Ammunition Data: Difference between revisions

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Note that the penetration values below are line of sight (LOS) estimations measured at the muzzle against a semi-infinite target meeting the specifications for a [https://en.wikipedia.org/wiki/NATO_targets NATO single heavy] type array.  As the [[SB armormodel|armor model]] of ''Steel Beasts Professional'' takes in to account armor angle along with velocity fall off due to range and armor composition, actual in-sim penetration values may vary considerably (generally lower) than what is listed.
Note that the penetration values below ("RHAe" in milimeters) are line of sight (LOS) estimations measured at the muzzle against a semi-infinite target meeting the specifications for a [https://en.wikipedia.org/wiki/NATO_targets NATO single heavy] type array.  As the [[SB armormodel|armor model]] of ''Steel Beasts Professional'' takes in to account armor angle along with velocity fall off due to range and armor composition, actual in-sim penetration values may vary considerably (generally lower) than what is listed.
 
The "Range" column indicates the cutoff range for AI engagements. This value is derived from published data representing such factors as tracer burnout (small arms and HMG), ballistic computer limitations, or the round's performance degrading below the 50% probability of hit/kill threshhold.  





Revision as of 10:43, 1 August 2020

Note that the penetration values below ("RHAe" in milimeters) are line of sight (LOS) estimations measured at the muzzle against a semi-infinite target meeting the specifications for a NATO single heavy type array. As the armor model of Steel Beasts Professional takes in to account armor angle along with velocity fall off due to range and armor composition, actual in-sim penetration values may vary considerably (generally lower) than what is listed.

The "Range" column indicates the cutoff range for AI engagements. This value is derived from published data representing such factors as tracer burnout (small arms and HMG), ballistic computer limitations, or the round's performance degrading below the 50% probability of hit/kill threshhold.


Small Arms

Ammunition Range[m] RHAe[mm] Velocity[m/s]
5.45mm RU: 7N6 Ball 300 6 920
5.45mm RU: 7N6M AP 300 8 830
5.56mm NATO: SS109 Ball 350 7 920
5.56mm NATO: M995 AP 350 16 940
7.62mm x 51: M61 AP 600 16 854
7.62mm RU: M43 Ball 1200 10 834
.308 Winchester: Generic Ball 400 6 780
7.62mm NATO/US/DE: M80 Ball 1200 11 854
7.62mm DK: AMA 64 Ball 1200 10 820
.30-06 Springfield: M2 Ball 1370 10 877
.300 Winchester: MK 248 MOD 0 AP 1100 22 910
.338 Lapua Magnum: LockBase B408 1400 15 915
.338 AP485: XM1154 AP-I 1600 25 905

RHAe[mm] (Penetration) column:

  • Black text: RHAe (KE) penetration

HMG

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date
.50 BMG: M2 AP-T 1800 28 857
.50 BMG: M33 Ball 1800 21 887
.50 BMG: M8 AP-I 1800 29 887
.50 BMG: Mk 211 APHEI 1800 24 886 1981
.50 BMG: M903 SLAP 1500 35 1150 1990
.50 BMG: PBAPT M/84LS 2500 25 739 1984
.50 BMG: PPT M/85LS 1800 30 739 1985
12.7mm RU: B-32 AP 1600 27 818 1940s
12.7mm RU: BZT-44 API-T 1600 30 820 1940s
14.5mm KPV: B-32 AP 1500 45 988 1941
14.5mm KPV: BS-41 AP-I 1500 52 976 1941
14.5mm KPV: BZT-44 AP-I-T 1500 40 976 1944

RHAe[mm] (Penetration) column:

