Shane Lindsey
Well-Known Member
- Joined
- Jul 13, 2010
- Messages
- 3,852
You have ejector print ( ) before the start of the swipe. Looks like over pressure to me.
Let me make sure I understand your claim here:Longer seated bullets don't mean more pressure like handgun calibers.
I've been pressure testing for the better part of two decades, I'm quite familiar how it's done...Pressure testing can only be achieved with the proper equipment hooked up to the pressure testing barrel.
The case will "tell you" that it reached plastic deformation, but not what pressure that occurred at. And what he has pictured isn't plastic deformation, it's friction.The case will tell you, like the pictures he provided
no you are correct on the pistol and shotgun powder, that was my error.Let me make sure I understand your claim here:
Your claim is that pistol and shotgun powder somehow magical operate completely backwards, compared to rifle powder... That's quite an amazing claim, you better post your pressure Traces justifying that claim...
For those capable of reading and are curious about this, lookup Dr. Lloyd Brownell's absolute chamber pressure in center-fire rifles, done at the U of M in 1965. Here's the basics, think of a standard chart. Vertical axis is pressure, horizontal is jump to lands. Draw yourself a "V" with a rounded bottom, and that's how pressure actually works. When you start jammed, pressure is high, as you increase the jump to lands, you allow more time for the gas to bleed off around the bullet before land engagement. At a certain amount of depth, which is cartridge dependant; you will eventually eat up enough case volume with the bullet. Which will begin to play with flow geometry and therefore burning rates. I E. The right side of the "V" where pressure begins to go back up. Again it isn't linear and simple line a perfect "V", but it gets the point across.
I've been pressure testing for the better part of two decades, I'm quite familiar how it's done...
Which is why I also find it shamefully outrageous to say it hasn't been available to the general public.
Here's the difference between anyone of the fine people on this forum, and this mouth-breathing redneck: I can smell a carpetbagger from a mile away. I don't like being lied to, and I reject mindless faith claims of magic. So I buy tools that allow to me actually measure and learn.
The case will "tell you" that it reached plastic deformation, but not what pressure that occurred at. And what he has pictured isn't plastic deformation, it's friction.
Ask yourself this:
If the ejector is functioning properly, it's completely recessed within the bolt face when a case is against said bolt face. So normally when you rotate the bolt against the case in the chamber, it doesn't scrape the case. Are you suggesting that when the pressure is high, the rifle somehow magically knows that, and pushes the ejector out harder. Thereby letting you know that SAAMI MAP has been matched, by the scratching of the case head?
That makes more sense to me and is how I have understood the pressure curve. When you get closer to the lands pressure goes up but pressure also goes up again when you take up more space in the case as you seat deeper. I believe the SAMMI COAL is what the designer deems as the "correct coal for proper pressures" or the best average coal for a variety of "factory chambers".Let me make sure I understand your claim here:
Your claim is that pistol and shotgun powder somehow magical operate completely backwards, compared to rifle powder... That's quite an amazing claim, you better post your pressure Traces justifying that claim...
For those capable of reading and are curious about this, lookup Dr. Lloyd Brownell's absolute chamber pressure in center-fire rifles, done at the U of M in 1965. Here's the basics, think of a standard chart. Vertical axis is pressure, horizontal is jump to lands. Draw yourself a "V" with a rounded bottom, and that's how pressure actually works. When you start jammed, pressure is high, as you increase the jump to lands, you allow more time for the gas to bleed off around the bullet before land engagement. At a certain amount of depth, which is cartridge dependant; you will eventually eat up enough case volume with the bullet. Which will begin to play with flow geometry and therefore burning rates. I E. The right side of the "V" where pressure begins to go back up. Again it isn't linear and simple line a perfect "V", but it gets the point across.
I've been pressure testing for the better part of two decades, I'm quite familiar how it's done...
Which is why I also find it shamefully outrageous to say it hasn't been available to the general public.
Here's the difference between anyone of the fine people on this forum, and this mouth-breathing redneck: I can smell a carpetbagger from a mile away. I don't like being lied to, and I reject mindless faith claims of magic. So I buy tools that allow to me actually measure and learn.
The case will "tell you" that it reached plastic deformation, but not what pressure that occurred at. And what he has pictured isn't plastic deformation, it's friction.
Ask yourself this:
If the ejector is functioning properly, it's completely recessed within the bolt face when a case is against said bolt face. So normally when you rotate the bolt against the case in the chamber, it doesn't scrape the case. Are you suggesting that when the pressure is high, the rifle somehow magically knows that, and pushes the ejector out harder. Thereby letting you know that SAAMI MAP has been matched, by the scratching of the case head?