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barrel wear with subcalibers   Small Arms <20mm

Started 22-Dec by smg762; 2447 views.
smg762

From: smg762

23-Dec

Right. My energy requirement was 1100lbs (21 inch barrel approx)

With that energy, a 6.5mm projo would have awful performance. (or even a .22)

I did wonder how 4.6mm would fare compared to .20 or .19 cal, but the real thing i was wondering was about the barrel wear being reduced with advanced materials.

In reply toRe: msg 3
EmericD

From: EmericD

23-Dec

smg762 said:

I dont think the l/d ratio would be related to barrel wear....other than bearing surface amount.

You're right that there is no direct relationship between a bullet L/D and barrel wear, but if you want to use a projectile with a ~5.4 L/D, then saboted bullet are simply not an option.

smg762

From: smg762

23-Dec

ok. I wasnt too keen on sabots anyway...but i heard they actually allow a longer l/d bullet than normal rifling.

In reply toRe: msg 7
Red7272

From: Red7272

23-Dec

smg762 said:

ok. I wasnt too keen on sabots anyway...but i heard they actually allow a longer l/d bullet than normal rifling.

Nope, they have a negative impact not a positive one. Unless you have a sintered tool steel projectile which is coke bottle shaped and VLD, there is no point. 

Even then a crimped on copper sleeve would be more accurate and practical.

In reply toRe: msg 7
RovingPedant

From: RovingPedant

23-Dec

Sabots allow a fin stabilised projectile which means you can have a higher L/D ratio.

Technically you can have fins on the tail of a full-bore projectile, but needs a longer tail/bigger fins to be effective. Or you go for deploying fins, which are a nuisance in large calibre and probably impractical in small ones

smg762

From: smg762

23-Dec

Perhaps perfect sabot açcuracy (in small arms) could be achieved if you tried to take the exact proportions of a tank APFDS, (projectile weight versus muzzle energy).....

..and EXACTLY scale them down.

Tank flechette penetrators are 4.5kg each....sabot is roughly 3kg...

I dunno the energies though. Perhaps someone who knows could then do the math and work out how much a rifle projo would weigh.

Clearly more than 10grains as used in the ACR trials

Problem is tanks have no weight targets to reach....everythings very heavy

To match those proportions would probably mean a package weighing similar to 308 battle rifles

RovingPedant

From: RovingPedant

23-Dec

smg762 said...

Perhaps perfect sabot açcuracy (in small arms) could be achieved if you tried to take the exact proportions of a tank APFDS, (projectile weight versus muzzle energy).....

..and EXACTLY scale them down.

If you could scale the tolerance as well? It would still be around 0.3 mrad ballistic dispersion, assuming that the aerodynamics scales too, which it probably doesn’t.

smg762 said...

Tank flechette penetrators are 4.5kg each....sabot is roughly 3kg...

I dunno the energies though. Perhaps someone who knows could then do the math and work out how much a rifle projo would weigh.

Clearly more than 10grains as used in the ACR trials

If it is pure scaling and you are using the same materials (Tungsten heavy alloy or depleted uranium in small arms ammunition?) then it will be the cube of the ratio of calibre. So 120mm to 5mm would result in 4.5kg to 0.3g (about 5grains).

Of course if you are scaling to achieve a 5mm diameter projectile it would be different.

On a related note, my understanding is that “sub-calibre” is where the projectile is smaller than the bore. If you refer to a small calibre then it’s small calibre. Not too sure if there is a standard definition on where the break point is.

smg762 said...

Problem is tanks have no weight targets to reach....everythings very heavy

Don’t kid yourself that tanks have no weight limits. Quite apart from everything adding up to gross vehicle weight which affects mobility and transportability, the ammunition needs to be something that the crew can lift.

smg762

From: smg762

23-Dec

Yes i originally had 2 questions...one was about 18cal bore riding bullers and barrel wear. By sub caluber i was reffering to that.

I dont know if your conclusion of 5 grains is right...120mm is the tanks barrel. Tank flechette is 30mm.

Thats a big difference in size.. thats like using a 762barrel and shooting 2mm projectiles....if u scale it down.

To ascertain the projo weight for our small arm we would take the tanks muzzle energy, and work out the percentage difference between it and roughly 1k ft lbs (our rifles energy)

Then apply the same percentage reduction from the tanks projo weight  to our rifle projectile. To find out the rough ballpark ideal weight.

ill try and find some typical tank muzzle energies

EDIT

Here are the figures.

Tank flechette weight 4.4kg or 67902 grains.

Tank velocity of flechette...5200fps

Resulting muzzle energy...4077600ft lbs.

Percentage reduction from tank energy to rifle energy (1200ft lbs)...  about 99.970%

These are figures from one of the Abrams tank rounds.

My maths is poor so i still cant use this data to find out what the projo weight would be for our 1200ft lbs rifle..

  • Edited 23 December 2020 16:34  by  smg762
JPeelen

From: JPeelen

23-Dec

What RovingPedant wrote is totally independent of external shape.

Be it a flechette or a conventionally shaped bullet, its mass changes by the 3rd power of diameter. Halving diameter -and all other dimensions- reduces the projectile mass to one eighth. Doubling it make the projectile by the factor 2*2*2 = 8 heavier.

Similarly, the cross section (dominating air drag) changes by the 2nd power. If you halve the diameter, cross section reduces to one quarter.   

RovingPedant

From: RovingPedant

23-Dec

 

 

 

smg762 said...

I dont know if your conclusion of 5 grains is right...120mm is the tanks barrel. Tank flechette is 30mm.

Given the assumptions stated, it is.

If you wanted a 5mm subcalibre projectile where the projectile is 1/4 the bore diameter, then that would be a 20mm calibre barrel and a 20gram (300 grain) dart.

If you plan on a MV greater than 1500m/s like the tank gun, i don’t think I’d fancy it.

Going by your ratio for energy and keeping the MV the same (mainly so I don’t have to deal with USCS units or two variables), the energy scales linearly with the mass, so 0.03% energy requires 0.03% of the mass, or 1.35 grams. You’d be looking at an 8mm bore with a 2mm projectile.

 

But that all assumes that you are using the same materials and that manufacturing and aerodynamics scales, which they probably don’t.

 

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