined footings
Other engineers handling this and the calculations. I'm just one of them and just offering suggestions esp when eccentric loadings are normally done by anyone here.
BA,
The grade beam or tie beam are actually just below the slabs where the beam supports the slab.
About forces in the lateral direction. I thought the larger width of the combined horizontal footings can take care of that. Remember in isolated spread footing, it can take tranverse and longitudinal forces well.
When you mentioned "The three pad footings on Grid X2 can be centered under the columns with no difficulty. Perhaps a strip footing could be used on Grids X1 and X2 with a grade beam over it to distribute the column loads. In this way, the eccentricity would be small and the column may be adequate to handle the resulting bending moment." Are you talking about separate strip footing and grade beam in X1 and X2 in addition to the 3 combined horizontal footings or separate?
Mat foundation may be overkill. Anyway making the width of the 3 horizontal combined footings can take care of the lateral forces in the north-south direction? No? I'm still waiting for the engineer in charge of it to do the calculations. I can only offer suggestions.
Hokie66 you said "The soil pressure would not be uniform, but let's say it is. Using your 730 kN service load, that would give a soil pressure on your size footing of 53 kPa. This would give you a service load bending moment at the face of the column (assuming a 500 column) of 730 kNm. This bending then has to be taken by the column as well as the footing. Can a 500 x 500 column resist that much moment? No, it can't."
How did you get the value of the 730 KNm moment?
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
The service load is 730kn
Dead load is 500 kn. Live load is 230 kn.
So Pu=1.2DL + 1.6 LL = 1.2(500) + 1.6 (230) = 600 + 368 = 968 Kn
qu = 968 Kn/(footing area)^2
= 968 Kn/13.8^2 sq.m
= 70. 14 kn/m^2 or kpa
Now. Moment = WuL^2/2
L=(4.6-0.5)/2 = 2.05
wu = qu (1 meter ) = 70 kn/m
Mu= WuL^2/2= 70kn/m (2.05)^2/ 2 = 147 kn.m
so moment of footing is only 147 kn.m and not the 730 kn you mentioned.
RE: Eccentric footings and combined footings
I was trying to suggest an alternative foundation system consisting of a strip footing on Grids X1 and X3 (I typed X2 in error) and three square footings, each centered under a column on Grid X2. The advantage is that the strip footing would have a small width, hence a small eccentricity which, perhaps could be carried by bending in the exterior columns.
A second possibility is to provide a strip footing all around the entire perimeter plus one single square footing under the central column on Grid X2.
The strip footing would have to be stiff enough to distribute the column loads over the length of footing. I don't know whether this would be practical or not but it is worth exploring.
BA
RE: Eccentric footings and combined footings
Mike McCann
MMC Engineering
http://mmcengineering.tripod.com
RE: Eccentric footings and combined footings
Actually we tried the first idea already with strip footing in grid X1 and X3. But the improvement is only 0.5 meter smaller width. So instead of 3 meter strip footing in sides. We have 2.5 meter. And there is still eccentricity in the exterior columns. I think the best is your main proposed horizontal combined footing plan where there are 3 horizontal combined footing in rear, middle and front.. Don't you think the width of the 3 horizontal combined footings is enough to resist the north-south lateral forces? The dead load of the front and back would be sufficient to resist any overturning, isn't it so why do you worry about the north-south direction. I wonder whether to add grade beams to all the footings to make the moments distribute. Or would combined footings (horizontal) be sufficient to do it??
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Your calculation gives the ultimate moment/metre in the North-South direction.
My calculation was for the total service load moment for the East-West direction, where you have the footing cantilevered off one side of the column. The footing is 4.6 metres wide in that direction, but the column would have to take the same bending moment, so it won't work.
RE: Eccentric footings and combined footings
hokie, if one uses very strong grade beam or tie beam above the footing and the below the slabs holding all the columns together. this can take care of the bending moments of the columns, isn't it. I wonder who use this technique and what is the advantage, disadvantage.. remember tie beam can redistribute moments of all columns.
anyway. if combined footings are used, it can redistribute the moments and tie beams not needed, right?
