Design and Engineering Forum
[Home] [Design Resources] [Technology Store]
[Archive#1] [Archive #2] [Archive #3] [Calculators]

Concentricity Vs Positional tolerance (and their relation to TIR)
Post Reply   Forum
Posted by: Venkataraghavan

01/03/2003, 09:49:09

Edit
Hi there,

Seasons greetings and a Happy New year.

I want some good explanation from any of you experts. I have a cylindrical component with 2 diameters. This is a deep drawn and turned Stainless steel component. The drg calls for a positional tolerance of dia 0.15 for the smaller diameter w.r.t. the larger diameter. A few questions now.

Measurement: I mount the component on a mandrel such that the larger dia is located and I then measure the TIR on the smaller dia with a dial indicator.

What does this TIR reading give?
Would this TIR divided by two give me the concentricity?
Is this concentricity the same as the positional tolerance that I want ?
Or is there a specific relation between concentricity and positional tolerance.

If Concentricity and Positional tolerance in this case is same, then why would one want Positional tolerance?

Is the above method of measurement correct at all.

Or should I go for a CMM.

Would appreciate your quick and detailed responses.

thanks

Venkat












Post Reply | Recommend | Alert Rate View All   | Next |

Replies to this message


Re: Re: Concentricity Vs Positional tolerance (and their relation to TIR)
Re: Concentricity Vs Positional tolerance (and their relation to TIR) -- Venkataraghavan Post Reply Top of thread Forum
Posted by: DEEPAK JAIN

04/03/2003, 10:10:20

Edit
: : Hi there,

: : Seasons greetings and a Happy New year.

: : I want some good explanation from any of you experts. I have a cylindrical component with 2 diameters. This is a deep drawn and turned Stainless steel component. The drg calls for a positional tolerance of dia 0.15 for the smaller diameter w.r.t. the larger diameter. A few questions now.

: : Measurement: I mount the component on a mandrel such that the larger dia is located and I then measure the TIR on the smaller dia with a dial indicator.

: : What does this TIR reading give?
: : Would this TIR divided by two give me the concentricity?
: : Is this concentricity the same as the positional tolerance that I want ?
: : Or is there a specific relation between concentricity and positional tolerance.

: : If Concentricity and Positional tolerance in this case is same, then why would one want Positional tolerance?

: : Is the above method of measurement correct at all.

: : Or should I go for a CMM.

: : Would appreciate your quick and detailed responses.

: : thanks

: : Venkat

: Yes, you should go for a CMM measurement.
: Your drawing calls for a true position, and CMM is the best tool to do it. True positional tolerance may be explained in either of the following ways:
: 1 - in terms of the surface of a hole - while maintaining the specified size limits of the hole, no element of the hole surface shall be inside a theoretical boundary located at true position;
: 2 - in terms of the axis of the hole - where a hole is at MMC (minimum diameter), its axis must fall within a cylindrical tolerance zone whose axis is located at true position.

: Positional tolerance is type of a coaxial tolerance, and the parts do not have to be rotating during the CMM measurement, nor in the real life application.

: Concentricity is mainly used to tolerance the parts rotating at high speed, where out of balance condition would be a problem.
: For concentricity, the locations of the midpoints of diametrically opposed feature elements are controlled relative to the axis of the datum feature. Concentricity can only be used on a RFS basis, so it is more stricter then true position. Measurement setup requires at least two indicators at 180 degree to each other, rotating the part and noting the readings of both indicators at each "clock" position, after that doing some math, as to determine the cloud of the median point and so forth - very long and time consuming process.

: The way you were proposing to do a measurement, would be appropriate for measuring the runout, which is a composite of a circularity (another name for roundness) and concentricity, thus you would be trying to do more then asked for. As explained by Randy, this is more complicated that it looks. So, again, go for the CMM and check just the true position.

: Jacek
:













Post Reply | Recommend | Alert Rate Where am I? Original Top of thread
Re: Concentricity Vs Positional tolerance (and their relation to TIR)
Re: Concentricity Vs Positional tolerance (and their relation to TIR) -- Venkataraghavan Post Reply Top of thread Forum
Posted by: John-Paul Belanger

01/09/2003, 11:06:32

Edit
I'll also add my take on this question...
Concentricity, runout, and position can all be used to control the general quality of "coaxiality". When you speak of TIR, that is checking runout, because you are not only measuring the alignment, but the circularity of the diameter. So this is not what your drawing specified.
Position and concentricity are similar in that they tolerance the axis-to-axis alignment, but how the axis is derived is different. Concentricity asks you to derive the center point of each cross-section along the piece, and each of those center points must be within an imaginary cylinder of 0.15. This is difficult to measure, and the CMM is probably the best way.
Finally, position is usually the most common choice, and it asks for the axis to be derived from the "mating envelope". This means a perfect cylinder formed by the outermost points of the part -- so the circularity is not a factor here. The axis of this outer envelope must now fall within a dia. 0.15 around the datum axis. A CMM may be used again, but the axis to measure is taken from the outermost points, not a best fit.













Post Reply Powered by Engineers Edge

© Copyright 2000 - 2024, by Engineers Edge, LLC All rights reserved.  Disclaimer