Interpretation of Net Allowable Bearing Pressure

[ptdgeo]

I realize this topic has appeared and been discussed here many times, but for myself I would like to bring it up one last time to assure myself I’m thinking correctly when explaining this topic to fellow structural engineers that call regarding this question.

Most recently I had a site that was in a valley setting where the soils at the site were alluvial deposits composed of a sequence of fat clay, lean clay and sand over shale. The fat clay had formed a desiccated crust over the underlying lean clay, that was normally consolidated to just slightly overconsolidated, and the sand below was medium dense to dense.

The structures for the project consisted of a single story mechanical building and reinforced concrete sedimentation basin with 20’ tall walls and a concrete roof. The floor slab for the mechanical building needed to be a minimum of 5 feet above grade for flood protection.

Long story short, total settlements needed to be less than 1 inch and an increase in the vertical effective stress greater than 300 psf calculated more than an inch of settlement. The client did not want to use deep foundation or any type of ground modification technique because the “local” contractor wasn’t equipped to handle them.

We ended up giving recommendations for “contact” pressures for a mat foundation established at depths ranging from 5 to 10 feet below the existing ground surface with anticipated total settlements of 1 inch or less. I used the term “contact pressure” because the structural engineer and I could not agree on the meaning of “ net allowable bearing pressure”.

The structural’s argument was, that if bottom of the mat was at 10 feet below existing grade, then he could use the net allowable pressure I was giving and add the weight of the soil removed. His explanation, “you give a net allowable pressure of 1500 psf for a mat at 10 feet deep, so to size the mat I can use at least 2500 psf, by taking advantage of the soil removed.” My reply was, “No, not if you want to keep settlements to less than 1 inch.” So I was informed that I was not giving him a “net allowable pressure” because a net allowable pressure is that pressure in excess of the overburden. I agreed, with half of his statement, and explained myself by saying:

“A net allowable bearing pressure is that pressure in excess of the overburden and it does account for the depth of overburden but what that means is that this is the total change in effective vertical stress that the soil below the foundation can experience to keep settlements within serviceable limits. The 1500 psf is the 10 feet of soil (gamma total 120 pcf) plus the 300 psf increase in effective stress at that depth. So this pressure is what needs to be used to size foundations and should be the total of the structures dead load and live load divided by the given pressure.”

After a little more banter, back and forth, regarding the meaning and definition of bearing capacity versus settlement and that the strength of the soil was not the issue because from a bearing capacity standpoint the soil probably could support 2500 psf without a bearing failure but it was the soil’s compressibility characteristic that was governing, so we agreed to use the term “contact” pressure.

My question is, does that make sense? Even if I were to have called the term a net allowable pressure of 1500 psf, technically wouldn’t that have been correct? By the structural's interpretation the net allowable bearing pressrue should have been 300 psf., I didn't agree.

Sorry about the long message.

 

[fattdad]

Sounds like the structural engineer's picking a fight. S/he had a question, you clarified your perspective and s/he didn't like the answer you gave, which was based on your experience, analyses and consistent with your recommendations.

Some people!

Good luck.

f-d

¡papá gordo ain’t no madre flaca!

 

[UcfSE]

Now, I'm no geotech, but doesn't Terzaghi's bearing capacity and the general modified bearing capacity equations account for the overburden at the level of the bottom of the footing with the qN[sub]q[/sub] term? It seems to me that subtracting the overburden again would not only be double sipping but would be doing it incorrectly.

 

[fattdad]

Areal loads do not conform to the design approach for rational bearing pressure analysis. Areal loading is typically governed by settlement and most often the design stresses are either less than the maximum pre-consolidatation pressure or evaluated in light of soil modulus/elastic theory.

f-d

¡papá gordo ain’t no madre flaca!

 

[ptdgeo]

UcfSE

I think this is where some confusion comes into play, and fattdad let me know if you don't agree because this ties in with my original question.