  • Black text: RHAe (KE) penetration

Autocannon

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date Comments
20mm RH202: DM43 API-T 1500 55 1100 1972
20mm RH202: DM63 APDS-T 1500 60 1150 1989
20mm RH202: DM31A1 HE-I 2000 14 1055 1950s 10g HE filler, no tracer.
20mm RH202: DM41A1 HE-I-T 2000 14 1055 1960s 8g HE filler, with tracer.
20mm RH202: DM51A2 HE-I-T 2000 14 1055 1970s 6.5g HE filler, with tracer and improved fusing.
20mm RH202: DM81 HE-I-T 2000 14 1055 1972 10g HE filler, with tracer and further improved point fusing.
20mm RH202: DM101 HE-I-T 2000 14 1055 1972 10g HE filler, no tracer (currently modeled with a tracer), with small incendiary package and base fusing. Note, this round is mixed (4/1) with the DM81.
20mm M197: M384 HE 2200 71 241 1981
23mm 2A7: BZ API 2500 45 1000 1960s
23mm 2A7: BZT API 2500 40 970 1970s
23mm 2A7: APDS-T EUROP 3000 60 1220 1990s
23mm 2A7: PMA276 FAPDS-T 3000 70 1100 1990s
23mm 2A7: FAPDS-T (BG) 3000 70 1100 1990s
23mm 2A7: FAPDS-T (PL) 3000 50 1170 1990s
23mm 2A7: OZT HEI-T 2500 14 970 1960s
25mm Bushmaster: M791 APDS-T 2000 60 1345 1983
25mm Bushmaster: M919 APFSDS-T 2100 100 1385 1994
25mm Bushmaster: M792 HEI-T 3000 35 1100 1983
25mm Bushmaster: SAPHEI-T 1800 45 1100 1983
30mm 2A42/2A72: 3UBR6 AP 1200 51 970 1970s
30mm 2A42/2A72: 3UBR8 BP AP 1800 60 1120 1990s
30mm 2A42/2A72: 3UOF6 OT HEI-T SD 1500 35 960 1970s
30mm 2A42/2A72: Sloboda 30mm x 165 HEI-T SD 1500 35 960 1980s
30mm M230: M789 HEDP 2000 46 805 1997
30mm RARDEN: L14A2 APDS-T 1500 60 1170 1970s
30mm RARDEN: L14A3 APDS-T 1800 80 1170 1986
30mm RARDEN: PMC 287 KERR 2000 95 1325 2000s
30mm RARDEN: L13A2 HE-T 2200 46 1070 1966
30mm Mauser: NM225 APFSDS-T 2000 110 1410 1990s
30mm Mauser: PMC 287 APFSDS-T 2000 110 1390 1990s
30mm Mauser: NM219 TP-T/TP-R3 3000 20 1085 no date
30mm Mauser: NM222 MP-T/SD 3000 30 1085 no date
30mm Mauser: ABM/KETF 4000 35 1100 no date
30mm Bushmaster II: PSA VJ 03 PSV 2000 110 1405 1990s
30mm Bushmaster II: PSA VJ 03 PN 2000 110 1430 1990s
30mm Bushmaster II: PSSYKR VJ 03 3000 30 1070 no date
35mm Bushmaster III: NMxxx APFSDS-T 2500 130 1360 2000s
35mm Bushmaster III: PMD 049 APDS-T 2200 110 1440 1989
35mm Bushmaster III: ABM M/XX LS 4000 58 1050 2005
35mm Bushmaster III: M/XX LS HEI 4000 35 1175 no date
35mm Bushmaster III: PPT FRAG M/XX LS 4000 120& 1400 no date
40mm Bofors L70: Slpprj 90 2000 140 1465 1993
40mm Bofors L70: Slpprj 90LK/97 2500 140 1465 1997
40mm Bofors L70: Slpprj 95LK/05 2000 170 1510 2005
40mm Bofors L70: Slsgr 90 4000 60 988 1990
40mm Bofors L70: Kulsgr 90 3000 40 1015 1990
40mm Bofors L70: Kulsgr 95LK 3000 20& 1000 1995

RHAe[mm] (Penetration) column:

  • Black text: RHAe (KE) penetration
  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
&Hybrid round that impacts as KE, then detonates into fragments

