gatnerd

Military Guns and Ammunition

Hosted by gatnerd

This is intended for people interested in the subject of military guns and their ammunition, with emphasis on automatic weapons.

  • 3349
    MEMBERS
  • 190091
    MESSAGES
  • 21
    POSTS TODAY

Discussions

anti material rifle not dead   General Military Discussion

Started 29/9/21 by Mr. T (MrT4); 10764 views.
EmericD

From: EmericD

3/10/21

gatnerd said:

Does anyone know how 14.5mm B32 API stacks up to the .50bmg Raufos round in terms of penetration?

The 12.7x108 mm API B-32 (~52 mm long steel core) is nearly delivering identical AP capability as the 12.7x99 mm APEI NM140.

The 12.7x99 mm PPI (~54 mm long steel core) is mid-way between the NM140 and the NM173 / NM185.

The velocity to defeat 50% of the time a 21 mm RHA plate is around:

  • 670 m/s for the 12.7 mm B-32,
  • 660 m/s for the 12.7 mm NM140,
  • 595 m/s for the 12.7 mm PPI,
  • 545 m/s for the 12.7 mm NM173 / NM185. 

The 14.5x114 mm API B-32 is using a 63.3 mm long, high hardness, steel core, the capability is much better than the NM173 (if the gun barrel is long enough).

RovingPedant

From: RovingPedant

3/10/21

gatnerd said...

Does anyone know how 14.5mm B32 API stacks up to the .50bmg Raufos round in terms of penetration? 

The 14.5 has 2x the energy, but is a steel core API, whereas the .50 Raufos is Tungsten + HEI. 

And are there any modern 14.5mm Raufos equivalent loads?

The B32 will do 32mm RHA at 500m and there’s a tungsten cored BS41 that’ll do 30% more, but both are old.

There’s apparently some Chinese developments in a SLAP-style round that will do 40mm path length (sloped plate is quoted) in RHA at 1000m

https://www.reddit.com/r/Firearms/comments/drdxrk/cross_section_of_chinese_dgj02_145x114mm/

Limited searching suggests that’s about twice what the Raufoss would do, albeit absent  the incendiary effect.

smg762

From: smg762

3/10/21

Didnt the 50SLAP have issues with bullets flying into the barrel

RovingPedant

From: RovingPedant

3/10/21

I’ve seen it suggested that the polymer sabot might not be entirely stable over long periods of storage, but different manufacturers might use different materials that are more stable and military use during rated life would not see that issue in any case.

 

smg762

From: smg762

3/10/21

Well i heard that either the 50 or 762 had issues with failing sabots during bursts. Sent the core into the barrel so they discontinued it.

  • Edited 03 October 2021 20:15  by  smg762
gatnerd

From: gatnerd

3/10/21

EmericD said:

The 12.7x108 mm API B-32 (~52 mm long steel core) is nearly delivering identical AP capability as the 12.7x99 mm APEI NM140. The 12.7x99 mm PPI (~54 mm long steel core) is mid-way between the NM140 and the NM173 / NM185. The velocity to defeat 50% of the time a 21 mm RHA plate is around: 670 m/s for the 12.7 mm B-32, 660 m/s for the 12.7 mm NM140, 595 m/s for the 12.7 mm PPI, 545 m/s for the 12.7 mm NM173 / NM185.  The 14.5x114 mm API B-32 is using a 63.3 mm long, high hardness, steel core, the capability is much better than the NM173 (if the gun barrel is long enough).

Great info as always, thank you. 

Also quite the revelation. I hadn't realized 12.7 was so much more capable then .50 bmg (I had thought it to be a 9x17 vs 9x18 type of difference). 

Likewise, your data shows how penetrator length can really effect penetration, and how a long enough steel penetrator can mitigate the need to employ tungsten. 

In terms of the .50 bmg replacement we were discussing in the other thread, what would be the minimum practical caliber to have a 52-54mm PPI style penetrator? 

