Re: Tolerance in text

[Geoff Lane <geoff -at- gjctech -dot- co -dot- uk>]

On Tuesday, February 21, 2006, Jonathan West wrote;

>> Perhaps as important is implied tolerance. Any dimension has an
>> implicit rounding tolerance. So, "25 mm" actually means
>> "25 mm + 0.49 mm / - 0.50 mm" because any dimension in that range
>> rounds to 25 mm to the nearest millimetre, which is the accuracy
>> implied by omitting the first decimal place.

> I disagree with this concept of implied tolerance. My disagreement comes
> from my background as an author and/or editor of several thousand pages of
> national and international standards, where the correct writing and
> understanding of tolerances is important.
---

FWIW, I have to disagree with your disagreement. My disagreement comes
from decades on the "shop floor" in a variety of disciplines (and
another couple of decades writing about it) -- not from a theoretical
standpoint. If you're building a ship 254 ft long, the actual finished
length is permitted to be no less than 253 ft 6 in and must be less
than 254 foot 6 in. The naval architect doesn't need to write the
tolerance because *in that industry* the implied tolerance is
understood.

Theorists can pontificate all they want. They can say that no
inferences shall be made, but shop floor practices can make those
inferences. If nothing else, the precision with which a dimension is
given implies the precision with which you must measure it.

How tolerance is implied depends on the industry, which IIRC the OP
didn't specify. I'll grant that many industries don't infer accuracy
from the way a dimension is written. However consider the following
examples:

1. 250 ft ± 1 in

   Without the explicit tolerance, the implied tolerance is five feet.
   Thus, the specified tolerance tells workers that the implied
   tolerance is too inaccurate. The specified tolerance gives the
   order of accuracy required. Because the tolerance is given to the
   nearest inch, in some industries the worker is entitled to work to
   the nearest inch and the finished dimension would be accepted if
   more than 249 feet 10 1/2 inches and less than 250 feet 1 1/2
   inches.

   You can check this dimension with a surveyor's tape because it is
   accurate enough over the specified distance.

2. 250 ft 0 in ± 1.0 in

   Without the explicit tolerance, the implied tolerance is half an
   inch. Again, the specified tolerance tells workers that the implied
   tolerance is too inaccurate and indicates the degree of accuracy
   required. Because the first decimal place is specified, the worker
   must work to the nearest tenth of an inch and the work would be
   accepted only if the finished dimension is greater than or equal
   to 249 ft 10.95 inches and less than 250 ft 1.05 inches.

   You cannot check this dimension with a surveyor's tape because it
   isn't accurate enough.

So while the two specifications might seem equivalent they are not.
*In some industries*, the precision way in which a dimension is
specified can indicate how critical is that dimension.

Consider the following example for a pin diameter to fit a 25 mm hole:

3. 25 mm + 0 / - 0.5 mm

   This is so obviously a loose fit (and with a half millimetre
   tolerance, a "rattling good fit" at that). The implied accuracy for
   the oversize is absolute whereas the implied accuracy for the
   undersize is less rigorous. Functionally, it probably wouldn't
   matter if the pin came out at 24.497 mm. However, it would if the
   pin were 25.001 mm because that would take the fit into a different
   class.

   Now 24.975 ± 0.25 mm might at first glance seem the same as example
   3 - but it is not. Example 3 implies a loose fit that the symmetric
   tolerance does not. Does it make a difference? Resoundingly, "Yes!"
   If you can infer that a loose fit is required and the assembly
   binds, you can adjust things to meet the designer's intentions.
   It's part of that thing we call "craftsmanship".

During my apprenticeship I was taught to infer the criticalness of a
dimension from the accuracy with which that dimension was given.
During my journeyman's time, I learned to concentrate on critical
dimensions and to use pragmatism on all others. Critical dimensions
must be checked, but non-critical dimensions can be transferred, etc.
without measurement. I learned that it was unacceptable to waste time
and money on getting something "just so" for no functional benefit.

The bottom line is to identify industry practices and write
accordingly. If a dimension is critical, those practices might require
the specification you write to imply that. That said, identifying how
critical is a dimension and writing accordingly will not be
misinterpreted even in industries that do not infer tolerances. At the
very least, it's good practice to indicate the precision with which
each dimension must be measured.

-- 
Geoff

^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

WebWorks ePublisher Pro for Word features support for every major Help
format plus PDF, HTML and more. Flexible, precise, and efficient content 
delivery. Try it today!. http://www.webworks.com/techwr-l 

Doc-To-Help includes a one-click RoboHelp project converter. It's that easy.  Watch the demo at http://www.componentone.com/TECHWRL/DocToHelp2005

---
You are currently subscribed to TECHWR-L as archive -at- infoinfocus -dot- com -dot- 

To unsubscribe send a blank email to 
techwr-l-unsubscribe -at- lists -dot- techwr-l -dot- com
or visit http://lists.techwr-l.com/mailman/options/techwr-l/archive%40infoinfocus.com

To subscribe, send a blank email to techwr-l-join -at- lists -dot- techwr-l -dot- com

Send administrative questions to lisa -at- techwr-l -dot- com -dot-  Visit
http://www.techwr-l.com/techwhirl/ for more resources and info.