Main Gun

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date Comments
73mm SPG-9/2A28: PG-9N HEAT-T 900 300 700 1966
73mm SPG-9/2A28: PG-15V HEAT-T 900 400 690 1973
73mm SPG-9/2A28: PG-15VNT HEAT-T 900 550 690 1980s
73mm SPG-9/2A28: OG-15BG HE-Frag 400 150 230 1970s
75mm 75/SA 50: PCOT-51P APCBC-T 1000 200 1000 1951
75mm 75/SA 50: POT-51A APC-T 1000 130 1000 1951
75mm 75/SA 50: OE HEF-T 3000 90 753 1950
75mm 75/SA 50: M50 Canister 220 15 605 1998
76mm D-56T: BR-354P HVAP 1060 110 955 1950s
76mm D-56T: BK-350M HEAT 1000 280 325 1942
76mm D-56T: OF-350 HEF 3500 150 680 1941
90 mm Cockerill: M690A1 Mk8 APFSDS 3000 310 1330 1990s
90 mm Cockerill: M691A2 HESH-T 2300 280 712 1990s
90mm F3: OFL 90 F1 APFSDS 1650 310 1275 1966
90mm F3: OCCC F2 HEAT-T 1100 310 950 1966
90mm F3: OE F2 HEF 925 160 750 1966
90mm F3: OFUM F2 WP 925 94 750 1966
90mm F3: ODR F2 Canister 220 18 950 1966
100mm D-10T: BR-412D AP-T 1200 240 887 1953 This round was still in use by the Egypt and Syria in 1973 Yom Kippur War, since it was surplus ammo by that time and the BM-8 was expensive by comparison. It seems that the BM-8 was fielded exclusively by Warsaw Pact and Soviet units of the same period.

The T-55 with BR-412D should be used for all third world nations until the 1980s.
100mm D-10T: BM-8 HVAPDS-T 1700 300 1415 1968 Assumption: third world client states probably obtained this round in the mid to late 1980s.
100mm D-10T: BM-20 APFSDS-T 2000 390 1408 1976
100mm D-10T: BM-25 APFSDS-T 2000 430 1430 1978
100mm D-10T: M309 APFSDS-T 2500 480 1400 1999
100mm D-10T: BK-5M HEAT-FS-T 1400 380 900 1955
100mm D-10T: OF-412 HE 4000 220 900 1950s
100mm D-10T: OF-412Zh HE 4000 220 900 1960s
105mm L7: L36A1 APDS-T 1800 270 1479 1961
105mm L7: L52 APDS-T 2500 300 1426 1973 The Leopard AS1 with L52 (or M728) is a good representation of a German Leopard 1A4 for 1974-77 scenarios.

For 1973 Yom Kippur War, the L52 was actually not available in large numbers but apparently a small amount were fielded by some units (the L36A1 was the abundant KE round used in that war).
105mm L7: L64A4 APFSDS-T 3000 410 1485 1983
105mm L7: M392 APDS-T 1800 270 1479 1961 This is the U.S. designation for the UK 105mm L36 round.
105mm L7: M728 APDS-T 2500 300 1426 1974 This is the U.S. designation for the UK 105mm L52 round.
105mm L7: M735 APFSDS-T 3000 410 1501 1978
105mm L7: M774 APFSDS-T 3000 440 1509 1980
105mm L7: M833 APFSDS-T 3000 490 1494 1983
105mm L7: M900 APFSDS-T 4000 650 1505 1989
105mm L7: CMC105 APFSDS-T 3500 430 1501 1980s
105mm L7: DM23 APFSDS-T 3000 390 1455 1978 This is the German designation for the Israeli 105mm M111 round.

