fourfive8
AH legend
- Joined
- Apr 27, 2017
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- USA, South Africa, Mozambique, Zimbabwe, Zambia, Botswana
Yes........ At least to a point. In calibers .458 + a properly designed flat nose solid with a meplat at least 65% of caliber will self stabilize during terminal penetration to 90%-95% of its total depth of penetration with no engraving at all. I had two rifles that were supposed to be .474 and both barrels were oversized to .478, some bullets had no engraving at all, some were just barely marked. Bullets tested that had 65% meplat of caliber penetrated dead straight to at least 90% of total penetration. I also had one oversized barrel in the field for buffalo in Australia, I did not realize it at the time, shooting CEB Raptors and Solids I experienced straight line penetration to all depths reached in buffalo. It was only when one Raptor base was recovered that we discovered zero engraving on the bullet, it was an oversized barrel from PacNor at 1;10 twist rate. Which twist rate made no difference in this case.
Meplat Size and Nose Profile are #1 and #2 of the 8 factors of terminal penetration of solids.
Twist Rates I rank at #7 of the Factors related to Solid Terminal Penetration. Twist rate becomes extremely important and assists in deeper straight line penetration when using solids with less than desirable meplat size. With the faster twist rate you will increase the depth of straight line penetration with these solids or FMJ. Solid design trumps Twist Rate however in straight line penetration.
Question about results of an undersized bullet not showing land engraving but recovered after passing through variable dense tissue on a straight line path (suggesting point forward travel with stability).... If a conventional bullet is not stabilized either aerodynamically/hydrodynamicall or gyroscopically or in some combination of both as it flies through the air, how does it magically become stabilized as it impacts and passes though a much more dense and variable media like a big game animal? My understanding of the physics involved indicates a flat meplat does not provide external stabilization to a monolithic, non-deforming bullet as it travels through any media, including a dense or aqueous media, it simply creates an environment through which an otherwise stable bullet can fly farther with continued stability through that media.
A non-deforming, bullet must behave according to the laws of physics to have stable flight in air or any media. A few bullet designs, like the hollow base Minie', use two forms of stability... minimal gyroscopic spin stability along with the aerodynamic/hydrodynamic stability where the bullet's center of gravity is forward of the center of pressure. Some deforming bullets will transition to a partial hydrodynamic stability as the bullet enters and passes through a more dense, aqueous media where the front expands. This stability is most noted if the front part of the bullet is lead core and the rear is less dense, solid shank.... creating a weight forward condition (center of gravity is forward of center of pressure) for stability.
Seems like no matter the bullet design or shape , if it is not flying point forward and is stable through the air, the chances are pretty good it will impact with some yaw and if severe, practically sideways. Witness that on paper targets showing unstable bullet impacts .
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