New Post powerhound (Mechanical)
4 Dec 13 23:01
Well it looks like the big misunderstanding is what you were responding to. The original question was if perpendicularity was a refinement of CONCENTRICITY, not cylindricity. This explains what appeared to be an unrelated tangent. I was wondering why cylindricity was suddenly an issue.
[highlight #EF2929]I think it is very important to understand the difference between cylindricity, concentricity, coaxiality, circularity, runout, and total runout. The point I was making was simply that total runout is much easier to measure. If you don't need cylindricity (and look at what those things mean in the standard), then why use it, and that is difficult and very expensive to measure. You will need expensive CMM equipment to do that. And it is debatable if that even does the job right. OK? Total Runout can easily be measured with a dial indicator.[/highlight]
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But only for a theoretical datum reference frame is this true (chapter 4).
The implied 90 rule has nothing to do with any datum reference frame, theoretical or not. Help me understand why you say the implied 90 rule only applies in such a case.
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So if you never do that, and you just assume on a drawing that your datum features are always 90 degrees perpendicular, well, there is no equipment on the planet, known to man, that can help you to find three orthogonal datums that are 90 degrees to each other, and measure anything against that.
The implied 90 rule uses the default angular tolerance so it's not assumed to be a basic 90. The standard says that a datum reference frame is made up of three mutually perpendicular planes. They are all oriented at a basic 90 degree angle to each other. Datums are perfect, datum features are not. Datum simulators are as close to perfect as possible and we accept that they are close enough to perfect to be considered perfect, even though we know that they really aren't. Parts are checked on surface plates and angle plate every day. Gauge pins are used to check hole diameters and to establish datum axes every day. We do not find datum planes, we establish them with datum features and datum simulators.
Can you do me a favor? Can you read ASME Y14.5 M either 2005, or 2009, Chapter 4, first page to last page, (because they are very different now, MMB as opposed to MMC), and just see, and understand how we establish a Datum Reference Frame. You must do this with features, usually, the features that are most critical to function. Your datums, such as they may be, can only be established by features. And that will never be perfect. But at least now, you can establish the relationship of one to the other within a tolerance, and that can now be directly measured. Right? Now, every other feature on your part will reference those datums that you just established. And they will be related to such, according to whatever tolerance you specify, and can now be similarly measured.[highlight red][highlight #EF2929][/highlight][/highlight]
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And you are probably right. I probably need lots of help for a lot of different reasons. But that's outside of the scope of our discussion! Fair is fair!
Your reference to cylindricity at MMC wrt a datum is within the scope of what we're talking about because it's what drew me into the thread to begin with and you seem to be defending your position on it since you are not backing off of it or acknowledging that you were wrong about it. Do you really think this is a GD&T legal callout?
[highlight #EF2929]NO, ABSOLUTELY NOT[/highlight]
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See now, you thought I meant something that I didn't mean, and that I said what I meant, and that was what you understood it to mean, and it wasn't meant at all, and it wasn't the way you understood it. And now you have an interpretation problem!
Here's what you said:
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Is it possible that a cylindrical feature could be cylindrical wrt a datum axis established by that datum feature at say MMC...
"cylindrical wrt a datum axis..." <==this says you think cylindricity can be referenced to a datum.
"at say MMC..." <==this says you think cylindricity can be modified at MMC.
So what is it that I'm misinterpreting...or do you think these things can actually be legally done?
NO. Cylindricity is nothing like a positional tolerance. And you are correct about that![highlight #EF2929][/highlight]
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Interesting, isn't it, how ASME Y14.5M is supposed to communicate clearly a designer's intent? Yet I find there is a lot of confusion out there, even amongst some of the best engineers!
I can assure you that while I still don't know every single thing in the standard, I'm not the least bit confused about anything you and I have discussed.
That is great news! And I am honored! OK?[highlight #EF2929][/highlight]
![[bigsmile]](/data/assets/smilies/bigsmile.gif "[bigsmile] [bigsmile]")