The Leopard AS1 with DM23 is a good representation of a German Leopard 1A4 for 1978-86 scenarios (when the Leopard 1A5 became available).
105mm L7: DM33 APFSDS-T 4000 420 1450 1984
105mm L7: DM63 APFSDS-T 4000 530 1455 2000 This is the German designation for the Israeli 105mm M426 round.
105mm L7: M111 APFSDS-T 3000 390 1455 1978
105mm L7: M426 APFSDS-T 4000 530 1455 2000
105mm L7: PfeilPat78Lsp APFSDS-T 3500 390 1450 1978 This is the Swiss designation for the German 105mm DM23 round.
105mm L7: PPTFS M/85 LS APFSDS-T 4000 420 1455 1985 This is the Danish designation for the German 105mm DM33 round.
105mm L7: NR132 HEAT-T 1500 390 1174 1966
105mm L7: M456A1 HEAT-T 1500 390 1173 1966
105mm L7: M456A2 HEAT-T 1500 430 1174 1981
105mm L7: ME-456A1 HEAT-T 1500 600 1170 2002
105mm L7: DM12 HEAT-T 2100 430 1174 1981
105mm L7: M1061 HEAT-T 2100 430 1174 1981
105mm L7: OE 105 F1 HEAT-T 2100 390 1170 1970's
105mm L7: M393A1 HEP-T 3500 300 732 1965
105mm L7: M393A3 HEP-T 3500 300 750 2004
105mm L7: L35A3 HESH-T 4000 310 732 1970s
105mm L7: L-35 HESH-T 4000 310 935 2000
105mm L7: 105mm HESH-T 4000 310 731 no date
105mm L7: M-156-LS HESH-T 4000 310 731 no date
105mm L7: OE 105 F1 HEF-T 4000 240 700 1996
105mm L7: OFUM PH 105F1 HE-T 4000 150 695 1997
105mm L7: M416 WP-T 3500 150 732 1970s
105mm L7: L34 WP 4000 180 670 1985
105mm L7: RGRPT M/87 LS WP-T 4000 180 731 1970s
105mm L7: M1040 Canister 500 20 1410 2007
106mm M40 RCL: 106 I-HEAT (M346A1) 1350 480 503 1980s
115mm 2A20: BM-4 APFSDS-T 2000 240 1600 1963
115mm 2A20: BM-6 APFSDS-T 2000 260 1680 1967 This round seems to be the one used by the Arabs in 1973 Yom Kippur War, based on sources that state that the T-62 KE ammunition could penetrate the Shot Kal tank from the front. Based on the penetration value of the BM-4 and BM-6, the BM-4 cannot penetrate the Shot Kal from the front, but the BM-6 can penetrate it in the front hull area. (Source: Osprey, Yom Kippur War 1973.)
115mm 2A20: BM-21 APFSDS-T 2300 430 1600 1975
115mm 2A20: BM-28 APFSDS-T 2300 460 1650 1978
115mm 2A20: BM-36 APFSDS-T 2500 520 1650 1988
115mm 2A20: BK-4M HEAT-FS-T 2000 440 900 1969
115mm 2A20: BK-15M HEAT-FS-T 2500 470 1060 1980s
115mm 2A20: OF-11 HEF-FS-T 4000 260 905 1960s
115mm 2A20: OF-18 HEF-FS-T 4000 270 750 1970s
115mm 2A20: OF-27 HEF-FS-T 4000 290 800 1970s
120mm L11A5: L15 APDS-T 1800 390 1370 1965
120mm L11A5/L30: L23A1 APFSDS 3500 480 1542 1985
120mm L30: L26A1 CHARM1 APFSDS 3500 510 1575 1991
120mm L30: L27A1 CHARM3 APFSDS 3500 610 1675 1999
120mm L30: L28A1 APFSDS 3500 630 1720 2000s
120mm CN120-26: OFL120 F1 APFSDS-T 3000 690 1790 1993
120mm CN120-26: OFL120 F2 APFSDS-T 3500 690 1780 1996
120mm RM: DM13 APFSDS 3200 470 1650 1979
120mm RM: DM13A1 APFSDS 3500 490 1640 1983
120mm RM: DM23 APFSDS-T 3500 520 1650 1983
120mm RM: DM33 APFSDS-T (L44) 3500 600 1650 1987
120mm RM: DM33 APFSDS-T (L55) 3500 630 1710 1987
120mm RM: DM33 PELE 2000 200& 1650 2006 This round is a development of Rheinmetall’s Penetrator with Enhanced Lateral Effect program to extend the service life of outdated but still useful ammunition types.
120mm RM: DM53 APFSDS-T (L44) 4000 750 1650 1999
120mm RM: DM53 APFSDS-T (L55) 4000 800 1750 1999
120mm RM: PfielPat87Lsp APFSDS-T 3500 600 1650 1987 This is the Swiss designation for the German 120mm DM33 round.
120mm RM: KE-W APFSDS-T 3500 630 1585 1991
120mm RM: KE-WA1 APFSDS-T 4000 670 1740 1999
120mm RM: KE-WA2 APFSDS-T 4000 700 1700 2004
120mm RM: Slpprj m/95 APFSDS-T 4000 650 1650 1995
120mm RM: CL3143 APFSDS-T 4000 690 1770 1999
120mm M256: M829 APFSDS-T 3500 600 1670 1985
120mm M256: M829A1 APFSDS-T 3500 700 1575 1988
120mm M256: M829A2 APFSDS-T 4000 750 1680 1993
120mm M256: M829A3 APFSDS-T 4000 840 1555 2003
120mm RM: DM12A1 HEAT-T (L44) 2600 600 1140 1979
120mm RM: DM12A1 HEAT-T (L55) 2600 600 1180 1979
120mm M256: M830 HEAT-T 2600 600 1140 1983
120mm M256: M830A1 HEAT-MP-T 2800 420 1410 1993
120mm M256: M908 HE-OR-T 2800 250 1410 2003
120mm L11A5/L30: L31A7 HESH-T 4000 370 670 1985
120mm CN120-26: DM12A1 HEAT-T 2600 600 1175 1979
120mm CN120-26: Slsgr 95 HE-T 2600 290 780 1995
120mm RM: DM11 HE-T 5000 430 980 2010
120mm RM: Slsgr 95 HE-T 2600 290 744 1995
120mm M256: M1028 Canister 500 24 1410 2004
120mm L11A5/L30: L34 WP-T 4000 180 670 1985
125mm 2A46: BM-9 APFSDS-T 2200 260 1800 1962 Because of its poor performance, this round was supplied as export to all initial T-72s (Source: Modern Russian Armor, Fofanov).

