BM-21 Grad

From Wikipedia, the free encyclopedia
(Redirected from Grad rocket)

BM-21 "Grad"
A Russian BM-21-1 on display in Saint Petersburg in May 2009
TypeMultiple rocket launcher
Place of originSoviet Union
Service history
In service1963–present
Used bySee operators
Wars
Production history
DesignerSplav State Research and Production Enterprise
Designed1963
ManufacturerSplav State Research and Production Enterprise
Produced1963–present
No. built8000 +[citation needed]
VariantsSee Variants
Specifications (9K51)
Mass13.71 tonnes (30,225 lb)
Length7.35 m (24 ft 1 in)
Barrel length3 m (9 ft 10 in)
Width2.4 m (7 ft 10 in)
Height3.09 m (10 ft 2 in)
Crew3

Caliber122 mm
Barrels40
Rate of fire2 rounds/s
Muzzle velocity690 m/s (2,264 ft/s)
Effective firing range0.5–52 km
SightsPG-1M panoramic telescope

EngineV8 gasoline ZiL-375
180 hp (130 kW)
Suspension6×6 wheeled
Operational
range
405 km (251 mi)
Maximum speed 75 km/h (47 mph)

The BM-21 "Grad" (Russian: БМ-21 "Град", lit.'hailstorm') is a self-propelled 122 mm multiple rocket launcher designed in the Soviet Union.[8] The system and the M-21OF rocket[9] were first developed in the early 1960s, and saw their first combat use in March 1969 during the Sino-Soviet border conflict.[10] BM stands for boyevaya mashina (Russian: боевая машинаcombat vehicle), and the nickname grad means "hail". The complete system with the BM-21 launch vehicle and the M-21OF rocket is designated as the M-21 field-rocket system. The complete system is more commonly known as a Grad multiple rocket launcher system.

In NATO countries the system, either the complete system or the launch vehicle only, was initially known as the M1964. Several other countries have copied the Grad or have developed similar systems. In Russian service its intended replacement is the 9A52-4 Tornado. Many similar 122 mm MLRS systems are made by different countries based on the BM-21 Grad.

Description[edit]

A BM-21-1 launch vehicle during a military parade in Yekaterinburg, May 2009.

The M-21 field rocket system with a BM-21 launch vehicle (122 mm multiple rocket launcher (MRL) system) entered service with the Soviet Army in 1963 to replace the aging 140 mm BM-14 system. The launch vehicle consists of a Ural-375D 6x6 truck chassis fitted with a bank of 40 launch tubes arranged in a rectangular shape that can be turned away from the unprotected cab.

The vehicle is powered by a water-cooled V8 180 hp gasoline engine, has a maximum road speed of 75 km/h (47 mph), a road range of up to 750 kilometers (470 mi), and can cross fords up to 1.5 m (4 ft 11 in) deep. The original vehicle together with supporting equipment (including the resupply truck 9T254 with 60 rockets) is referred to by the GRAU index "9K51". The launcher itself has the industrial index of "2B5". In 1976, the BM-21 was mounted on the newer Ural-4320 6x6 army truck.[citation needed]

The three-member crew can emplace the system and have it ready to fire in three minutes. The crew can fire the rockets from the cab or from a trigger at the end of a 64-meter (210 ft) cable. All 40 rockets can be away in as little as 20 seconds, and can be fired individually or in small groups in several-second intervals. A PG-1M panoramic telescope with a K-1 collimator can be used for sighting.[citation needed]

Each 2.87-meter (9 ft 5 in) rocket is slowly spun by rifling in its tube as it exits, which along with its primary fin stabilization keeps it on course. Rockets armed with high explosive-fragmentation, incendiary, or chemical warheads can be fired 20 kilometers (12 mi). Newer high explosive and cargo rockets (used to deliver anti-personnel or antitank mines) have a range of 30 kilometers (19 mi) and more. Warheads weigh around 20 kilograms (44 lb), depending on the type.[citation needed]

The number of rockets that each vehicle is able to quickly bring to bear on an enemy target makes it effective, especially at shorter ranges. One battalion of eighteen launchers is able to deliver 720 rockets in a single volley. The system has lower precision than gun artillery and cannot be used in situations that call for pinpoint accuracy. It relies on a large number of shells dissipating over an area for a certain hit rate on specific targets. Because of the short warning time for the impact of the whole volley, the BM-21 is still considered an effective weapon.[citation needed]

Variants[edit]

A BM-21 launch vehicle.
The 9P138 launch vehicle of the Grad-1 multiple rocket launcher system.
A BM-21V VDV variant.

