Statically indeterminate problem?
Statically indeterminate problem?
(OP)
I'm analysing a hollow cylindrical (shell) structure using FEA. The cylinder is supported along its length at several (15) equally spaced points and a 1g 'vertical' load applied to obtain the 'vertical' reaction forces at the constraint points. These reaction forces are used to obtain the mass distribution of the structure.
I'm well aware that this method is only approximate at best wrt determining the mass distribution. However, a member of my stress team keeps bleating on about how this problem cannot be solved by FEA because it is statically indeterminate.
Any thoughts?
I'm well aware that this method is only approximate at best wrt determining the mass distribution. However, a member of my stress team keeps bleating on about how this problem cannot be solved by FEA because it is statically indeterminate.
Any thoughts?
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RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
That said, if the cylinder is modeled as a beam element or some higher element wherein the program is using as input the second moment of inertia, the area, in at least 2 directions and the program is capable of using the stiffness method, I don't see how the statically indeterminacy has any impact.
One could use old multi support reaction diagrams and realized that the interior reactions will approach 1.0wL where w is the distributed load and L is the span length. The exterior reactions will approach 0.5wL.
This is simplified so I hope I've not missed the point.
Regards,
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RE: Statically indeterminate problem?
hopefuly you can silence the "bleating"
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
...Then pay absolutely no attention to anything else he may say about FEM........(and maybe about structures!!!)
Ed.R.
RE: Statically indeterminate problem?
I'm rapidly losing my patience with this guy at work, particularly since he doesn't support his 'thinking' with an argument of any substance (unless of course 'nothing' counts).
That said, yes, I'm looking into different methods of obtaining each 'section' mass using this method, and the more I look, the more variables seem to pop up and bite me. Someone in the office told me the old nugget that "we've been using this method for years" but I looked at some sensitivities and found some fairly big discrepancies in the RFs.
@rb1957, you're quite right - if the mass/CoG of the structure is entirely uniform at each section, then the reaction forces (RFs) reliably give the section masses (but not at the ends like you say).
My problem involves a structure with sections of (i) different mass and (ii) CoGs which do not occur at the centre of each section. If you constrain only a few nodes at each section (instead of the whole ring of the shell at each section), the RFs become 'skewed' - this replicates a condition where you have a low-rated spring supporting a relatively much stiffer structure. In this extreme case, the RFs across the structure become uniform. You have to hold the entire section to obtain the 'correct' RF and hence the correct mass. But even doing this, the method falls over big time when you have a non-uniform structure.
Gah!
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RE: Statically indeterminate problem?
In general, FEM is used to collect support reactions and internal forces induced by varies forms of distributed weight (w,p), and/or force (F,M), on a "stable" system that is either structurally determinate, or indeterminate. The system stability is achieved through varies degree of restraints, the restrains then would affect and determine how the applied weight/forces are distributed to the supports.
For example:
A) Uniformly loaded one span beam, R1 = R2 = wL/2
B) Uniformly loaded three span beam, R1 & R4 (outer supports) = 0.4 WL, R2 & R3 (int. supports) = 1.1 WL
C) Uniformly loaded four span beam, R1 & R4 (outer supports) = 0.393 WL, R2 & R4 (supports adj to outer supports) = 1.143 WL, R3 (center support) = 0.928 WL
Does your mass distribution vary with degree of restraints?
I doubt it is the case. For your case, assume equal span L between two supports in any system (1, 2,...n span), the mass on outer support may always be 0.5 mL, and interior supports always be 1.0 mL (m = mass). If this is what you need, why use FEM?
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
Seems like FEA programs and computers have made for some really dangerous engineering going on in the world these days. Someone who doesn't understand how his FEA program works, its limitations and restrictions on its use, or how to model the problem he is trying to address, can plug a bunch of number in, and out pops some numbers, called answers or solutions, which no one seems to know quite how to interpret, and that's called engineering these days. A FEA program does not an engioneer make. In fact, it scares the hell out of me, I could be standing under one of those structure some day when it fails.