T-72M with BM9 should be used for Syrians in 1982 Lebanon War scenarios.
125mm 2A46: BM-12 APFSDS-T 2200 280 1800 1968
125mm 2A46: BM-15 APFSDS-T 2200 350 1800 1972 This round was in use by the Soviet Army until 1976, and then it was exclusively for export and also license-produced by some nations. The BM-15 was the most advanced 125mm KE ammo type available to client states until after 1991. (Source: Modern Russian Armor, Fofanov).

T-72M1 with BM15 should be used for Iraqis in 1991 Gulf War scenarios.
125mm 2A46: BM-22 APFSDS-T 3100 440 1750 1976
125mm 2A46: BM-26 APFSDS-T 3200 450 1750 1983
125mm 2A46: BM-29 APFSDS-T 3200 460 1750 1982
125mm 2A46: BM-32 APFSDS-T 3300 540 1700 1985
125mm 2A46: BM-42 APFSDS-T 3300 510 1700 1986 Used by the Russians in late 1980s, and possibly the best Russian KE round exported post 1991 (after the Russians replaced it with the BM46).
125mm 2A46: BM-46 APFSDS-T 3500 640 1700 1991
125mm 2A46: BM-42M APFSDS-T* 3500 660 1750 1994
125mm 2A46: BM-59 APFSDS-T* 4000 810 1725 ~2010
125mm 2A46: BM-60 APFSDS-T* 4000 710 1725 ~2010
125mm 2A46: ZPS Pronit APFSDS-T 3500 540 1650 1996 Can be used to represent the Slovak TAPNA round.
125mm 2A46: T-2A APFSDS-T 3500 570 1700 1997 Can be used to represent the Czech EPpSv-97 round.
125mm 2A46: 125-I APFSDS-T 3500 580 1730 1993
125mm 2A46: 125-II APFSDS-T 3500 640 1740 1990s
125mm 2A46: M711 APFSDS-T 3500 670 1700 1996
125mm 2A46: BM-15 PELE 2200 180& 1800 2006 This round is a further development of Rheinmetall’s Penetrator with Enhanced Lateral Effect program to extend the service life of outdated but still useful ammunition types.
125mm 2A46: BK-12M HEAT-FS-T 2700 440 905 1969
125mm 2A46: BK-14M HEAT-FS-T 2700 500 905 1970s
125mm 2A46: BK-18M HEAT-FS-T 2700 630 905 1980s
125mm 2A46: BK-21B HEAT-FS-T 2800 760 905 1980s
125mm 2A46: BK-29 HEAT-FS-T 2800 650# 915 1988
125mm 2A46: BK-31 HEAT-FS-T 2800 720# 915 1988
125mm 2A46: HEAT-T 2800 500 850 1982
125mm 2A46: OF-19 HEF-FS-T 4000 310 850 1962
125mm 2A46: OF-26 HEF-FS-T 4000 310 850 1970
125mm 2A46: AT-8* (9M112 Kobra) 4000 (100‡) 600 400 1979 ATGM
125mm 2A46: AT-11 (9M119 Svir) 4000 (75‡) 700 334 1985 ATGM
125mm 2A46: AT-11b (9M119 Svir-M) 4000 (75‡) 650# 334 1986 ATGM
125mm 2A46: AT-11 (9M119M Refleks) 5000 (75‡) 700 341 1985 ATGM
125mm 2A46: AT-11b (9M119M Refleks-M) 5000 (75‡) 700# 341 1992 ATGM