Russia[edit]

  • BM-21: Original version known as the BM-21 launch vehicle. The launcher unit was mounted on a modified Ural-375D truck chassis.
    • BM-21-1: Launch vehicles are mounted on a family of Ural-4320 truck chassis.
    • 2B17 or also BM-21-1: This upgrade was presented for the first time in 2003 and was developed by Motovilikha Plants from Perm. The system is fitted with a satellite navigation system NAP SNS, automated fire control system ASUNO, APP laying system and can fire a new generation of rockets with a range of 40 km (25 mi). The truck is the Ural-43201.

  • 9P138 "Grad-1": lighter 36-round version, mounted on a 6x6 ZIL-131 chassis. The vehicle with supporting equipment (rockets, transporter 9T450 and resupply truck 9F380) is referred to as complex 9K55. The 9P138 can only use "short-range" rockets with a range of 15 km (9.3 mi). It used to be known in the West as BM-21b or M1976.

  • BM-21V "Grad-V" (Vozdushnodesantniy – 'airborne') (NATO designation M1975): Developed for Soviet airborne troops in 1969. A GAZ-66B 4x4 truck chassis is fitted with a 12-round 122 mm rocket launcher. The vehicle is sturdy enough to be air-dropped. Parts of the vehicle such as the canvas cab roof can be taken off or folded down to reduce its size during transit. Like the BM-21, the BM-21V has stabilizing jacks on the rear of the vehicle for support when firing. The launch vehicle has the industrial index of 9P125.

  • 9А51 "Prima": 50-round launcher on a Ural-4320 5t chassis. The vehicle together with fire control equipment, the ammunition transporter TZM 9T232M and the new rocket 9M53F is referred to as complex 9K59. Apparently only a small number was produced.
A Grad-P single tube launcher system

  • "Grad-P Light portable rocket system": The complete system comprises a 9P132 [vi] single-round man-portable launcher (it can be reloaded and used again), a 9M22M 122 mm high-explosive fragmentation rocket and a fire control panel. The system was developed in the middle of the 1960s for Soviet special units and was used by Vietnamese forces at war with the US, under the designation DKZ-B.[11] It was not accepted for regular service with the Russian Army, but it was and is still popular with paramilitary and guerrilla forces. This version was occasionally employed by both sides in the Donbas War (2014-2022).[12][13]

  • BM-21PD "Damba" (Protivodiversionnyi): 40-round launcher mounted on Ural-375D or 43201 truck chassis. Developed for protection of naval bases against underwater infiltrations, uses special ammunition PRS-60 (Protivodiversionnyi Reaktivnyi Snaryad). The vehicle together with ammunition transporter is referred to as complex DP-62 "Damba".

  • A-215 "Grad-M": 20-round naval version, entered service in 1978.

  • 9K51M "Tornado-G": an advanced version of the original BM-21 vehicle with sophisticated fire control system, satellite navigation, and automatic target aiming.[14]

Adaptations of the launcher were/are produced by several countries including China, Czechoslovakia, Egypt, Iran, North Korea, Poland and Romania.

Belarus[edit]

A Belarusian BM-21A "BelGrad"
  • BM-21A "BelGrad": This is a modernized version, based on a MAZ-631705 6×6 truck with 425 hp diesel engine TMZ-8424. Between the cab and the launcher there is another pack of 40 rockets. The system was evaluated from 1997 and entered service in 2001.

China[edit]

