125 mm smoothbore ammunition
The following is a list of ammunition fired by the 125 mm smoothbore gun series used in the T-64, T-72, T-80, M-84, T-90, PT-91, T-14 Armata, and other tanks derived from those designs, as well as the 2A45 Sprut anti-tank gun.
APFSDS-T
Armour-piercing fin-stabilized discarding sabot (APFSDS) using a sabot and tracer (APFSDS-T). Typically used against other modern tanks.
There are different ways to measure penetration value. NATO uses the 50% criteria against 260BHN Steel, while the Soviet/Russia standard is higher (80% had to go through). According to authorities like Paul Lakowski, the difference in performance can reach as much as 8%[1]
3VBM3/3BM9/10
Entered service in 1962. The projectile is Maraging steel.
- Country of origin: Soviet Union
- Projectile dimension: 410 mm 10: 1 L/d
- Projectile weight (including sabot): 5.67 kg
- Projectile weight: 3.6 kg
- Muzzle velocity: 1800 m/s
- Muzzle energy: 5.8 MJ
- Penetration: 245 mm at 0° at 2000 m, 140 mm at 60° at 2000 m, (energy at 2000 m is 4.2 MJ)
3VBM6/3BM12/13
Entered service (estimated) in 1968. Essentially the same as the 3BM9 projectile with a tungsten carbide plug.
- Country of origin: Soviet Union
- Projectile dimension: 410 mm 10: 1 L/d
- Projectile weight (including sabot): 5.67 kg
- Projectile weight: 3.6 kg
- Muzzle velocity: 1800 m/s
- Muzzle energy: 5.8 MJ
- Penetration: ?
3VBM7/3BM15/16
Entered service (estimated 1972). A slightly longer 3BM12 projectile.
- Country of origin: Soviet Union
- Projectile dimension: 435 mm 12: 1 L/d
- Projectile weight (including sabot): 5.9 kg
- Projectile weight: 3.9 kg including 2.9 kg and 0.27 kg tungsten carbide plug
- Muzzle velocity: 1785 m/s
- Muzzle energy: 6.2 MJ
- Penetration: 400 mm at 0° at 2000 m, 150 mm at 60° at 2000 m
3VBM8/3BM17/18
Entered service (estimated 1972). An export version of the 3BM-15 without the tungsten carbide plug. Hence, it is an all-steel penetrator with inferior performance.
- Country of origin: Soviet Union
- Projectile dimension: 450 mm 12: 1 L/d
- Projectile weight (including sabot): 5.9 kg
- Projectile weight: 3.9 kg
- Muzzle velocity: 1780 m/s
- Muzzle energy: 6.2 MJ
- Penetration: 150 mm at 60° at 2000 m
3VBM9/3BM22/23 (3BM22 "Zakolka")
Entered service 1976. Tungsten carbide penetrator core sheathed in steel. Enlarged cap help to increase positive normalization and hold a much larger penetrator.
- Country of origin: Soviet Union
- Projectile dimension: 400 mm 11: 1 L/d
- Projectile weight (including sabot): 6.55 kg
- Projectile weight: 4.485 kg
- Muzzle velocity: 1785 m/s
- Muzzle energy: 7.0 MJ
- Penetration: 420 mm at 0° at 2000 m, 170 mm at 60° at 2000 m
3VBM10/3BM29/30 (3BM29 "Nadphil-2)
Entered service 1982. Depleted uranium-nickel-iron alloy sheathed in steel.
- Country of origin: Soviet Union
- Projectile dimension: 450 mm 12: 1 L/d - including 250 mm core
- Projectile weight (including sabot): 6.55 kg
- Projectile weight: 4.85 kg
- Muzzle velocity: 1700 m/s
- Muzzle energy: 7.0 MJ
- Penetration: 360 mm at 0° at 2000 m, 210 mm at 60° at 2000 m
3VBM11/3BM26/27 (3BM26 "Nadezhda-R)
Entered service 1983. Tungsten-nickel-iron alloy penetrator core sheathed in steel. Utilised new 4Zh63 high-energy propelling charge. Penetrator is base-installed to prevent deflection during penetration against multi-layered composite armour. Improved penetrator cap made of aluminium alloy.