RHAe[mm] (Penetration) column:

  • Black text: RHAe (KE) penetration
  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
  • Orange text: Incendiary effect, does not represent actual RHA equivalent thickness penetration
*Not usable by T-72
&Hybrid round that impacts as KE, then detonates into fragments
#Tandem warhead, defeats ERA
‡Minimum range for gun launched ATGMs

ATGM

Ammunition Range[m] (min) Range[m] (max) RHAe[mm] Velocity[m/s] Date Comments
AT-2c 500 4000 500 160 1980s
AT-3d 500 3000 520 115 1980s
AT-4a 70 2000 480 186 1970
AT-4b 70 2500 460 186 1983
AT-4c 70 2500 500 180 1991
AT-5a 70 4000 650 200 1974
AT-5b 70 4000 780 208 1990
AT-6 400 5000 600 450 1990
AT-7 40 1000 460 223 1979 Removed in rev. 2.640.
AT-10a 100 4000 550 308 1983
AT-10b 100 4000 600# 308 1991
AT-10b+ 100 4000 600# 308 1990s Maximum range for this missile is reduced to 5500m when fired from the BMP-3.
AT-10c 100 4000 750# 308 1999
AT-10c+ 100 4000 750# 308 1990s Maximum range for this missile is reduced to 5500m when fired from the BMP-3.
AT-13 40 1500 650 200 1990 Removed in rev. 2.640.
AT-14 (Kornet) 100 5500 1020# 300 1998
AT-14 (Kornet-E FAE) 100 5500 1020 300 1998 10 kg Thermobaric warhead for use against troops and field fortifications; kills via blast over-pressure.
AT-14 (Kornet-EM) 150 8000 1100# 300 2001 Extended range "fire and forget" variant.
AGM-114C 500 8000 850* 425 1990 Laser guided (helicopter must maintain LOS with target).
AGM-114K 500 8000 850*# 425 1993 Laser guided (helicopter must maintain LOS with target.
AGM-114L 500 8000 850*# 425 1993 Radar guided/fire and forget (helicopter is not required to maintain LOS with the target, this should be used to simulate the AH-64D Longbow).
Dragon 75 1000 330 87 1973
Dragon II 75 1000 450 87 1985
Dragon III/Superdragon 75 1500 450 87 1990
HOT 2 75 4000 950 242 no date
Javelin 125† 2500 600* 200 1996
Milan 400 1975 590 200 1972
Milan 2 400 1975 790 160 1984
Milan 2T 400 1920 790# 140 1993
Milan 3 400 1920 790# 140 1996
Milan 3ER 400 3000 880# 140 2008
RBS56 BILL 150 2200 600^ 250 1985
RB57 STORM 20 2200 600^ 250 2006
Spike LR 200 4000 700* 165 1997
Spike MR 200 2500 700* 165 1997
TOW 65 3750 430 320 1976 This is the initial BGM-71A/B with the 3.9 kg warhead.
ITOW 65 3750 630 320 1978 The BGM-71C upgrades the "B" variant with an extensible stand-off probe for better penetration.
TOW 2 65 3750 890 320 1983 The BGM-71D upgrades the "C" variant with improved guidance, a larger motor, and an enlarged 5.9 kg main warhead.
TOW 2A 65 3750 890# 320 1988 Optimized to defeat first and second generation reactive armours, the BGM-71E carries a small precursor charge in the stand-off probe tip.
TOW 2A Aero 65 4000 890# 320 2004 Modified with a a special nose cap to increase range, the BGM-71E-3 is not in use by the U.S. military, but has been exported to a number of TOW users worldwide.
TOW 2A Aero RF 65 4500 890# 320 2009 This version of the BGM-71E-3 uses a wireless one way radio link in addition to the modified nose cap and has a longer range than the standard Aero version.
TOW 2B 65 3750 300^ 320 1993 The current issue BGM-71F is a top attack missile using two offset 6.14kg explosively formed penetrators.
TOW 2B Aero 65 4000 300^ 320 2004 Modified with a a special nose cap to increase range, the BGM-71F-3 is in current use by the U.S. military, but has not been as widely exported as the TOW-2A version.
TOW 2B Aero RF 65 4500 300^ 320 2009 This version of the BGM-71F-3 uses a wireless one way radio link in addition to the modified nose cap and has a longer range than the standard Aero version.