  • Type 81 SPRL: The People's Republic of China produces the Type 81, which was copied from Russian BM-21s captured in the 1979 Sino-Vietnamese War. After reverse engineering, it entered service with the PLA in 1982 where its upgraded version nowadays known as PHZ81. Due to the fact that it is a direct copy, the Type 81 is extremely similar to its Russian predecessor. Its 40 tubes are mounted on a Shaanxi Automobile Works Yan'an SX2150 6x6 truck, which unlike the original Russian version, has a cab protected by blast shields.
  • Type 83 SPRL: This is a 24-round version, based on a Dong Feng truck. The launch tubes are arranged in three rows of 8. The launch vehicle has a total combat weight of 8,700 kilograms (19,200 lb) and can also be used as part of the mine-laying rocket system Type 84. Currently new rockets with ranges between 30 and 40 km (19 and 25 mi) are being developed.
  • Type 89 TSPRL: This is basically the 40-round launcher of the BM-21 or Type 81 mounted on a tracked chassis with 520 hp diesel engine. The same chassis is also used for the Type 83 152 mm self-propelled howitzer (PLZ83), the Type 89 120 mm tank destroyer (PTZ89) and several other specialised vehicles. The vehicle has a combat weight of 29.9 short tons (27.1 metric tons) and carries 40 spare rockets. Its current PLA designator is PHZ89.
  • Type 90 SPRL: The NORINCO (China North Industries Corporation) Type 90 40-round multiple rocket system is an indigenously designed and built system equipped with an automatic operating and laying system, an electric firing system and an automatically reloadable pack of 40 rockets. It is very similar to the M-77 Oganj but of 122 mm calibre. The chassis used is the Tiema SC2030 6×6 truck. A Type 90 MRL battalion consists of three batteries, each with 6 self-propelled rocket launchers, 6 ammunition resupply trucks Tiema XC2200 with 80 rockets and a battery command post on a DongFeng EQ-245 6×6 truck.
  • Type 90A: Modernised version, based on a Tiema XC2200 6×6 truck chassis and fitted with a modern fire control system with GPS. The command post vehicle can lay and control a number of Type 90A systems by remote control for maximum firepower.
  • Type 90B: Latest, digitalised version. The rocket launch vehicle is based on a Beifang Benchi 2629 series 6×6 truck (Mercedes-Benz copy) and has a longer cabin. Each set now also has three forward observer vehicles, based on the armoured WZ551.
  • PR50 SPMRL: Development of Type 90B SPMRL with firepower increased by 25% (50 rounds compared to the original 40 rounds). Incorporate features of Weishi series self-propelled multiple rocket launchers (WS SPMRL) series so that the operating cost and overall life cycle cost for both when most components of PR50 is interchangeable with that of WS series. Also incorporated is a feature originated in Type 90B, which is the adoption of rockets of different ranges, so PR50 has a wide range of 20 km to 40 km.
  • WS-6 SPMRL: A lightweight and more compact derivative of unguided 122 mm PR50 SPMRL for rapid deployment, with number of tubes reduced by 60% to 40 * from the original 100 of PR50 MLS.
A WS-22 SPMRL of the Bangladesh Army.
  • WS-22 SPMRL: A guided version of 122 mm PR50 MLS with primitive cascade inertial terminal guidance, with standard range of 20 to 30 km
  • CTL-181A MRL: A Dongfeng Mengshi variants fitted with 122 mm multiple rocket launcher and modular ammunition storage unit.[15]

Croatia[edit]

  • LRSV-122 M-96 "Tajfun" (samovozni višecijevni lanser raketa): Modified version of M-77 Oganj with 128 mm barrels replaced with 122 mm barrels due to lack of missiles in 128 mm caliber, in 4 rows of 8 launch tubes for use with Grad calibre rockets placed on unarmoured Tatra T813 truck instead of FAP trucks that were damaged beyond repair. About 4 of such conversions were done on Tatra chassis. Like the M-77 Oganj, the launcher and reloading pack are covered by a collapsible awning for protection and camouflage when travelling. Combat weight: 23.5 t. Only a very small number was built.
A LRSV-122 M-96 "Tajfun
  • LRSV-122 M-92 "Vulkan" (samovozni višecijevni lanser raketa): Modified version of M-77 Oganj with 128 mm barrels replaced with 122 mm barrels due to lack of missiles in 128 mm caliber, in 4 rows of 8 launch tubes for use with Grad caliber.[16]

Georgia[edit]

A Georgian RS-122, a heavily upgraded and automated version of the Soviet BM-21 based on the Ukrainian KrAZ-63221 chassis
  • RS-122 Magaria: In March 2012, the Republic of Georgia unveiled its own heavily modified self-propelled version of the BM-21 Grad. There are innovative improvements similar to that of its Polish counterpart. The crew cabin is armoured and well-protected in accordance with STANAG level 2 or higher. The 40-tube launcher is fitted with a pinpoint targeting system and has a maximum firing distance of 45 km depending on ammunition, guaranteeing much more precision at greater distances. There is enough room for an additional 40-tube pack. The launcher can be deployed and activated directly from inside the crew cab, greatly decreasing time between salvos. However, the traditional external setup is also available. An entire barrage can be fired in less than 20 seconds. The general purpose platform can also be used for more sophisticated rocket systems.[17][18]

