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Profile and Actual Zone

This is a little more of a GD&T standards question as opposed to a PC-DMIS question-- and probably a rudimentary question at that:  According to ASME Y14.5.1 2019, to report out a profile, you take the extreme point on whatever side of the true profile it is, and double it to get the "actual zone."  This is how profile is to be reported whether we're checking the profile manually with an indicator or using inspection software.  My question is why is this the way to calculate it as opposed to adding the highs and lows together (FIM) like a form or orientation inspection?  Engineers have asked me about this before and the most elementary way of answering it was to tell them that the profile result was representing what the profile tolerance "would have to be" in order to pass because doubling that value created a new zone (actual MMB and actual LMB).  I'm still not entirely sure why.

For the record, I never read the actual ASME Y14.5.1 2019 text; I only watched videos about it so there's a good chance that I'm missing info.

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  • It can.  However, legacy is relative to the active alignment which is not always equivalent to the Geometric Tolerance command's datum fitting.  Unless your datums are three, orthogonal planes and you have created a constructed primary plane, constructed secondary line and constructed tertiary point for your alignment, the datum fitting will be different.  Dimensioning individual points using legacy also has other restrictions, such as not being able to include material conditions on the datum(s), not being able to perform simultaneous evaluations, not being able to support dynamic profile etc.

    Using Geometric Tolerance commands with graphical and textual analysis enabled provides the correct result as well as showing what is going on.

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