Then we have this new phenomenon where we get together, in community or committee or as a team; communicate like hell and come up with a real democratic, politically correct, solution to the engineering problem. And, even if nobody on the team really knows how to get to the correct solution to the problem, it must still be better by committee, if we communicate long enough and hard enough, we can come up with a pretty good, although mostly wrong, solution to the problem. No matter how many people on the team think 2 + 2 might equal 5; and we even took a vote and 5 won; that won't often be the correct answer, even though it is quite democratic.
You really need a local mentor for these types of questions, and he/she should know more about the subject than you do, so they can offer constructive, and correct, guidance. Together, you are both looking at the same drawings, specs. and initial data, and that person can get you started in the right directions, ask you leading questions, and tell you when you are getting off track. When you guys ask your questions on these forums, you rarely give enough info. for a meaningful response, we can't see the drawings, the problem isn't well defined, so you often get a bunch of fairly good best-guess answers, which would probably be helpful if you knew what parts to pick out of them for your particular use. But, given the fact that you don't understand your own problem very well, it is unlikely that you will pick out the important, applicable, nuggets from the many answers. This forum is probably not the best place to be instructing people in the first few courses in strength of materials, theory of elasticity, structural design and analysis, or basic design in any of the building materials. They should go to college for that, get an engineering degree or a technicians degree, so they can truly start to comprehend the significant parts of the engineering problem they are looking at. And, this forum is not the right place to develop a basic understanding of the use of a FEA program either, nor will that program compensate for lack of basic engineering understanding of the problem.
I believe that the respondents genuinely want to be helpful, but as often as not they can't, they don't see the whole picture and can only give half answers, which might then be misused. It seems to me that at times, we are perpetuating, tolerating, condoning or encouraging, people who have no business doing engineering, to pretend they are engineers. Worse yet, they may be designing something which could really be dangerous, and hurt someone. "We've been using this method for years" might be a good answer here, particularly if none of them, whatever THEY are, have failed in the past. Because, there isn't much evidence that this forum exchange is really leading to a better more accurate solution to whatever the problem is.
RE: Statically indeterminate problem?
Even accounting for varying sections along the length etc, this would seem a simple problem.
Have you any other info to help make yourself clearer if the problem is in fact different from the simple one i'm seeing in my head?
RE: Statically indeterminate problem?
That's probably the best post I have ever seen!
www.Roshaz.com
RE: Statically indeterminate problem?
I'll just say that consensus support of a wrong answer doesn't make it correct.
Michael.
Timing has a lot to do with the outcome of a rain dance.
RE: Statically indeterminate problem?
Sermons and irrelevant blurting aside, this is a perfectly reasonable approach at approximating the mass distribution for this type of structure, given we have an understanding of its limitations.
"In most structure's, hear [sic] on earth, the weight () [sic] distribution of the structure and any superimposed loads dictates the reaction forces."
Exactly. Hence, why it is entirely reasonable to do the reverse. From the reaction forces we can approximate - in some cases get the exact - mass distribution for a given structure, given an understanding of the structure and the assumptions of the mathematical model we use. It's what engineers do - here's an equation: we use it to find an unknown, given some knowns and then use the equation again to find another unknown given some knowns. It's mathematics. Pure and simple.
Amen.
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RE: Statically indeterminate problem?
good to see you have got up to speed with this forum posting. I think you have hit on a few very good points, I agree with everything but the last line. If there was a post of the year i think you would go close to getting it.
Arguing with an engineer is like wrestling with a pig in mud. After a while you realize that they like it
RE: Statically indeterminate problem?
Best of luck to you and I hope no one poops in your Luck Charms tomorrow.
Regards,
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RE: Statically indeterminate problem?
Apply a 1g body acceleration to the structure perpendicular to its 10m length (let's call this a vertical 1g load). Let's assume that each 1m long section of the can has a mass of 10kg. From simple statics, the sum of the vertical reaction forces at each support location will give the following in terms of the mass acting at that point:
MassRF (ends) = 10/2
MassRF (mid-points) = 10
Hence, the mass distribution is:
5,10,10,10.....,5
From this simple case we can find the section masses easily. This is similar to the problem I am working on.
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RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
------------
See FAQ569-1083: Asking questions the smart way on Eng-Tips fora for details on how to make best use of Eng-Tips.com
RE: Statically indeterminate problem?