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
^TOW 2B, RBS56 BILL and RB57 STORM are top attack
*Hellfire, Spike LR and Javelin have a diving terminal phase
#Tandem warhead, defeats ERA
†Minimum range for both top attack and direct fire modes (rev 4.006)

Note that Steel Beasts Professional does not simulate the actual arming or "gathering" ranges for all ATGMs but instead inhibits computer controlled units from firing their missiles within certain ranges. This means that it is possible for units to be destroyed by certain ATGMs if the missile is fired before the element in question is below the minimum range indicated above.

Infantry Light Anti-Armor Weapons

Ammunition Range[m]* RHAe[mm] Velocity[m/s] Date Comments
C90-CR-AM (M3) 800 200 160 2000s Dual purpose shaped charge warhead with a specialized anti-personnel fragmentation body.
C90-CR-BK (M3) 350 70 160 2000s Features a tandem warhead precursor to defeat fortifications.
C90-CR-RB (M3) 400 430 180 2000s Standard anti-armor HEAT warhead.
M72A1 LAW 300 250 140 1960s*
M72A4 LAW 300 320 145 1980s*
M136 AT-4 400 500 290 1985
M136 AT-4 HEDP 502 400 150 290 1985 Dual purpose warhead for use against bunkers, buildings, enemy personnel in the open. Gives up overall penetration for better post-penetration effects.
M136 AT-4CS 350 500 220 2000 Version optimized for use in confined spaces, resulting in reduced range but greater operator safety and tactical advantage.
M2 Carl Gustav: 84mm HEAT 551 700 350 297 1964
M2 Carl Gustav: 84mm HEAT 551C 700 450 298 1964
M2 Carl Gustav: 84mm HE 441D 1000 50 237 1964
M2 Carl Gustav: 84mm HEDP 502 1000 150 225 1964 Dual purpose warhead for use against bunkers, buildings, enemy personnel in the open. Gives up overall penetration for better post-penetration effects.
lePzF 300 350 243 1960
PzF 3 400 630 243 1987
PzF 3T 400 720# 243 1996
RPG-7 300 260 300 1961
RPG-7M 300 300 300 1969
RPG-7S1 300 360 300 1972
RPG-7L 300 550 200 1977
RPG-7N 500 400 300 1980s
RPG-7R 200 630# 120 1988
TBG-7 300 350 270 1997
OG-7 1000 120 300 1999
RPG-7LT 300 410# 200 1990s
RPG-22 200 400 133 1980
RPG-26 340 440 144 1985
RPG-27 250 720# 120 1989
RPG-27 RMG 250 400# 120 1989 Dual purpose warhead for use against bunkers, buildings, and light-armor. Gives up overall penetration for better post-penetration effects.
RPG-27 FAE 550 100 220 1989
RPG-29 800 720# 280 1989
RB57 STORM 800 600^ 300 2006
Spike SR 1500 700# 165 2012
Spike SR PBF 1500 700 165 2012

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
^RB57 STORM light ATGM is top attack
#Tandem warhead, defeats ERA
*All light infantry anti-armor weapons have a minimum range of 20m or less except the Spike SR which is 50m

Infantry Support Weapons

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date
40mm AGL: M384 HE 2200 35 241 1981
40mm AGL: M430 HEDP 2200 71 241 1990s
40mm AGL: M9219A2 HEDP 2200 80 242 2000s
40mm AGL: M0725A1 HEDP-SD 1600 80 242 2000s
40mm AGL: M8842A1 HE 1600 80 242 2000s
40mm AGL: M9219A2 HVMF 2200 80 242 2001
40mm GL: M381 HE 400 25 76 1990s
40mm GL: M713 Smoke 400 12 76 1990s

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
  • Orange text: Incendiary effect, does not represent actual RHA equivalent thickness penetration

