A function of pressure is still pressure[/B]
Yes pressure is pressure
but pressure
is not velocity
In your first statement
Which is why heavier bullets generally have a lighter charge plus stuffing a heavier bullet deeper into the case raises your pressure therefore your velocity
If it was s super fast powder in less of a gun you may have had a BIG problem!
Seating any bullet deeper increase the peak pressure, with out regard to weight, this is a function of case fill, not bullet weight.
While a heavier bullet weight will contribute to peak pressure, it is because the bearing area is increase and the moment of inertia is greater.
If you have the same bullet for two different loads and one has more powder which will increase pressure than will you not have more velocity? Yes there is a curve but it is all in the equation.
This not what you said in you first statement and is only true if the case fill is greater in the case with the increase powder. This assumes the same seating depth.
If the seating depth is the same would could expect an increase in both peak pressure and velocity.
If I keep the case fill the same by seating the bullet in the case with more powder, the peak pressure would be the same but the velocity would increase. By doing this we would have increase the pressure under the curve and hence in creased the velocity without increasing the peak pressure, more velocity with same pressure!!!
Set your sights on pistol reloading data | Hodgdon Reloading
Winchester 231
.357"
1.455"
3.8
661
12,600 CUP
4.3
779
15,900 CUP
So let see with the above
3.8 grains gives 661 fps and 12,600 cup
4.3 gr gives 779 fps and 15,900 cup
So the higher pressure yields a higher velocity
Call it what you want more gas in the same confined space yields more pressure yields more velocity.
This would be as expected, all the rules as I called out above are demonstrated in this example. You have presented two very different examples.
Same cartridge, same bullet, and same seating depth.
You increased the case fill and increase the both the peak pressure and pressure under the curve. The Pressure under the curve is moved by not one but two reason in this case volume increase in powder and increase in pressure.
If you do a little more review of you data you will find that many different powders with same bullet and same seating depth at the same peak pressure produce different velocities, and in some case much lower pressure and clearly higher velocity.
Easy to see that peak pressure doesn't equate to same velocity.
If you think this because the charge weights are higher were velocity is higher, this will not be the case in most (this is a topic for a different thread).
be safe
Ruggy
