The tolerance for volume of a drive cylinder is +/- 1.0 percent of the average volume. You may "calibrate" your cylinders by the following:
For each cylinder selected to represent a shipment or "lot" of cylinders, measure the inside diameter to the nearest 0.010 inches at four equally spaced locations at the cutting edge of the cylinder. Do not measure at the seams if using welded tubes. Calculate the average of these readings.
Measure the height to the nearest 0.010 inches at four equally spaced locations around the cylinder. Calculate the average of these readings.
Using the average diameter and height, calculate the volume to the nearest 0.01 cubic inches.
To obtain the mold factor, if cubic feet is desired, divide the number of cubic inches by 1728. (Report to four decimal places)
The mold factors may then be averaged to obtain a standard.
If more than one cylinder sampled, does not fall within 1% of the standard mold factor or volume , then that standard may be used for all cylinders in the shipment.
If all cylinders sampled, except for 1, do not fall within 1% of the standard, then either return the shipment or calculate individual mold factors for each cylinder.
Determine the mass for each cylinder to the nearest 1.0
gram.
This procedure should be used for new cylinders. If you want to re-check old cylinders, first be sure that they are in good condition, not bent, have no significant "dings" in the cutting edges, and are round.
You may cross-check your volume results by putting a cylinder on a piece of glass, then use hot wax to seal the bottom of the cylinder to the glass (put wax on outside only). Weigh the assembly to nearest 0.01g. Fill the cylinder with water and with the miniscus of the water above the edge of the drive cylinder, place another piece of glass (pre-weighed to same accuracy) on the top of the drive cylinder to achieve a flat water surface. Dry any water spillage from the assembly and re-weigh the assembly. Subtract the "hardware" weights, leaving only the water weight. Assuming this is done at somewhere near 70 degrees F, then compute the absolute volume of the water from its weight and density.
Ron