Artillery Rounds

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date
60mm M6C: HE-TNT Mk2 1900 130 71 2010
60mm M6C: HE-TNT Mk2 (Long) 3900 130 79 2010
60mm M6C: SMK-WP Mk2 1900 14 71 2010
60mm M6C: SMK-WP Mk2 (Long) 3900 14 79 2010
81mm L16: SprGr 70 HE 4650 200 73 1970s
81mm L16: SprGr 80A1 HE 5500 200 73 1980s
81mm L16: NbGr 89 Smoke (WP) 5550 14 145 1989
120mm M120: M57 HE 7200 370 108 1980s
120mm M120: M929A1 Smoke (WP & Multispectral) 7120 14 14 1980s
122mm BM-21 Grad: 9M22/M21 OF HE-Frag (Rocket) 20000 750 699 1964
122mm BM-21 Grad: 9M22U HE-Frag (Rocket) 20100 750 686 1970s
122mm BM-21 Grad: 9M521 HE-Frag (Rocket) 40000 750 699 1990s
122mm BM-21 Grad: 9M522 HE-Frag (Rocket) 37500 750 699 2000s
122mm 2A18: OF-462 HE-Frag 15300 380 276 1980s
122mm 2A18: BP-1 HEAT-T 1500 180 740 1950s
122mm 2A18: BK-6M HEAT-T 1000 420 740 1970s
122mm 2A18: BK-13M HEAT-T 1500 520 690 1990s
122mm 2A18: BK-13MP HEAT-T 1700 480 690 1990s
122mm 2A18: 122mm HC HEAT-T 1500 400 690 1980s
122mm 2A18: D-462 Smoke 15300 14 276 1940s
152mm D-22: OF-540 HE-Frag 17410 520 282 1981
152mm D-22: O23 DPICM 21000 52 285 1980s
152mm D-22: D-540 Smoke (WP & Multispectral) 17410 14 282 1981
152mm 2A88: OF-45 HE-Frag 24700 520 285 1990s
152mm 2A88: OF-61 BB HE-Frag 32000 520 749 1990s
152mm 2A88: OF-64 HE-Frag 24700 520 582 1990s
152mm 2A88: 3OF-83 BB HE-Frag 40000 540 268 2010s
152mm 2A88: 3OF-83 BT HE-Frag 30000 540 268 2010s
155mm M-185: M107 HE 18000 540 273 1942
155mm M-185: M483 DPICM 21000 54 273 1970s
155mm M-185: M110A2 Smoke (WP & Multispectral) 18000 14 273 1940s
155mm Rheinmetall L52: M107C1 HE 17500 540 268 2004
155mm Rheinmetall L52: M1711A1 HE "Assegai" 40000 540 268 2019
155mm Rheinmetall L52: M1711A1 HE "Assegai PGK" 36000 540 661 2019
155mm Rheinmetall L52: M1712A1 HE "Assegai" 30000 540 268 2019
155mm Rheinmetall L52: M1712A1 HE "Assegai PGK" 27000 540 661 2019
220mm TOS-1A: TBS FAE-Frag (Rocket) 2800 1750 168 1980s
220mm TOS-1A: TBS-M FAE-Frag (Rocket) 6000 1750 250 2001
227mm M270: M26 ICM (Rocket) 32000 150 690 1980s
227mm M270: M26A1 ICM (Rocket) 32000 150 799 1983
227mm M270: M30 GRLRS-ICM (Rocket) 65000 150 941 2006

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration
  • Orange text: Incendiary effect, does not represent actual RHA equivalent thickness penetration

Aerial Rockets

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date
70mm Hydra 70: M247 HEDP 5000 310 740 1980's
80mm S-8KOM HEAT 2600 360 600 1980's
80mm S-8BM HEF-T 2600 250 600 1980's

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration
  • Green text: RHAe (HEAT) penetration

Surface to Air Missiles

Ammunition Range[m] RHAe[mm] Velocity[m/s] Date
RBS70: SAM 5000 300 501 1977
RBS70 Mk.1: SAM 6000 300 535 1990
RBS70 Mk.2: SAM 7000 300 600 1993
RBS70 (BOLIDE): SAM 7000 300 666 2001
FIM-92B Stinger: SAM 4800 200 750 1983
9M31M/SA-9B: SAM 5000 200 500 1970
9M311/SA-19: SAM 7500 890 900 No Date

RHAe[mm] (Penetration) column:

  • Red text: (HE/HESH) effect, does not represent actual RHA equivalent thickness penetration