I used my foundry to melt and cast my materials into a 6 muffin pan sized ingots and had the local scrap recycler test them.
Listed below, but the names don't line up with the columns.
Up until now I always purchased all the ammo assembled and now am collecting everything needed to get into reloading.
All I need now is the electric pot to melt it in.
The guns I intend on reloading and casting for right now is an H&R single shot in 300 BLK (Lee 240 grain subsonic), an AR-10 in 45 Raptor (Lee 300 grain gas checked) and on the softer pure lead side a couple black powder revolvers and shotgun 7/8 slugs and #4 Buckshot.
I eventually want molds for every caliber I own but that's it for now.
I have some antimony in the Pewter but when I blend it with the lead that will dilute.
Now, about the copper, has anyone tested alloys using something like dissolved copper, titanium or other metals to increase the hardness for those of us short on Antimony?
Also, what about projectiles made out of straight Pewter if that was all you had?
Materials on hand for reloading.
Material Tin Antimony Lead Copper Titanium Iron Chromium
ID # Pewter Sn Sb Pb Cu Ti Fe Cr
P1 Pewter 89 5 0.14 3.49 0.45 0.65 0
P2 Pewter 91 4 0.28 2.9 0.7 0 0
P3 Pewter 90 4 0.31 3.3 0.5 0 0
P4 Pewter 89.6 6.5 0.23 2.4 0.81 0 0
P5 Pewter 88.1 6 0.22 4.2 0.71 0 0
P6 Pewter 89.4 5.9 0.22 3 0.9 0 0
P7 Pewter 87.9 5.7 0.27 4.6 0.71 0 0
Material Tin Antimony Lead Copper Titanium Iron Chromium
ID # Lead Sn Sb Pb Cu Ti Fe Cr
L1 Lead 0.31 0 93.58 0.66 0 1 0
L2 Lead 0.31 0 93.58 0.66 0 1 0
L3 Lead 0 0 97.75 0.21 0 0 0.37
L4 Lead 0 0 98.2 0.2 0 0.53 0
L5 Lead 0 0 98 0.2 0 0.57 0
L6 Lead 0 0 98.1 0.18 0 0 0
L7 Lead 0 0 97.8 0.25 0.1 0.59 0
L8 Lead 0 0 98.6 0 0 0 0
L9 Lead 0 0 97.9 0.27 0 0 0
L10 Lead 0 0 98.09 0.22 0 0 0