- Country of origin: Soviet Union
- Projectile dimension: 395 mm 11: 1 L/d
- Projectile weight (including sabot): 7.05 kg
- Projectile weight: 4.8 kg
- Muzzle velocity: 1720 m/s
- Muzzle energy: 7.5 MJ
- Penetration: 410 mm at 0° at 2000 m, 200 mm at 60° at 2000 m
3VBM13/3BM32/33 (3BM32 "Vant")
Entered service in 1985. The projectile is an integrated depleted uranium-nickel-zinc alloy penetrator.
- Country of origin: Soviet Union
- Projectile dimension: 380 mm 13: 1 L/d
- Projectile weight (including sabot): 7.05 kg
- Projectile weight: 4.85 kg
- Muzzle velocity: 1700 m/s
- Muzzle energy: 7.0 MJ
- Penetration 395 mm at 0° at 2000 m, 230 mm at 60° at 2000 m
3VBM17/3BM42 (3BM42 "Mango")
Entered service in 1986. The projectile is double tungsten alloy rod sheathed in low melting point alloy covered with steel, intended to increase penetration against non-explosive reactive armour (NERA) such as Chobham armour.
- Country of origin: Soviet Union
- Penetrator dimension: 532 mm 17: 1 L/d
- Round weight: 20.4 kg
- Projectile weight: 4.85 kg [2]
- Projectile weight (including sabot): 7.05 kg
- Muzzle velocity: 1700 m/s
- Muzzle energy: 7.1 MJ
- Penetration: 230mm @ 2000m at 60° against standard 260BHN Steel Target
3VBM19/3BM42M (3BM44M "Lekalo")
From 1994, remained experimental and eventually evolved into the 3BM-59/60 meaning the outside design remained the same, the length of cartridge remained pretty much unchanged but the penetrator was further improved from the initial jacketed design which was improvement over the standard 3BM-42
- Country of origin: Russia
- Penetrator dimension: 570 mm 25: 1 L/d
- Round weight: ? kg
- Projectile weight (including sabot): 6.95 kg
- Projectile weight: 4.6 kg
- Muzzle velocity: 1750 m/s?
- Muzzle energy: 7.04 MJ
- Penetration: ?
3BM42-2 (3BM44-2 "Mango-2")
Currently in Experimental Phase, most famously seen at the Expo 2019 alongside 3BM-42 and 3BM-60. Uses the initial jacketed 3BM-42M penetrator but the cartridge is shorter over the Lekalo, designed to fit in the standard autoloader and is most likely to replace the standard 3BM-42 as main service round soon
- Country of origin: Russia
- Cartridge dimension: 685mm
- Penetrator dimension: 570 mm 26: 1 L/d
- Round weight: ? kg
- Projectile weight (including sabot): ?
- Penetrator weight: ?
- Muzzle velocity: 1700 m/s
- Muzzle energy: ?
- Penetration: 280 mm at 2000m at 60° against standard 260BHN Steel Target
3VBM20/3BM46 (3BM48 "Svinets")
Entered service in 1991. Uses a new advanced high elongation uranium Monoblock penetrator.
- Country of origin: Soviet Union
- Penetrator dimension: 546 mm 21.84: 1 L/d
- Round weight: ? ;kg
- Projectile weight (including sabot): ?
- Projectile weight: 4.85 kg
- Muzzle velocity: 1700 m/s
- Muzzle energy: 7.4 MJ
- Penetration: ~300mm @ 2000m at 60°, ~600mm @ 2000m at 0°
3VBM23/3BM60 (3BM60 "Svinets-2")
Entered service : 2016.[3]
the new round uses a new sabot design, and a Tungsten Alloy penetrator of increased length compared to prior generation Russian APFSDS ammunition. Used on 2A46M-4/5 with new autoloader.
- Cartridge dimension: 735 mm[4]
- Penetrator dimension: 620-640 mm 28-29: 1 L/D
- Round weight: ? kg
- Projectile weight (including sabot): 8.4kg
- Penetrator weight:
- Muzzle velocity: 1660 m/s
- Muzzle energy: 12.1 MJ?
- Penetration: 300mm @ 2000m at 60° against standard 260BHN Steel Target
3VBM22/3BM59 (3BM59 "Svinets-1")
Entered service: 2016.[5] Uses a new sabot design, and a new depleted uranium penetrator. Used on 2A46M-5 with new autoloader.
