3 5 grains of 75mm KNER, intended to be a reload for a Loki 76/6000 case.
4 with Loki-style #36 short nozzle. Grains to be cast 5.25" long using Delrin
5 coring rods of 0.75" diameter. Liner calculates to be 28 inches long. Will
6 "glue" grains in liner using clear silicone and o-ring spacers.
8 Nakka's SRM spreadsheet suggests this could be an 84% L968, with 3473g
9 of propellant, a 4.88 second burn time, and max pressure of 655psi.
11 Will mix a 3500g batch, the formula for which is:
14 * 35% Erythritol, 1225g
16 I started by setting the multi-cooker to 300F indicated for this batch, but
17 had to turn that up to 350F to get the entire batch melted, or the heating
18 element would keep turning off. It still took a very long time to all melt.
19 Once it did, I dialed back to 300F indicated. It's true that the ambient
20 temperature was lower in the shop than on other days I've cast sugar.
22 The 5.25" grains were poured to a 122mm fill line, and then an 0.75" Delrin
23 coring rod was twisted down into the goo puncturing foil over the coring rod
24 hole at the grain base. A casting cap was then placed over the top to hold
25 the coring rod centered and protect the grain during cooling.
27 The first four grains poured easily. There was enough propellant sticking
28 high on the sides of the pot that I couldn't figure out how to break loose,
29 though, that I paused and added 3 old 38mm KNER grains to the pot and waited
30 for them to melt and get mixed in before casting the last grain. The last
31 grain was also problematic in that the casting cap didn't want to go down
32 over the casting tube, perhaps due to a bit of KNER splash already hardening
33 on the outside of the tube?
35 I noted that there were lots of small bubbles visible on the surface
36 of the melt, all of which were popping easily at the time of the pour. I did
37 the usual thing of twisting the coring rod as it went in and saw bubbles
38 come to the grain surface, then tapped each grain on the table top after the
39 cap was on to hopefully further settle the propellant. It's hard to imagine
40 vacuuming KNER helping this, as the KN wants to settle to the bottom of the
41 pot, requiring re-stirring to homogonize the mixture before pouring... which
42 necessarily lets more air back in?
46 The grains came out very poorly, with lots of cracks and voids. My guess is
47 that since the shop was colder than normal, and I could see massive amounts
48 of propellant solidifying on the sides of the multi-cooker, that rapid and/or
49 differential cooling as the propellant was being poured into cold casting
50 tubes and cold Delrin coring rods were inserted was the root cause.
52 The only credible choice is to set them aside to be re-melted in a future
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