Yes the ultimate bearing capacity in Terzaghi's equation accounts for the overburden and even the allowable bearing capacity does after applying a factor of safety. However, the way I understand by giving a net allowable bearing pressure in a report I am attempting to convey that the overburden does not need to be added in sizing footings, I have already accounted for it and the pressure given is what should be used to size a footing based on loading condition from the proposed structure. Sometimes that pressure needs to be adjusted below the allowable bearing capacity of the soil because settlements resulting from the change in effective vertical stress induced by a footing are greater than the serviceable limits, but I still think that reduced pressure can be termed a net allowable bearing capacity because that is the total pressure that should be applied to the soil from any new loading sources that were not present at the time of exploration

I can't tell if I'm just mudding the water or making sense, but that is how I have intended a net allowable bearing pressure to be used.

Thanks for the comments.

ptd.

 

[BigH]

In my view - when you say capacity (gross, net, whatever) you are referring to a "pressure" that is based on shear. When you say pressure (gross, net, whatever) you are, again in my view, giving that based on serviceability. As said many times before, capacity seldom governs design as serviceability constraints are [blue]IT[/blue].
capacity = shear controls
pressure = settlement or other serviceability controls

 

[JAE]

I'm not a geotech either....from a structural engineering perspective the important thing is for me to correctly understand what your 300 psf or 1500 psf means.

For the above example, digging down 10 feet and placing a mat footing, I will have removed 10 feet of existing overburden and replaced that with a mat dead load, some air, and some live load.

I just want to know what pressure to check my new mat against.

What this requires is that

The structural engineer communicate to the geotech:
1. The intented configuration of the new structure with respect to the existing ground conditions.
2. The rough magnitude of the loads for use by the geotech in preparing the recommendations.

The geotechnical engineer communicate to the structural:
1. What the hell "net bearing pressure" means in light of the proposed structural configuration.
2. Lots of questions to we structurals making sure we correctly interpret your nomenclature (we structurals have thick skulls sometimes)

What you two did was great - lots of communication making sure the calculations will be correct.

Don't get lost in semantics...just make sure the semantics are understood.

 

[UcfSE]

pt, I would stick with what you said above. To me, that makes sense and seems logical, and of course agrees with what I've already thought of as net pressure as a structural dude.

Bottom line, you're the soil expert. Stick to your guns. If the SEOR decides not to listen, write a letter to the owner and copy your boss (after discussing with boss) and make sure you cya and let other parties know. You can only do so much.

 

[DRC1]

I am sorry, but my understanding of net bearing capacity is as the structural engineer explained. You are correct though, that settlement often controls, but as BigH explained, that is not bearing capacity. The difference between gross and net allowable bearing capacity has caused considerable confusion, and I think the way you handled it , by stating an allowable contact pressure that considered bearing & settlement at the given depth, is the best way to handle it.

 

[JAE]

UcfSE - huh?

I read the original post as just being a difference of opinion between struct and geotech over terminology.

What's with a letter to the owner? I don't see the point.

 

[BigH]

Structural types: Is this all why the geotechs are being pushed to LRFD designs? - I think that in the end, there will be problems for quite a while in the transition.

 

[UcfSE]

Disregard - that's what happens when I don't read the entire short story in the OP.

 

[ptdgeo]

Thanks for all the discussion; I find this site to be quite insightful.

I was curious how other folks would view the situation in the OP and if technically (terminology) there was anything wrong with how the situation was resolved. I've never been in court but have a bad habit of thinking how an attorney would argue a point if something were to ever go wrong on a project.

What I get out of the comments is that communication is the real issue. Best set of plans or report doesn't mean diddly if nobody can follow them.

Again, thanks for all the discussion.

ptd

 

[JAE]

For ptdgeo (and other geotechs out there)...for we structurals, I wonder if some sort of means of clarifying terms would be helpful in your reports. Many times I get reports from different geotechnical firms who use terms differently (at least I think they do).

Even a couple of design examples in an appendix, clarifying terms might help.

Alternatively, one thing I really value in geotechnical firms is if I have questions or need help understanding their report, they then are aggreeable to follow up with a written addenda letter to their report summarizing our discussions. I know this takes a little more time but in the best interests of the project (and avoiding future mis-interpretations) I think its a good idea.