- Country of origin: Russia
- Cartridge dimension: 735mm
- Penetrator dimension: 620-640 mm 28-29: 1 L/D
- Round weight: 22.0 kg[4]
- Projectile weight (including sabot): 8.5 kg [4]
- Penetrator weight:
- Muzzle velocity: 1650 m/s[4]
- Muzzle energy: 12.1 MJ[6]
- Penetration: ~315mm at 60° at 2000m
3VBM?/3BM69 "Vacuum-1"
Uses a new sabot. Reported to be uranium alloy. For use on 2A82-1M cannon on T-14 Armata.[7][8]
- Country of origin: Russia
- Projectile dimension: ?
- Round weight: ?
- Projectile weight (including sabot): ?
- Projectile weight: estimated 11 kg
- Muzzle velocity: 2050 m/s[7]
- Muzzle energy: 15–24 MJ[7] (described 15MJ probably refer to high-explosive shell)
- Penetration: 1,000 mm at 0° at 2000m[7]
3VBM?/3BM70 "Vacuum-2"
Uses a new sabot. Identical to 3BM69 in dimensions, the difference being that the projectile is made out of tungsten.
- Country of origin: Russia
- Projectile dimension: ?
- Round weight: ?
- Projectile weight (including sabot): ?
- Muzzle velocity: ?
- Muzzle energy: ?
- Penetration: 2,000mm at 0° 2000m steel target
125-I
First-generation Chinese sabot round in service since 1993, also license produced by Pakistan.
- Country of origin: China
- Projectile dimension: 554 mm
- Round weight: 21.3 kg
- Projectile weight (including sabot): 7.37 kg
- Muzzle velocity: 1730 m/s
- Muzzle energy: ?
- Penetration: 220mm @ 2000m at 61.5° against 4340 Steel
DTW-125
Second-generation Chinese sabot round introduced in 1999. Initially 125-IIM acted as the export version with reduced velocity but with the introduction of DTC10-125, the DTW-125 itself became exported under the name “BTA4”
- Country of origin: China
- Projectile dimension: 642 mm
- Round weight: 21.36 kg
- Projectile weight (without Sabot): 4.1kg
- Muzzle velocity: 1740 m/s
- Muzzle energy: ?
- Penetration: 220mm @ 200 at 68.5° against 4340 Steel
DTC10-125
Third-generation Chinese sabot round which was introduced in 2010 and the subject of a data leak on the War Thunder forum in June 2022 (leaked data is used here). This performance value is identical to value shown on Chinese state media, CCTV7.[9]
- Country of origin: China
- Projectile dimension: 665 mm
- Round weight: ?
- Projectile weight (including sabot): ?
- Muzzle velocity: 1760 m/s
- Muzzle energy: ?
- Penetration: 220mm @ 2000m at 71.12° against 4340 Steel
TAPNA
Produced by MSM Group in Slovakia. The penetrator is made from tungsten alloy. [10][11]
- Country of origin: Slovakia
- Projectile dimension: 610mm
- Round weight: 20 kg
- Projectile weight (including sabot): 7.15 kg
- Muzzle velocity: 1690 m/s
- Muzzle energy: ?
- Penetration: 270 mm @ 2000 m at 60° against standard 260BHN Steel Target
HEAT-FS
High-explosive anti-tank (HEAT) fin stabilized (HEAT-FS) rounds. Typically used against lighter or older tanks and armoured personnel carriers.
3VBK7/3BK12
Entered service 1962.
- Country of origin: Soviet Union
- Projectile dimension: 680 mm
- Projectile weight: 19 kg
- Max dispersion: 0.21 mil (0.21 mrad)
- Muzzle velocity: 905 m/s
- Charge: shaped charge, steel liner, A-IX-1 (RDX phlegmatized with 5% wax), I-238 detonator
- Penetration: 420 mm RHA at 0 degrees
3BK12M
Entered service 1968, replacing steel liner with a copper liner. "M" means медь ("copper" in Russian) Uses 3V-15 detonator. Due to Soviet Union's copper economize policy production of the model is limited. Penetration performance claimed to be 10% higher than steel liner version.