And has there been any study on penetrator shape as it relates to penetration? The PPI and others penetrators are rather blunt and sturdy points that looks like they would be fairly durable on impact. 

Would a finer, VLDish pointy penetrator tip effect its ability to penetrate? I wonder whether the finer point would be more susceptible to deforming/shattering on impact, reducing the efficacy of a "VLD-AP" PPI type projectile? If so that would kill off the hopes for a .375-416 style .50 replacement, as they rely so heavily on a VLD profile. 

EmericD

From: EmericD

4/10/21

gatnerd said:

Also quite the revelation. I hadn't realized 12.7 was so much more capable then .50 bmg (I had thought it to be a 9x17 vs 9x18 type of difference). 

The .50" M33 ball is just the "companion load" of the M8 API that was developped mainly for air-to-air use during WWII, hence the focus on the highest velocity, BC was less a factor at high altitude. Better loads for ground-to-ground exist, but the M8/M33 family seems to be good enough.

The NM140 is a multipurpose round, the penetration is just one part of the round capability portfolio.

gatnerd said:

In terms of the .50 bmg replacement we were discussing in the other thread, what would be the minimum practical caliber to have a 52-54mm PPI style penetrator?

.408" seems a good starting point, I've been told that the .375 EnABELR 400 gr API was also very capable, but anyway you will lack the HE payload of the NM140. That's why I think that the best bet for a .50 BMG replacement is necking up the case to 15-16 mm to accommodate for a bigger payload, and running the round at 350-380 MPa instead of the current 280-290 MPa.

gatnerd said:

Would a finer, VLDish pointy penetrator tip effect its ability to penetrate? I wonder whether the finer point would be more susceptible to deforming/shattering on impact, reducing the efficacy of a "VLD-AP" PPI type projectile? If so that would kill off the hopes for a .375-416 style .50 replacement, as they rely so heavily on a VLD profile.

That was exactly what the company "Stiletto" was offering, very long & pointy WC core, and the penetration capability at 0° AoA was outstanding. I don't know what would the the effect of increasing the AoA compared with blunter design.

As a rule of thumb, you need a steel core ~60% longer to achieve the same penetration capability as a WC core against RHA or thin ceramic plate at 0° obliquity and impact velocity below 800-850 m/s, above that speed the steel core will shatter, reducing the capability.

gatnerd

From: gatnerd

4/10/21

In terms of a necked up .50 to 15-16mm, what do you think that would look like in terms of projectile weight and velocity?

Good to know that +60% steel to WC rule of thumb, thank you. Also interesting about not having the velocity too high. Is there an optimal steel alloy / hardness as well? I had thought something like S7 tool steel, which is an impact resistant alloy used in jackhammer bits and tactical breaching axes.

In terms of Stilletto, I rember a few years back TFB / Forum had a lot of scepticism for their penetration claims. Cool to hear they were the real deal, especially as it keeps the VLD-AP hopes alive.

EmericD

From: EmericD

7/10/21

gatnerd said:

In terms of a necked up .50 to 15-16mm, what do you think that would look like in terms of projectile weight and velocity?

If I take the drawing of the .50 BMG in order to make a neckless upgrade, the difference between L6 (138.43 mm) and L2 (83.3 mm) is 53.13 mm or 2.09".

If the projectile diameter is increased to .61", then we have ~3.4 caliber to account for the ogive length, which is more than enough to accomodate a very sleek profile, so let's use a 0.90 i7 FF which could be achieved even with a flat-base design.

The current BC of the M8/M33 family is 0.35, so that mean that we should aim for a 0.61" projectile with a minimum weight of 820 gr / 53.2 g, launched at a MV ~850 m/s.

gatnerd

From: gatnerd

7/10/21

The specs for your .61 sound excellent. Do you think it would be backwards compatible with current .50 bmg weapons?

In terms of down range performance, do you see the value of the .61 primarily in increasing penetration, or increasing incendiary payload?

If the projectile is of comparable length to a .50/ .50 neckess, would the increased penetrator mass of the .61 still increase penetration even if the cores are the same length?

TOP