.45/70's. .458 Win Mags pretty much match up numbers , CUP and PSI. I figured from this, that muzzleloading numbers must be pretty close as well, but perhaps only for .45 to .50 cals.
As to fast powders in the big bores, Forsyth was dead against using too-fast a powder in the bore guns as the larger mass of the ball needs a 'smoother' push, rather than the 'jolt' to get it moving.
Boy this velocity/bore/size/powder granulation/energy produced can cause headaches.
I ran Forsythe's 14 bore with "#15 ball" using 5 drams powder trajectories through a ballistics program years ago and came up with about 1600 fps.
This is what I get with a similar charge weight ,140 gr., of FFG Swiss in a rifle using a "#16" ball in my flintlock so it would *seem* he was using pretty good powder since while his rifle was percussion his barrels were shorter by 2-4" IIRC.
He mentions "Hall's #5" but this is might be difficult to pin down but is probably much like FFG if they used C&Hs numbering system. It is likely that this 1850s powder would be superior or at least fully equal to Goex of the same granulation.
He also discusses using nipples that are apparently much like current design and states that some powder may come up in the nipple.
These two statements seem to contradict themselves....
He also mentions sportsmen using the "strongest mixtures".
Guess I will have to re-read his book again.
The classic pressure sign in percussion rifles is nipple erosion. In playing with the picket rifle I find that 70 gr is FFG Swiss will not vent much gas at the nipple. 80 gr does vent but shoots better in testing to date. This seems to a be typical load levels for picket bullets of this caliber. This with relatively light a 132 grain 40 caliber picket bullet. However, I feel that this is the max usable load with the current breeching (steel Mowrey action) and I may end up building better rifle for this project now that it appears to be workable accuracy wise.
Chapman indicates (1840s) that pickets shoot better with lower grade, slower, powder.
But this is not borne out with Roberts' experience in the 1880s. The better powders, C&H and other high end sporting powders were the norm for accuracy, often C&H #6 or other FG high grade American powders. At least with elongated bullets.
This is a very complex subject, pressures and energy of the powder vs energy created by the muzzle velocity. It can vary widely from one rifle barrel to the next and this can cause "spikes" in the data.
With a rough bored ML barrel, at least at the breech, BP velocity my actually increase over the same charge weight/ball size used in a smooth barrel. Rough boring the breech end of the barrels made shotguns shoot harder or so some English makers found in testing.
This increases "load inertia" and makes the powder burn better.
Load inertia and its increased pressure often improves accuracy especially with bullets where long range accuracy is important. It may well increase the projectile energy obtained from a given weight of powder all else being the same.
I think people that find water/spit lubes with the PRB may be increasing friction in the barrel and the increased pressure produces better accuracy in *that* barrel. There are other factors but this is one possibility
I would also point out that shooting at 50 to 100 yards is far different than shooting 200 with a PRB or 200-1000 with a bullet. Loads that work very well at 100 are often useless or at least less than optimal at longer ranges.
With this is mind we need to understand that when "this load" produces "that velocity" in this caliber rifle that there are factors at work besides just the ball size and powder charge. In fact internal finish may result in 3 different but *identical" PRB barrels by the same maker might produce markedly different results simply due to the finish on the lands.
Dan
