When I am doing a WPQR test, I count the number of passes to fill a joint and determine the cross sectional area of the groove. I then figure the area per pass, multiply by 12 inches and by .2836 (weight of steel per cubic inch) to calculate the weight of weld per foot per pass. I get the time and length for each pass so I can calculate the average travel speed and then the pounds per hour.
From what I've seen most people don't bother to time each pass or record the length of a WPQR. I do it to satisfy my curiosity and to have the data for the occasional picky customer. Also I can better estimate the "operator factor" because most data doesn't include time for interpass cleaning, coffee breaks, and so forth. (Usually the production managers forget that part of welding.)
I have found, so far, that electrode manufacturer's published data is very close to my results on the FCAW, SAW, and SMAW consumables we have used.
So actually, what you need is the weight of deposited weld metal and the time. If you have the electrode consumption weight only, then you can determine how much electrode you need for similar welds, but it isn't the actual deposition rate.
You may not have wanted to get into it that far, but I hope it helps.
CHGuilford
Brian,
I have a visual basic program I wrote that will help you calculate the volume of a given weld joint based on joint geometry. It will also compare the cost of two welding processes if you have all of the variables.
It's not fancy but it may be of use and costs nothing.
Let me know and I will e-mail you the link to where it can be downloaded.
Gerald Austin
IUka, Mississippi