Czechoslovakia[edit]

A RM-70 launch vehicle, a Czechoslovak variant with the BM-21 launch vehicle launcher unit.
  • RM-70 (122 mm RAKETOMET vz. 70): In 1972 the Czechoslovak Army introduced its own version of the BM-21 launch vehicle, designated the RM-70. The launcher unit comprises a bank of 40 launch tubes arranged in 4 rows of 10 and it is mounted on an 8x8 10-ton modified Tatra 813 truck. Unlike the BM-21, the RM-70 has an armoured cab and enough room behind it to allow for the storage of further 40 rockets. Those rockets can be automatically reloaded into launcher at the same time.
    • RM-70/85: Modification of RM-70 launch vehicle on unarmored Tatra 815 truck.

Czech Republic[edit]

  • RM 70 Vampire: RM 70 modern version on Tatra 817 8x8 chassis with digital fire control system, introduced in 2015.
  • BM-21 MT STRIGA: BM-21 launch vehicle on Tatra 817 4x4 chassis with digital fire control system, without spare rack for immediate reload, introduced in 2022.

Pakistan[edit]

Pakistan first obtained these MRLS from China in few numbers (52+ Chinese Type-83) and then reverse engineered to develop these multiple rockets indigenously by KRL (Khan Research laboratories). The new missile system were developed with 16 modernization by Pakistani Engineers. A vertical stabilizer was added to the launcher that improved its accuracy. The new indigenously reverse engineered system were named KRL-Ghadab. the range of the indigenously developed rockets were increased to 45 km with <1% CEP.

Poland[edit]

A WR-40 Langusta, a deeply modernized and automated version, of the Soviet BM-21 based on the Jelcz P662D.35 6x6 truck, displayed at the MSPO 2007.
  • WR-40 "Langusta" (eng. spiny lobster) (wyrzutnia rakietowa means rocket launcher): This is a modern Polish version with a new fire control system (with ballistic computer BFC201 and navigation system Sigma 30) and a modified launcher based on the Jelcz P662D.35G-27 6×6 truck, produced by Jelcz Komponenty.[19] The first vehicle entered service on 20 March 2007. Probably about half of all 227 Polish BM-21 launchers will be converted into WR-40 launchers. New, modern types of munition were also developed for the launcher: the range is approximately 42 km (26 mi) for fragmentation-HE rockets "Fenix" and 32 km (20 mi) for cargo rockets. The Jelcz P662.D.35 truck with lightly armoured cab is also believed to be the base of a Polish multiple rocket launcher complex, which will possibly be developed in the future.

Egypt[edit]

The Egyptians domestically manufacture the rockets Sakr-18 and Sakr-36, with a respective range of 18 km (11 mi) and 36 km (22 mi), and the latest Sakr-45 with a superior range of 45 km (28 mi). Rather than a standard HE-Frag round, the Egyptian military prefers a 23-kilogram (51 lb) cluster munition, which can be extremely effective against lightly armored equipment and troop concentrations. Both rockets, as well as the original Soviet models of course, are fired by locally manufactured rocket launchers like the RL-21 (copy of BM-11) and RC-21 (copy of BM-21, similar to the Hadid HM20). The Helwan Machine Tools Company also produces portable systems with one, three, four and eight launch tubes.

Gaza Strip[edit]

Since 2006 Hamas has fired 122 mm Grad rockets, copies made in Iran, and Eastern-bloc versions modified to expand their range, into Israel.[20] The rockets were believed to be brought into the Gaza Strip via tunnels from Egypt.[20] Some of the rockets were of a Chinese Grad variant.[21] Hamas sources said they were pleased by the performance of the Chinese variants of the BM-21 Grad rocket, which demonstrated a far greater range and blast impact than Palestinian-made rockets, as well as Russian-origin Grads or Katyushas.[21][22]

