Monday, March 10, 2008

Process Capability

I had some parts made recently that were formed on a press brake. There was one critical dimension, the width of an opening. The specification limits on the width of an opening was 3.13" to 3.19". The limits were decided as most of these things are by a long meeting.

The fabricator made an initial three items to tune the press brake settings. The opening width on the first three items was 3.1870, 3.1880, and 3.1745.

The opening width for the run on the successive items, produced after the press brake program was finalized, are as follows:

The mean on those items is 3.1792
and the standard deviation is .0068

We can now calculate the Cpk for the process. Cpk is given by (See the discussion here)


Cpk= min(.52, 2.4)

Therefore, Cpk=.52. Another way of looking at this is a Cpk=0.5 gives 6.68% nonconforming fraction. This can be seen in the graph below.

Looking at the mean as opposed to the specification limits we see that the process is not centered within the specification limits. Given the process standard deviation we calculate what the process ought to be capable of doing.

We calculate Cp=1.47. This is pretty good.

Hmmm. A Cpk=.52 and Cp=1.47, it seems that all we need to do is center the process within the specification limits. A few words are in order now.

This was a small run. The fabricator had deliberately decentered the process with my knowledge. There were some other design features that the fabricator was worried about destroying if the opening was too narrow. So we opted to go wide. This resulted in having to inspect every item to ensure that the specification was met.

For a small run such as this it was not a hardship. For a really large run the optimal solution would have been to do some minor redesign to allow the process to run centered. This is a much more robust solution than inspecting each item for acceptability.

Finally, this data was not from a true capability study. I analyzed the data to satisfy my curiosity about the process capability. For a true study I would need to verify that the process was stable and check that the data is normally distributed.


Anonymous Mike said...

Hello, I am a young mechanical designer and just stumbled upon your blog. It is very interesting. This part about tolerancing struck me because i am in the same boat. Very low quantities of parts are manufactured at my company so tolerances have never been an issue. Yet everytime a design is released i feel like i am neglecting to do my job to the fullest extent. Anyhow i liked this post. Keep it up.

Tuesday, May 06, 2008  
Anonymous Gears Manufacturers said...

Hey, thanks for a interesting post. If anyone require industrial gears, please contact ashoka group.

Thursday, July 29, 2010  
Anonymous JonTheEngineer said...

Fantastic post. I'm glad to see another fellow engineer trying to help the young engineers out there become successful by letting them know the tips and tricks necessary to make it in industry.

Thursday, February 17, 2011  
Blogger manisha said...

Lot of <Mechanical Engineering information is found on this blog. Thanks for sharing the nice information about mechanical Engineering.

Friday, June 29, 2012  
Blogger Charles Brawnyson said...

This is such an awesome blog! Do you know if it's a good career choice to bw a mechanical engineer in calgary? I've been thinking about it and have some questions. Thanks!

Thursday, March 07, 2013  
Anonymous Resolve India said...

Hey..Thanks for the post.

Wednesday, August 28, 2013  
Anonymous Process Capability said...

Hi,Thanks for unique information provided on your Blog.

I really appreciate your works, collection and information about Process Capability article.

Many Thanks.

Thursday, March 22, 2018  

Post a Comment

Links to this post:

Create a Link

<< Home