'Dr. Roberts is only a dentist.' Never heard that one before.
That's YOUR statement; I merely stated a fact that he is a dentist. However, it certainly is quite likely that the average dentist is not as much into terminal ballistics as "DocGKR." You obviously are not into facts and prefer straw man arguments.
Who do you consider an expert? Who do you trust to properly perform gelatin testing? I am aware that there is an acceptable calibration range for gelatin. How do you go about "accounting for" within-spec gelatin? If you don't believe that gelatin testing tells the whole story then what do you believe tells the rest of the story?
This forum, or any other, is not well suited to educate, from the ground up, someone like you in the study of terminal ballistics. It's obvious that you haven't a clue in terminal ballistics testing or evaluation of results. If you wish to try to educate yourself to the best of your ability, try, for example, reading D. MacPherson's "Bullet Penetration..." book. I would consider him an expert in terminal ballistics; but he was a rocket scientist by training and not a dentist. Dr. M. Fackler, a battlefield surgeon, was another expert in terminal ballistics, particularly wounding; but he was not a dentist by training either.
Crushing tissue is a means to an end. Rapid incapacitation of the threat is the desired end. I am not aware of any scientific studies correlating X% increased frontal surface area with Y% decrease in incapacitation time. If that exists and you know of it I would like to learn as well.
Yeah, I'm quite aware that you are not aware of many basics in terminal ballistics -- read the book I mentioned, as a start.
For the fun of it I did some quick and dirty math with your cherry-picked loads. "Meat bullets" tend to look like 4LD gelatin testing and you gave bare gelatin results so this will over-state the difference. I assumed that the bullet hits and penetrates to full depth (doesn't exit or get caught by the skin on the exit side.) I came up with a difference of ~19 grams of crushed tissue. Against a 200lb (90kg) assailant that is just 0.02% of his body mass.
30% more than a really small number is still a really small number.
You are overwhelming me with your ignorance; read the book and try to understand at least some of it. 19 grams of crushed body tissue is hardly insignificant; let me know how well and "in the mood" you feel next time someone crushes 19 grams of your tissue. The bare gel test results I posted involved same type of bullets, Winchester Ranger Bonded, in heavy for caliber versions - in 9mm and .40 cal, which, according to "DocGKR" tests showed that .40 cal versions destroyed more than 50% of tissue (while penetrating essentially the same), not 20% as you presented (also from "DocGKR"), purportedly to show how "little" difference there is in terminal effectiveness between .40 cal and 9mm. Bare ordnance gel, of course, is the best simulant for soft tissue, hence, obviously, penetration and expansion in such gel is quite similar to expansion and penetration in soft tissue. As was pointed out to you, the terminal difference in soft tissue between .40 cal and 9mm is just like the terminal difference between a wadcutter and a round nose -- one doesn't have to be a terminal ballistics expert to appreciate that! Again, ALL your misconceptions can be cleared up by reading and understanding that book. Good luck!
Far more important than the total amount of tissue crushed is what tissue is crushed. Large amounts of the human body can be destroyed by bullets without causing rapid incapacitation.
Sure, what gets crushed is important in achieving rapid physiological incapacitation. But unless you are an executioner who can place precise shots in a few, very critical, relatively small areas in the body, incapacitation becomes more likely the more tissue gets destroyed. Even any dentist would know that.
For this reason I believe that accuracy, rapid follow-up shots, magazine capacity (don't want to run out first), tactics, accuracy, training, practice, training cost, and accuracy are all far more important than the marginal advantage of a larger caliber.
That's irrelevant to terminal superiority of .40 cal vs. 9mm. Not surprisingly, you excel at inane straw man arguments.
In a .38 revolver it makes perfect sense to use wadcutters instead of round nose because the marginal benefit is free. You are acting as if the marginal benefit of .40 vs. 9mm is free.
Wrong again. Nothing in ballistics or in physics is "free." It takes more energy to push a wadcutter to any given penetration than it does to push a round nose bullet. It's amazing and amusing how many absurd straw man arguments you can come up with in your attempt to argue that 9mm is terminally equivalent to .40 cal. Hint: it's not, except perhaps in "your" universe!