Hamas have used small man-portable single-tube launchers for rockets in attacks against Israel, designated 122 mm 9P132/BM-21-P.[23] The 122 mm Grad rockets used in Gaza have a range of about 40 km (25 mi), and can reach the Israeli towns of Ashdod, Beer-Sheva, Ofakim, Gedera, Kiryat Gat, Ashqelon, Sderot, Rehovot, Kiryat Malachi and Gan Yavne. They also published a clip claiming device mounted used as a multi-barrel rocket launcher on vehicle used for first time in Gaza.[24] On 7 April 2011, the Iron Dome system successfully intercepted a Grad rocket launched from Gaza for the first time. The rockets were launched without their dedicated platforms and by untrained operators which causes very low accuracy. Over 50% of the rockets miss entire cities and over 10% end up hitting the sea.[25]

Ethiopia[edit]

The Homicho Ammunition Engineering Complex produces the rockets while the Bishoftu Motorization Engineering Complex produces the launching tubes and has converted existing trucks to diesel engine. Bishoftu motorization has also produced a six tube launcher to be mounted on light trucks.

North Korea[edit]

  • BM-11: North Korean 30-tube version. The tubes are arranged in 2 banks of 15; all rockets can be fired in as little as 15 seconds. The basis for the BM-11 system is an unlicensed copy of the Japanese-manufactured Isuzu HTS12G 2.5 ton truck chassis.
  • MRL 122 mm M1977: U.S. DIA code for a system that appears to be a direct copy of the BM-21 "Grad".
  • MRL 122 mm M1985: This is a more modern version, based on an Isuzu 6×6 truck and probably with a 40-round reload pack mounted between the cab and the launcher.

Iran[edit]

D.I.O. from Iran produces copies of the BM-11 and BM-21 systems that can fire the original Soviet rockets as well as the locally developed "Arash" with a range of 20.5 km (12.7 mi). There is also a rocket with a range of 75 km (47 mi).

  • Heidar-44: A 40-tube version of the BM-21 based on KrAZ truck chassies.
  • HM20: This is the Iranian version of the BM-21, mounted on a Mercedes-Benz 2624 6×6 truck. The launch pack however consists of 2 packs of 20 tubes. Reportedly there is also a version with an automatic reload-system, latest version is mounted on 6×6 MAN trucks.[citation needed]
  • HM23: Lighter 16-round version with two packs of 8 launch tubes.
  • HM27: An 8-round version based on the Toyota Land Cruiser truck.
  • Raad: Iranian version of the 24-round BM-11, based on a Mercedes-Benz LA 911B 4x4 truck. Some vehicles are equipped with a light hydraulic crane. Not to be confused with an ATGM or a self-propelled howitzer of the same name.

Iraq[edit]

Various 122 mm-type rockets were deployed by Iraq during the Iran-Iraq war, modified to deliver nerve agents to targets. This included the 40-inch long, domestically produced Grad MLRS-compatible "Borak" warhead designed to disperse sarin gas.[26]

Italy[edit]

Produced a limited number of FIROS 25 and 30 rocket launchers. They had the same configuration, exactly 40 rockets 122 mm caliber, compatible also with BM-21 launcher. Range about 25-32 km, sold to Libya, United Arab Emirates and probably other customers. About 150 produced in '80s-'90s.

Pakistan[edit]

Romania[edit]

  • APR-21 (aruncător de proiectile reactive – rocket launcher): Romanian 21-round launcher (3 rows of 7) mounted on a Bucegi SR-114 4x4 chassis. No longer used by the Romanian Army but some vehicles have been exported to Nigeria and Croatia. Morocco has the launch pack mounted on a Kaiser M35 truck.
  • APR-40: Initially this designator was used for the original BM-21 "Grad" in Romanian service, but Aerostar SA has developed an improved model, based on a DAC-665T 6x6 truck. A slightly improved model, called APRA-40 or 40 APRA 122 FMC is based on the DAC 15.215 DFAEG truck. Each launcher is normally accompanied by a resupply truck MITC with a 6t crane and a trailer RM13. The system is also used by Botswana, Bosnia, Cameroon, Croatia, Iran, Iraq, Liberia, Nigeria and Ukraine.[31]
    • LAROM or LAROM 160: This is an upgraded version that was developed in cooperation with Israel. The launch vehicle is based on the truck chassis DAC 25.360 DFAEG, fitted with two launch packs with each 20 122 mm tubes or 13 160 mm tubes.[32] The LAROM 160 can fire rockets like the LAR Mk.IV with a range of 45 km (28 mi). The system entered service with the Romanian Land Forces in 2002.[33]