- Country of origin: Soviet Union
3VBK10/3BK14
Entered service 1968.
- Country of origin: Soviet Union
- Projectile dimension: 680 mm
- Projectile weight: 19 kg
- Max dispersion: 0.21 mil (0.21 mrad)
- Muzzle velocity: 905 m/s
- Charge: shaped charge, steel liner, Okfol (phlegmatized HMX with 5% plasticizer) ; 3V-15 detonator
- Charge weight: 1.62 kg
- Penetration: 450 mm RHA at 0 degrees
3VBK16/3BK18
Entered service estimated 1975. Introduced wave-shaping booster.
- Country of origin: Soviet Union
- Round weight: 29.0 kg
- Projectile dimension: 680 mm
- Projectile weight: 19 kg
- Max dispersion: 0.21 mil (0.21 mrad)
- Muzzle velocity: 905 m/s
- Charge: shaped charge, steel liner, Okfol (phlegmatized HMX with 5% plasticizer); 3V-15 detonator
- Penetration: 500 mm RHA at 0 degrees
3BK18M
Improved warhead. Entered service estimated 1978, replacing steel liner with a copper liner. Improved wave-shaping booster.
- Country of origin: Soviet Union
- Projectile weight: 19.02 kg
- Muzzle velocity: 905 m/s
- Penetration: 550 mm RHA at 0 degrees
3VBK17/3BK21
Entered service estimated 1980. Enhancements to improve reliability of the copper jet formation.
- Country of origin: Soviet Union
- Projectile dimension: 680 mm
- Projectile weight: 19 kg
- Max dispersion: 0.21 mil (0.21 mrad)
- Muzzle velocity: 905 m/s
- Charge: shaped charge, copper liner, Okfol (phlegmatized HMX with 5% plasticizer); 3V-15 detonator
- Penetration: 550 mm RHA at 0 degrees
3BK21B
Entered service estimated 1982. "Material B" depleted uranium alloy liner to enhance penetration of advanced composite armours like Chobham.
- Country of origin: Soviet Union
- Projectile dimension: 680 mm
- Projectile weight: 19 kg
- Muzzle velocity: 905 m/s
- Penetration: 750 mm RHA at 0 degrees[12]
3VBK21/3BK25
Entered service estimated 1985.
- Country of origin: Soviet Union
- Muzzle velocity: 905 m/s
3VBK25/3BK29 "Breyk"
Entered service estimated 1988. A new type of explosive-filling was applied, which improved focusing of the jet stream.
- Country of origin: Soviet Union
- Round weight: 28.4 kg
- Projectile dimension: 680 mm
- Projectile weight: 18.4 kg
- Muzzle velocity: 915 m/s
- Penetration: 350mm to 400mm RHA at 60 degree tandem-charge
3VBK25M/3BK29M
- Country of origin: Soviet Union
- Projectile weight: 18.4 kg
- Charge weight: 1.62 kg
- Muzzle velocity: 915 m/s
- Penetration: Estimated at 800 mm tandem-charge HEAT[13]
HE-frag-FS
High explosive fragmentation fin stabilised. General purpose rounds, for use against infantry, bunkers and light vehicles and other "soft" targets.
3VOF22/3OF19
Entered service in 1962. Uses the 3V-21 detonator (mass = 0.431 kg, reliability = 0.98). The 90% lethal zone for infantry is reported to be 40 m wide and 20 m deep.[2]
- Country of origin: Soviet Union
- Round weight: 33.0 kg
- Projectile weight: 23.0 kg
- Muzzle velocity: 850 m/s
- Max dispersion: 0.23 mil (0.23 mrad)
- Charge weight: 3.148 kg
- Charge: TNT
3VOF36/3OF26
Entered service in 1970. Uses the 3V-21 detonator (mass = 0.431 kg, reliability = 0.98). The projectile creates between 600 and 2,000 fragments. The body is made up of 45Kh1 steel or 60S2 high-fragmentation steel for modern projectiles. Modern projectiles creates up to 2,500 effective fragments.