 

[Panars]

BigH-

The push towards LRFD is not caused by confusion about terminology, but clarifying the terminology we use is a side benefit (or only benefit depending on your point of view [grin]). With LRFD, we talk about nominal resistance and factored resistance, instead of allowable capacity. Since these are new terms, it is a lot easier to be consistent with how they are used.

 

[fattdad]

Uh oh. . . Do I have to go back to college? I have no idea what LRFD, nominal resistance or factored resistance is about - sigh.

f-d

¡papá gordo ain’t no madre flaca!

 

[J1D]

ptdgeo

From the post and the discussion, it seems clear that:

1.your given 1500 psf net allowable pressure is the allowable new load pressure. The foundation and the backfill soil to replace the original soil are not new loads. They have already been accounted while determining the 1500 psf;

2.The 1500 psf is derived and governed by settlement. (e.g. to keep settlement less than 1 inch.)

However, the sentence “The 1500 psf is the 10 feet of soil (gamma total 120 pcf) plus the 300 psf increase in effective stress at that depth” is a bit confusing to me. Is the 1500 psf somehow related to 10ft thick soil with 120 pcf unit weight?

 

[fattdad]

The foundation and the backfill soil to replace the original soil are not new loads.

Technically, they are new loads - new in that after the foundation excavation is complete all you have below the foundation level is a preconsolidated elastic media, which will deform under any reapplied loading. The reason (in my mind) that we discount the weight of the foundation and the soil backfill is that these loads (and any corresponding settlement) occur prior to construction and do not contribute to any construction- or post-construction-related settlement. Considering that rarely does "bearing capacity" govern the design (and settlement does) the weight of the foundation and backfill is not relavent.

Just another perspective.

f-d

¡papá gordo ain’t no madre flaca!

 

[ptdgeo]

J1D

First, yes the pressure given was completely governed by settlement, which muddies the water a little bit when considering the difference between bearing CAPACITY, and how it is determined, and bearing PRESSURE, and how it is determined. BigH defines these two well in the comment above.

In this case, it was a “contact” pressure that was given in the report, but that brings me to my question in the OP - Could I of used the term net bearing pressure and still been technically correct.

To answer your question:

The 300 psf was the limiting amount of increase in the effective vertical stress that the underlying soils could experience to keep settlements below 1 inch. The proposed mat foundation was to have minimal dimensions of 65 feet by 45 feet, so there was going to be very little decrease in the stress induced by the mat foundation at the depth of the underlying normally consolidated to slightly overconsolidated soils.

By placing the bottom of the mat 10 feet in the ground, the foundation was being designed as a partially compensated foundation. A fully compensated foundation would be where the pressure induced from the foundation matches the weight of the soil removed, thus there is no increase in the effective vertical stress on the underlying soils. The soils at this particular site could withstand a slight increase in stress, thus the 300 psf. So, to give a pressure that needed to be used to size a partially compensated mat foundation I took the weight of the soil to be removed (10'* 120 pcf) to get 1200 psf plus the amount of increase that could be applied (300 psf) to get a contact pressure of 1500 psf. Now, in determining bearing capacity in clays and assuming undrained conditions where phi = 0 the soils cohesion is a component and the overburden above the foundation is a component and then to determine an allowable bearing capacity that value is divided by a factor of safety, usually 3. Then a net allowable bearing capacity would take into account the component from the overburden so you wouldn’t have to consider it in sizing your foundation. You simple only need the total loading from the proposed structure.

In this case the pressure given was not determined from the soils cohesion, is was determined from data obtained from consolidation tests and the soils compressibility characteristics, but 1500 psf was still the pressure that should have been used to size the foundation based solely on the total loading from the structure.

So if a foundation is to be sized solely on the loads from the proposed structure couldn’t the pressure used to size that foundation still be called a net allowable pressure, regardless if it is governed by settlement or the soils c and phi?

 

[ptdgeo]

fattdad

Good points and that is why I'm not a fan of Fully compensated foundations or "floating" foundations, plus buoyancy affects come into play if there are groundwater issues.

ptd