RE: Eccentric footings and combined footings
Why do you need 2.5m width of strip footing? A load of 730 kN requires an area of 4.9 m2 which could be supplied by a strip footing approximately 1 m in width which boils down to an eccentricity of 250mm assuming a 500 wide column. Where do you come up with these numbers?
If you do not start looking seriously and intelligently at our suggestions, I am going to depart from this thread with one last recommendation...find someone in your area who knows what the hell he is doing because you clearly do not.
BA
RE: Eccentric footings and combined footings
BA
RE: Eccentric footings and combined footings
The problem with 1 meter string footing at the sides is the end of the footing opposite to the columns can lift up, this is because we have to put the columns on the left side of 1 meter footing so the walls can be at edge most location. That is why 2.5 meter was calculated to decrease the lift up of the other side of the footing with heavily reinforcement moment bars.
Of course I'm seriously considering your suggestion of combined footings that is why I told the seniors engineers to go ahead do the design of 3 horizontal combined footings at back, middle and front and they say load combination and calculations can support it and it is stable. So thanks to all your useful suggestions. You guys convinced me combined footings is the way to go for completely eccentric column positions.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
I'm just a new graduate and the building is supposed to be my first design. Also I happeedn to be the one assigned to communicate with the client. This is why with the project getting complicated. I let the seniors handle them and I'm the middleman or communication channel between what the client and architect wants and the senior engineers. They don't directly contact the client because they are working full time on structural design.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Analysis and Design of arbitrary cross sections
Reinforcement design to all major codes
Moment Curvature analysis
http://www.engissol.com/cross-section-analysis-des...
RE: Eccentric footings and combined footings
Disclaimer: Didn't read the whole thread.
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
This is one of the most reckless assertions that I have read on these forums in sometime. I only skimmed this post, and I do not mean to preach or soapbox, but I think it's useful to address it.
Tom, as a self-described recent graduate, you need to recognize this statement as a huge red flag. If you pursue engineering as a career-- which will require dozens of calculations a day, for approx. 6500 days in your 25 year career-- you are guaranteed to make mistakes. If you follow the lead of your peer engineers who don't "do manual calculations anymore" and "forget the formulas", you are guaranteed not to catch them. And that's bad.
Strap footings, combined footings, moment frames, or whatever- these are just terms used to describe some thing that tries to balance some thing else. And balance is the same on that side of the Pacific as it is the other.
Equilibrium isn't a formula (even though you can develop formulas to describe equilibrium). So I would strongly suggest not following the path of your peers and forgetting-- it won't serve you well over time and in the end.
"We shape our buildings, thereafter they shape us." -WSC
RE: Eccentric footings and combined footings
RE: Eccentric footings and combined footings
Analysis and Design of arbitrary cross sections
Reinforcement design to all major codes
Moment Curvature analysis
http://www.engissol.com/cross-section-analysis-des...
RE: Eccentric footings and combined footings
I know- and it retrospect my post was a little too precious and heavy-handed. But after I read through the thread for the first time, I felt like ringing the bell.
Tom,
Sorry for the brusqueness of my past response. I could have been more helpful. But everything starts with the truth that: if you don't want your structure to move, it has to be in equilibrium. Sketching it out and putting a hand calculation to it will get you at least 90% of your way there. It's how the world was built.
I think that designing the right sized combined footing is the answer to your issue. I wouldn't try to resolve any unbalanced moments by trying to engage the anchor bolts and bending the column. It's too dicey in my opinion, especially when the foundation solution seems the most straight forward and time-tested.
"We shape our buildings, thereafter they shape us." -WSC
RE: Eccentric footings and combined footings
tom,
Using grade beams to take the lateral loads is common practice, it will provide additional lateral support at the same time it could carry your brick walls. for the columns I release the support moment parallel to where the beam will span, so if i have grade beams at both directions that will hit my column then that column will be pinned supported.
Anyway, it is always a good practice to do some hand calculations from time to time. And i usually prefer to do some hand calculations first before using a computer model to generate the complete calculations, that way i get to practice and at the same time check the computer generated results.
RE: Eccentric footings and combined footings
chris magadia
www.chrismagadia.com
ChrisMagadia.Com - The Structural Engineers' Forum and Resources Website. Civilizations owe its existence to Structural Engineering. Do you Agree?