TEST WITH H1000 THAT SHOULD HAVE BEEN INCLUDED IN THE WATER SOAK TEST:
In the H1000 Water Soak test, a test outlined in the first post of this thread, what is the weight loss profile of the water soaked charge compared to a dry charge of the same powder type and lot?
A test sample of 55.06 grains, dry H1000, lot 8 1122003725 (same lot as in Water Soak Test) was placed in a glass vile and covered with water at 7:57 hrs. on 8/2/2011.
At about 8:34 hrs., 8/3/2011 (after the powder was under water 24 hours, 37 minutes), the water and charge of H1000 were dumped onto a paper towel placed over a stainless steel bowl. The powder charge was dried as much as possible with the first paper towel and then dried further with a second paper towel. The powder charge was then dumped into an aluminum powder pan, spread out evenly in the pan and placed on an A&D model 310 electronic balance. A 3.5” diameter fan, placed four feet from the balance kept air flowing over the powder pan. The test results follow:
………………………TEST SAMPLE (55.06 gr. dry H1000 + 1.14 gr. water)
Time………….Charge + Added ……………….Wt. Change Relative To
…………………Water, grains…………………...Dry Test Sample, grains
……………..(AC in shop on from 8/3 to 8/4)
8:43 (8/3).….…..56.20.………..................................+1.14
8:53 ……………55.88.…….…………………….......+0.82
9:03.…………....55.76.…………………………........+0.70
9:13.…………....55.70.……….………………….......+0.64
10:03.…………..55.52………………..…......…........+0.46
11:04...…………55.36.………………..….................+0.30
12:56.…………..55.22.…………………………........+0.16
15:56.…………..55.09.…………………………........+0.03
18:13 (8/3)……..55.00.………………………….........-0.06
6:54 (8/4)………54.98.…………………………..…...-0.08
20:36 (8/4)……..54.96.…………………………..…...-0.10
…………….(AC in shop off from 8/4 to 8/8)
17:15 (8/8)……..54.92.……………………………......-0.14
…………….(AC in shop on from 8/8 to 8/11)
18:53 (8/10)……54.84.……………………………......-0.22
18:53 (8/11)……54.86.……………………………......-.020 (-0.36%)
……………………….CONTROL SAMPLE (71.18 gr. dry H1000 with no water added)
Time………….Charge + water, ………………….Wt. Change Relative to
…………………grains……………………………..Initial Control Sample, grains
…………………(AC in shop, on from 8/3 to 8/4)
16:00 (8/3)………71.18
18:15.……………71.10.…………………..……….....-0.08
19:38 (8/3)……...71.08.……………………………....-0.10
6:56 (8/4)……….71.08.………………….……...........-0.10
20:38 (8/4)……...71.08.……………………………....-0.10
…………………(AC in shop, off from 8/4 to 8/8)
17:17 (8/8)………..71.08.……………………………...-0.10
…………………(AC in shop, on from 8/8 to 8/11)
18:54 (8/10)………70.96.……………………………...-0.22
18:56 (8/11)………70.98.……………………………...-0.20 (-0.28%)
The Control Sample was exposed to the atmosphere at approximately the time that the wet Test Sample had lost most of its added water.
The temperature in the test area was maintained at a temperature of 80 F to 82 F at a dew point of approximately 60 F by a small AC unit, between the time of 8:43 hours, 8/3/11 to 6:56 hours, 8/4/11.
At approximately 6:56 hours, 8/4/11, the small AC unit was turned off over the next 4 days and 10.35 hours. During the 4 day and 10.35 hour period the AC unit was off, the maximum temperature within the test area increased to a maximum temperature of approximately 91 F.
The AC unit was turned on for the remainder of the test, starting at 17:17 hours, 8/8/11 and ending at 18:56 hours, 8/11/11.
By interpolating the TEST SAMPLE data, it can be estimated that the water soaked charge lost the water added by soaking, and possibly other substances, in approximately 8 hours. Over the following eight days and approximately two hours, both the TEST SAMPLE and CONTROL SAMPLE lost weight at approximately the same rate.
The rate at which the TEST SAMPLE lost weight equivalent to the 1.14 grains of added water was approximately eight hours as stated above but the time required to loose an additional 0.20 grains weight was 194 hours. Thus the weight loss per hour of the TEST SAMPLE for the first 8-hours of the test, on average, was approximately 553 times greater than its weight loss per hour over the last 194-hours of the test.
TEST WITH N165 IN AN OPEN GLASS VILE:
This test for N165 powder is unrelated to the test above. This test was conducted while loading a considerable number of rounds for 1000 yard and 600 yard matches for a 6x52 cartridge using N165 powder, DTAC 115 grain bullets, Wolf primers and Lapua brass. It would be interesting to measure the weight change of the N165 powder during the loading process but it would be impractical to measure the powder weight change in the powder measure hopper since powder was continuously being added and discharged during the cartridge loading process.
To test the N165 weight change, a charge of 41.72 grains N165, lot 802-04, was placed in a glass vile. The vile was opened only during the period when the match cases were being charged with powder, bullets seated and cartridge run-out was checked (previous to this test, cases were prepared and primed and bullets selected). The open vile, with the N165 charge inside, served to simulate a powder measure during the period when the cases were being charged. But the open vile should represent a more severe situation since the powder charge inside the open vile was exposed to the atmosphere during the entire test. During the test the actual powder measure hopper was replenished numerous times from a closed powder container and the hopper emptied at night into the manufacturer’s powder container which was then closed tight. The test ran over parts of three days, thus included two nights when the open vile was also closed tightly.
A second glass vile served as a control and the control vile would remain closed during the entire test. A charge of 41.86 grains of N165, lot 802-04, was placed in the control vile.
The time required to charge, seat bullets and check run-out on the ammunition was 17 hours and 2 minutes. Thus the open test vile with the N165 test charge was exposed to the atmosphere 17 hours and 2 minutes.
The results are short and sweet: There was no weight change of the test powder charge in the open vile over the 17 hours 2 minutes exposure to the atmosphere and there was no weight change of the powder charge in the control vile, which remained closed during the entire test. (In about the 11 th. post of this thread, a similar test with N165, conducted in 2005, is described but that test involved N165 of a different powder lot than lot no. 802-04 used in this test, TEST WITH N165 IN AN OPEN GLASS VILE.)
Henry Childs