Serbia[edit]

A Serbian LRSVM Morava
  • LRSVM Morava: Universal modular MLRS with possibilities to use all models of Grad 122 mm rockets, both with M-77 Oganj and M-63 Plamen 128 mm rockets too.
  • G-2000: Produced by EdePro, G-2000 122 mm missile is with range above 40 km.[34]

South Africa[edit]

  • Valkiri: This is a South African design based on Grad 21a Unimog truck chassis by Denel using 127 mm rockets.
  • Bateleur: A newer, more accurate version of the Valkiri. Based on the Withings (White Stallion) military recovery truck chassis. Also produced by Denel it was used against the Ethiopian regime in the war of Ogaden 1977.

Thailand[edit]

  • DTI-2: The 122 mm multiple rocket launcher by Defense Technology Institute.[35]

Ukraine[edit]

A Ukrainian BM-21 Bastion-1 based on a KrAZ-260 chassis
  • BM-21K: A modernization based on a modified double-cab KrAZ-260 chassis with an improved fire control system.
  • Bastion-1: A modernization based on the KrAZ-260 chassis.
  • Bastion-2: A modernization based on the KrAZ-260 chassis with additional storage space for 40 missiles.
  • BM-21 UM Berest
  • Verba: A modernization based on a modified double-cab KrAZ-6322 chassis with a digital fire control system.

Projectiles[edit]

The original "Grad" rocket has a range of about 20 kilometers (12 mi). The first modification called "G-M" increased the range to about 27.5 kilometers (17.1 mi), while the second modification "G-2000" further increased the range to about 40 kilometers (25 mi).[36] The latest technology development has allowed new Grad rockets to have 52 km range.[37] The range may also vary due to the type of warhead.

The 9M22S munition (see below) was developed by NPO Splav during the Soviet era.[38][39] Instead of a high-explosive fragmentation warhead, the 9M22S rocket carries a warhead containing 180 separate 9N510 incendiary elements.[40] Designed to ignite vegetation, storage facilities, or fuel, these incendiary elements consist of hexagonal prisms made from a magnesium alloy known to the Russian GOST as ML-5,[41][42] filled with a thermite mixture.[43] Each element has a nominal length of 40 mm and a width of 25 mm and a burning time of at least 2 minutes. It is also noted that the effect of these incendiary, as well as conventional lighting munitions (especially at night), outwardly resembles the use of phosphorus munitions.[38]

Origin Ammunition type Minimum range Maximum range Length Weight Warhead weight Effective damage radius
metres miles metres miles metres ft in kg lb kg lb
9M22U (M-21OF) USSR/Russia Fragmentation-HE 5,000 3.1 20,380 12.66 2.87 9 ft 5 in 66.6 147 18.4 41
9M18 USSR/Russia POM-2 submunitions
9M28F USSR/Russia Fragmentation-HE 1,500 0.93 15,000 9.3 2.27 7 ft 5 in 56.5 125 21.0 46.3
9M28K USSR/Russia Anti-tank mines 13,400 8.3 3.04 10 ft 0 in 57.7 127 22.8 50
9M43 USSR/Russia Smoke 20,000 12 2.95 9 ft 8 in 66 146 20.2 45
9M217 USSR/Russia Anti-tank submunitions 30,000 19 3.04 10 ft 0 in 70 150 25 55
9M218 USSR/Russia HEAT submunitions 30,000 19 3.04 10 ft 0 in 70 150 25 55
9M519 USSR/Russia RF jammer 18,500 11.5 3.04 10 ft 0 in 66 146 18.4 41
9M521 USSR/Russia Fragmentation-HE 40,000 25 2.87 9 ft 5 in 66 146 21 46
9M522 USSR/Russia Fragmentation-HE 37,500 23.3 3.04 10 ft 0 in 70 150 25 55
PRC-60 USSR/Russia Underwater charge (for BM-21PD) 300 0.19 5,000 3.1 2.75 9 ft 0 in 75.3 166 20 44
Type 90A China Fragmentation-HE 12,700 7.9 32,700 20.3 2.75 9 ft 0 in 18.3 40
M21-OF-FP Romania Fragmentation-HE 5,000–6,000 3.1–3.7 20,400 12.7 2.87 9 ft 5 in 65.4 144 6.35 14.0
M21-OF-S Romania Fragmentation-HE 1,000 0.62 12,700 7.9 1.927 6 ft 3.9 in 46.6 103 6.35 14.0
Edepro G2000/52 Serbia Fragmentation-HE 52,000 32 2.862 9 ft 4.7 in 64.4 142 19.0 41.9
Sakr-45A Egypt AT / AP submunitions 42,000 26 3.31 10 ft 10 in 67.5 149 24.5 54
Sakr-45B Egypt Fragmentation-HE 45,000 28 2.9 9 ft 6 in 63.5 140 20.5 45
9M22S USSR/Russia Incendiary 1,500 0.93 19,890 12.36 2.97 9 ft 9 in 66 146 17.8 39
9M28S USSR/Russia Incendiary 1,650 1.03 15,070 9.36 2.318 7 ft 7.3 in 53 117 17.8 39

