jtg452 wrote:I used the BC computer at FederalPremium.com and the muzzle energy calculator at Ballistics101.com if you want to play with them a little on your own.
Nah, i generally leave that to the severe gun-nuts.
I´m more interested in the results and WHY the results are as they are than the number crunching.
My focus is on history and how some technology affected events.
jtg452 wrote:The .45Colt round was using a RNFP (round nose, flat point) cast lead bullet. While I don't know exactly which manufacturer's mold was used to make it, I can hazard a guess at the width of the contact surface at the point of the bullet and I figure it to be someplace in the neighborhood of .20".
Fail. A cast lead bullet hitting steel will start to deform instantly on impact, as such the contact surface may effectively be that of the caliber of the bullet, or more, or less all depending on exact hardness of the metals involved and impact properties.
So, the impact area will be anything from your suggested .2" up to maybe .6".
In this there´s also the overmatch effect to consider, you WANT a wider impact area than the armour is thick as otherwise the effect will work against the penetration.
And with a slow and large bullet, that will equate to poor penetration because it will spend a LOT of energy going *splat* against the breastplates.
jtg452 wrote:With the wide nose of the bullet profile, to punch it through something is a brute force application.
Yes, and the softer the bullet, the more energy will be lost while doing so.
One problem however is that only a fool would use hardmetal bullets in a pistol, as pistols are generally used at shorter range, and hardmetal bullets hitting metal can ricochet straight back at you with anything up to deadly results.
You can of course use a soft bullet with a penetrator core or hardmetal jacket, but these have their own downsides, and the described effect effectively precludes such except possibly hardmetal jacket at least.
The serious problem is that to penetrate 2 breastplates and then still have the energy to completely smash up wood as well, you frankly need a crapload of energy.
jtg452 wrote:Add to all of that the fact that the bullet in question is designed to be fired at a much higher velocity. The M96 round is designed to work at 1600+ fps. To push a lead bullet that fast, the lead alloy used to make the projectile must be harder and there is a mention in the text of them quenching the bullets to increase the hardness as well.
1600fps is nothing extreme. The good old 1905 Mauser has a V0 at 2600-2700fps.
For a real world comparison using a lead bullet(with steel jacket) to PUNCH through armour by raw force:
https://en.wikipedia.org/wiki/Karabin_p ... erny_wz.35It needed a velocity of over
4000fps to do that effectively however.
At that point you start getting some degree of fluid mechanics replacing penetration as normally computed, the same way as modern tank gun HVAPFSDS penetrators punch through armour mostly by fluid mechanics.
jtg452 wrote:So we have a bullet that is as hard or (probably) harder than a modern round that has been seen by first hand witnesses performing, that weighs twice as much, going just as fast with a much smaller point of contact. I have no problem believing that it will perform just as advertised. The numbers are there.
I have trouble agreeing with that. The link above gives a hint of what is needed to punch through armour reliably with a partially soft bullet, and even if the stated breastplates top out at a paltry 3mm, which is unlikely in an environment where firearms have begun to be used, soft and slow bullets will still have issues punching through three separate objects.
jtg452 wrote:viewtopic.php?f=7&t=4850&p=117375#p117375
And as you will note, i was active in that thread as well.
jtg452 wrote:The M96 rifle round
Are you referring to the
M896 from RFCs books, or the real world history M/96?
I presume the former but it is more than a little derailing when thrown around like this.
The M/96 used the 6.5x55 Mauser ammo and was in use from 1895 to 1995.