------------
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RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
Answering your main question - yes FEM is perfectly suited to solving indetermninant structural problems. If it was determinant, why would you waste your time, you can normally do it quicker on a piece of paper as some above have suggested and get exactly the same answer.
In fact, the simple case you have suggested above (though indeterminant) would be solved by most engineers who understand simple statics on a piece of paper in 2 or 3 minutes using simple beam theory (or even quicker by looking up a simple formula in the steel designers manual or many other texts) and the answer would NOT be 5, 10, 10, 10,..., 5! It would only be the answer you have suggested if the cylinder was not continuous at each support i.e. a series of determinant cylinders.
But this solution assumes a flexural member which structural engineers deal with all of the time. Your 1m diameter cylinder with 1m spans is not a flexural member so normal plate or 2D beam elements could not be used to model it accurately in FEM. It would have to be modelled as a cylindrical shell. It would be interesting to compare the results to everyones flexural member results to see the difference.
dhengr,
I have been expressing the same views for a few years. It is worrying.
RE: Statically indeterminate problem?
Respect perpetuation of error, heavens, I know as much of some esoterical matters as on technical as to know that in such "mad" books there are diamonds of intelligence included, far more true than our technical matters. I will quote a boisterous god in Oahspe:
"I am Haoma, who distroys the Libraries to prevent the perpetuation of human errors"
That all is mathematics?... a platonic ideal world, or a real one, but not for us ... the gnostic Job:
"Where is understanding? Between the living, it is not"
RE: Statically indeterminate problem?
If you want a rational, useful comment about FE, mine would be it's all about RELATIVE STIFFNESS.
Making a node a support point makes it infinitely stiff, and the structure around it is clearly not, so I tend to use springs to get closer to what I would expect in a hand calc. Then I repeat with different stiffnesses to really peg what is and what is not important.
In a statically determinate system, using springs versus a rigid support makes no difference, because statics alone are sufficient to solve for reactions.
By the way, it's indeterminate, not indeterminant.
tg
RE: Statically indeterminate problem?
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RE: Statically indeterminate problem?
I would have to agree that relative stiffness is the key here.
Hey, guess what, there actually are bending forces on trusses!!!
You know what else? The load distribution in some trusses wont be what your statics book tells you they will be.
It is really nice that the problems dont have member sizes on them because that can make them a little more tricky.
Try doing a hand analysis of a braced tower and then changing some of the brace sizes...your hand calc will show the same load in the brace, which is, of course, not reality....not even close to reality.
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
I hope you are allowing for construction sequence in your truss analysis, rather than treating the whole trus as one completed structure, or your answers will be wrong too, possinbly by more!!
No-one is suggesting that complex structures should be analysed by hand thesedays, if a computer program can do it faster and better! But they are suggesting that the designer understand enough about statics to check the results that the computer is giving him and have enough experience to know what results to expect, or when the results look doubtful.
The example given above is not a complex structure. Its solution is relatively simple and can be done quicker and as accurately by hand.
To give an example of a complex structure that is often done by computer and whose results are significantly unconservative, consider a multistorey building with a transfer member at the bottom. Many people analyse this on an FEM program to determine the reactions the transfer member has to be designed for. But they do not allow for construction sequence, just a single complete structure. The results are way out! Yes, a hand calculation based on tributary areas is possible as inaccurate, but on the conservative side. I know which I prefer.
Just learn to believe your engineering judgement before the computer when assessing the results, if you have developed any yet!
RE: Statically indeterminate problem?
BTW...in working the power industry for a few years (top supported boilers weighing 30,000+ kips), I am quite familiar with running analysis for construction.
RE: Statically indeterminate problem?
RE: Statically indeterminate problem?
Are you trying to back out the mass distribution in this hollow cylindrical structure by measuring the reaction forces on the supports? In other words is there some type of loading that can change inside the structure like filling with a liquid or granular substance? The mass distribution for the dead load can be gotten using a 3D CAD system will little trouble.
TOP
CSWP, BSSE
www.engtran.com www.niswug.org
"Node news is good news."
RE: Statically indeterminate problem?
I'm not sure if this really adds anything to the discussion.
As far as I know FEA can solve a beam in two spans. And since that is statically indeterminate that should answer the original question.
Regards
Thomas
RE: Statically indeterminate problem?