- Country of origin: Soviet Union
- Round weight: 33.0 kg
- Projectile weight: 23.0 kg
- Muzzle velocity: 850 m/s
- Max dispersion: 0.23 mil (0.23 mrad)
- Charge weight: 3.4 kg
- Charge: A-IX-2 (73% RDX, 23% aluminium powder, phlegmatized with 4% wax) 3.4 kg
3VOF128/3OF82
Entered service in 2014. Uses the 3VM-18 programmable detonator. The projectile contains 450 tungsten rods, each weighing 3 grams and creates 2,500 fragments in a cone formation ahead of the projectile[14] when air burst mode is set. Air burst mode for use against infantry, light vehicles and helicopters, delayed mode use against bunkers and other constructions. Is currently used on the 2A46M-5 gun, mounted on the T-90M.[14]
- Country of origin: Russia
- Round weight: 33.0 kg
- Projectile weight: 23.0 kg
- Muzzle velocity: 850 m/s
- Max dispersion: 0.23 mil (0.23 mrad)
- Charge weight: 3.0 kg
- Charge: A-IX-2 (73% RDX, 23% aluminium powder, phlegmatized with 4% wax) 3.0 kg
Shrapnel-FS
3VSh7/3Sh7 "Voron"
Entered service in 1975. Uses the 3VM-17 time detonator. For use against wide area infantry and light vehicles. Time of detonation setting is mechanical, for modernization, the shell fuze could be set automatically by improved "Ainet" systems or "Kalina" systems, which are available on the T-90K commander tank or the regular main battle tanks such as the T-90A, T-90M, T-80UA, and the T-14 Armata main battle tank.[15]
- Country of origin: Soviet Union
- Round weight: 31.3 kg
- Projectile weight: 21.3 kg
- Muzzle velocity: 900 m/s
- Projectiles contain:4,700 flechette weighing 1.26 g each
- Charge weight: 0.08 kg (A-IX-1)
3VSh8/3Sh8 "Ainet"
Entered service in 1988. Uses the 3VM-12 programmable detonator. A part of Remote detonation system "Ainet" on T-80UK commander tank.
- Country of origin: Soviet Union
- Round weight: 31.3 kg
- Projectile weight: 21.3 kg
- Muzzle velocity: 900 m/s
- Projectiles contain: 4,700 flechettes weighing 1.26 g each
- Charge weight: 0.08 kg (A-IX-1)
ATGW/ATGM
9M112 Kobra
The 9K112 Kobra (NATO reporting name is AT-8 Songster) is also fired from the 125 mm main guns of the T-64 and T-80 series of tanks[16]
- Country of origin: Soviet Union
- Projectile weight: 23.2 kg
- Warhead weight: 4.5 kg
- Guidance system: Radio-command guided
- Range: 100 – 4000 m
- Penetration: Estimated at 700 millimetres (28 in) after ERA tandem-charge HEAT
9M119 Refleks
The 9M119 Svir and 9M119M Refleks (NATO reporting name: AT-11 Sniper) anti-tank guided missile has semi-automatic command to line of sight (SACLOS) laser beam riding guidance and a tandem shaped charge HEAT warhead. It has an effective range of 75 m to 5000 m, and takes 17.6 seconds to reach maximum range. Refleks can penetrate about 900 millimetres (35 in) of steel armour and can engage low-flying air targets such as helicopters.[16]
- Country of origin: Soviet Union
- Projectile weight: 16.5 kg
- Warhead weight: 4.5 kg
- Guidance system: Laser beam riding
- Range: 75 – 5000 m
- Penetration: Estimated at 900 millimetres (35 in) after ERA tandem charge HEAT
3UBK21 Sprinter
Designed for the 2A82-1M gun on T-14 Armata tanks, the 3UBK21 Sprinter has millimeter wave semi-automatic command to line of sight (SACLOS) guidance and a tandem shaped-charge HEAT warhead. It has an effective range of 50 m to 12000 m. and can penetrate 950 millimetres (37 in) of steel rolled homogeneous armour (RHAe) after explosive reactive armour (ERA). It can also engage low-flying air targets such as helicopters.[17]
- Country of origin: Russia
- Projectile weight: ?
- Warhead weight: ?