Also Incendiary, Chemical, Illumination, Antipersonnel mines.

Operators[edit]

A map of BM-21 operators in blue with former operators in red
A fired 122 mm projectile of a RM-70 multiple rocket launcher stuck in muddy land in Vakarai, Batticaloa during the Sri Lankan Civil War (2007).
A Djiboutian Army Rocket Launcher.
A BM-21 on display near the Karen Demirchyan Complex, Yerevan, Armenia

Current operators[edit]

Former operators[edit]

Evaluation only[edit]

See also[edit]

References[edit]

  1. ^ a b c d Prenatt 2016, p. 30.
  2. ^ Zabecki, David T. (May 2011). "Rockets and Rocket Launchers". In Tucker, Spencer C. (ed.). The Encyclopedia of the Vietnam War: A Political, Social, and Military History (2 ed.). p. 988. ISBN 978-1-85109-960-3. The most significant [Soviet rocket] was the 9M22M, one of the Katyusha class of 122-mm rockets.
  3. ^ Zaloga, Steven J. (2003). Tank battles of the Mid-East Wars (2): The wars of 1973 to the present. Hong Kong: Concord Publications. p. 4. ISBN 962-361-613-9.
  4. ^ Cooper, Tom; Fontanellaz, Adrien (October 2016). "La guerre du Kagera". Batailles et Blindés (in French). No. 75. Caraktère. pp. 72–81. ISSN 1765-0828.
  5. ^ a b Isby, David C. (1990). The War in Afghanistan 1979–1989: The Soviet Empire at High Tide. Concord Publications. p. 42. ISBN 978-962-361-009-4.
  6. ^ "Sudan - Global trade, local impact: Arms Transfers to all Sides in the Civil War in Sudan" (PDF). Human Rights Watch Report. 10 (4): 24. August 1998.
  7. ^ Yemeni fighters have fired at least 16 Grad missiles into Saudi territories. YouTube (20 July 2015). Retrieved 2017-06-01.
  8. ^ Splav 122 mm BM-21 multiple rocket launcher family (Russian Federation), Multiple rocket launchers, Jane's Armour and Artillery.
  9. ^ 122 mm BM-21 Grad-series rockets (Russian Federation), Artillery rockets Archived 23 June 2010 at the Wayback Machine, Jane's Ammunition Handbook
  10. ^ Prenatt, Jamie (16 June 2016). Katyusha: Russian Multiple Rocket Launchers 1941–Present. Bloomsbury Publishing. p. 30. ISBN 978-1-4728-1087-8.
  11. ^ "122 mm DKZ-B Rocket Launcher and Stand: Viet Cong". awm.gov.au. Australian War Memorial. Archived from the original on 7 February 2019. Retrieved 4 February 2019.
  12. ^ "NSDC: Grad P portable missile launchers revealed in occupied Donbas with manuals in Arabic". www.unian.info. Retrieved 22 April 2023.
  13. ^ "Donbass – Ukrainian Army Fires With Portable Grad Rocket Launcher On Northern Outskirts Of Donetsk". Tsargrad Institute. 5 March 2021. Retrieved 22 April 2023.
  14. ^ ARG. "Tornado-G Multiple Launch Rocket System | Military-Today.com". www.military-today.com. Archived from the original on 2 February 2017. Retrieved 24 January 2017.
  15. ^ "东部战区某旅列装猛士三122MM火箭炮,山地丘陵地区打击能力进一步强化". Sohu (in Chinese). 7 September 2022.
  16. ^ "Postroj topništva". MORH. 1 August 2015.
  17. ^ Multiple Rocket Launcher System – RS-122 Archived 29 June 2015 at the Wayback Machine. Delta.gov.ge. Retrieved on 1 June 2017.