- Guidance system: millimeter wave
- Range: 50 – 12000 m
- Penetration: Estimated at 950 millimetres (37 in) after ERA tandem charge HEAT
Guided shell
Sokol-1
The Sokol-1 guided shell is fired from the 125 mm main gun, it borrowed design from the 152mm artillery shell 3OF75 Santimetr-M and both have very similar appearance, but with an added shaped charge cap into its design similar to the M712 Copperhead, intended to defeat heavily armoured targets. It uses the technique that is referred to as the Russian concept of impulse corrections (RCIC), an impulse steering flight control system to correct the projectile's trajectory.
- Country of origin: Russia
- Projectile weight: 23.0 kg
- Muzzle velocity: 850 m/s
- Guidance system: Semi-Active Laser/Passive target contour-based
- Range: 0.1 – 5.0 km (direct fire)
12 km (indirect fire) - Warhead: High-explosive/700 millimetres (28 in) penetration shaped charge
3UBK14F1/9M119F1
The 3UBK14F1 guided shell is fired from the 125 mm main gun, its design was modified from 9M119 missile, removing the rocket motor and replacing it with an extra thermobaric warhead, turning it into a guided shell. Its range was decreased to 3.5 km, and it is claimed to have three times the explosive power of regular thermobaric variant 125 mm guided missiles.
- Country of origin: Russia
- Projectile weight: 16.5 kg
- Muzzle velocity: 284 m/s
- Guidance system: Laser beam riding
- Range: 0.1 – 3.5 km
- Warhead: Thermobaric estimated 15 kg TNT equivalent
See also
- 2A46 D-81T
- 2A45 Sprut
- 120×570mm NATO
References
- "Pokonać pancerz! Część III – dane amunicji APFSDS-T". Archived from the original on 2018-07-02. Retrieved 2018-12-11.
- Stefan Kotsch. "Das Panzerdetail - Munition der 125 mm Kanone D-81" (in German). Kotsch88.de. Retrieved 2010-06-26.
- "Headstamps, Color Codes, Markings - The Russian Ammunition Page". www.russianammo.org. Retrieved 2023-06-20.
- "БАСТИОН, BASTION. ВОЕННО-ТЕХНИЧЕСКИЙ СБОРНИК. ИСТОРИЯ ОРУЖИЯ, ВОЕННАЯ ТЕХНИКА. MILITARY-TECHNICAL COLLECTION. HISTORY OF WEAPONS, MILITARY EQUIPMENT". bastion-karpenko.ru. Retrieved 2021-07-25.
- "Headstamps, Color Codes, Markings - The Russian Ammunition Page". www.russianammo.org. Retrieved 2023-06-20.
- LLC, CalculatorSoup. "Kinetic Energy Calculator". CalculatorSoup. Retrieved 2021-07-25.
- "152-мм пушка для Т-14: актуальность и перспективы". 13 September 2016.
- PAWLIKOWICZ, Leszek; SUROWIEC, Krzysztof (2019). "MODERNISATION OF THE ARMOURED COMPONENT OF THE RUSSIAN FEDERATION'S GROUND FORCES IN THE YEARS 2015–2018. AN OUTLINE OF THE SUBJECT". Humanities and Social Sciences Quarterly. doi:10.7862/rz.2019.hss.41. ISSN 2300-5327. S2CID 213022852.
- "No idea if this is a legit leak or not, but this image has been circulating". Twitter. June 1, 2022.
- "125 mm (APFSDS-T)". March 19, 2023.
- "125 mm (APFSDS-T) TAPNA" (PDF). March 19, 2023.
- "Archived copy". www.knoe.odgw.net. Archived from the original on 7 April 2005. Retrieved 15 January 2022.
{{cite web}}
: CS1 maint: archived copy as title (link) - "Vasiliy Fofanov's Modern Russian Armour Page". Armor.kiev.ua. Retrieved 2010-06-26.
- "Russia's T-90M Main Battle Tank to Complete State Trials in 2019". thediplomat.com. Retrieved 8 June 2021.
- "Т-90 - российский основной танк".
- "125mm Guided Rounds".
- Mizokami, Kyle (2017-06-21). "Russia's T-14 Tank Can Outshoot America's by Miles". Popular Mechanics. Retrieved 25 September 2018.
External links
- Vasiliy Fofanov's Modern Russian Armour Page - Extensive information
- Headstamps, Color Codes, Markings - The Russian Ammunition Page - Explosive compositions and designations