  18. ^ საქართველოს თავდაცვის სამინისტრო Archived 1 April 2012 at the Wayback Machine. Mod.gov.ge. Retrieved on 1 June 2017.
  19. ^ "Jelcz-Komponenty". xo.pl. Archived from the original on 3 April 2007. Retrieved 12 December 2017.
  20. ^ a b c Israel and Hamas: Conflict in Gaza 2008–2009 Archived 8 March 2016 at the Wayback Machine. Congressional Research Service.
  21. ^ a b "Hamas turns to Chinese rockets over homemade: 'We need weapons that work'". . World tribune. Archived from the original on 19 August 2014. Retrieved 23 December 2014.
  22. ^ Israeli Ministry of Foreign Affairs, "Terror in Gaza: Twelve months since the Hamas takeover Archived 22 January 2009 at the Wayback Machine", 16 June 2008.
  23. ^ Aviation Week, "Grad Rockets Hit Aqaba Port". 23 April 2010
  24. ^ Levy, Elior (29 October 2011). "Watch multi-barrel rocket launch from Gaza". ynet. Archived from the original on 3 September 2014. Retrieved 23 December 2014.
  25. ^ "Iron Dome successfully intercepts Gaza rocket for first time". Haaretz. 7 April 2011. Archived from the original on 13 May 2011. Retrieved 23 December 2014.
  26. ^ Chivers, C.J.; Schmitt, Eric (15 February 2015). "C.I.A. Is Said to Have Bought and Destroyed Iraqi Chemical Weapons". The New York Times. Archived from the original on 20 December 2016. Retrieved 18 April 2016.
  27. ^ "The Rocket Artillery Of Azerbaijan Is Overwhelming". 3 May 2021.
  28. ^ Khan, Bilal (4 May 2017). "Pakistan seeking guided multiple-launch rocket systems (MLRS)".
  29. ^ "POF, French company sign MoU on rocket technology". AAJ TV. 9 September 2009. Archived from the original on 6 December 2013. Retrieved 27 May 2013.[dead link]
  30. ^ "Refurbishment/Range Enhancement of 122 mm MBRL Ammunition". GIDS. Archived from the original on 23 July 2013. Retrieved 2 July 2013.[dead link]
  31. ^ "Ukrainian military now using Romanian APR-40 MLRS – video". Yahoo News. 10 May 2023. Retrieved 20 May 2023.
  32. ^ Galerie Foto. aerostar.ro
  33. ^ "Brigada 8 LAROM". Archived from the original on 22 February 2012. Retrieved 23 December 2014.
  34. ^ "R122 mm G-2000/G-M". Archived from the original on 5 December 2013. Retrieved 23 December 2014.
  35. ^ Royal Thai Army DTI-2
  36. ^ "MLRS "GRAD" AND IT'S MODIFICATIONS" (PDF). EDePro. Archived from the original (PDF) on 5 March 2016. Retrieved 1 May 2015.
  37. ^ "SAJAM NAORUŽANjA IDEX: Srbija ima bespilotni helikopter (VIDEO)". www.novosti.rs. Archived from the original on 29 December 2017. Retrieved 12 December 2017.
  38. ^ a b "Russia used 9M22S incendiary munitions on Azovstal steel plant". Defence View. 15 May 2022.
  39. ^ Hambling, David (25 March 2022). "'White Phosphorus' Claimed To Be Used In Ukraine May Really Be Russian Napalm Weapon". Forbes.
  40. ^ "122mm Grad 9M22S Rocket". CAT-UXO.
  41. ^ ГОСТ 2856-79 Сплавы магниевые литейные [GOST 2856-79 Castable magnesium alloys]. 1981.
  42. ^ "9N510 (ML-5) Submunition". CAT-UXO.
  43. ^ Salem, Harriet (13 November 2014). "'A Rain of Fire'..." VICE MEDIA.
  44. ^ "The Dubious Rocket Artillery Of The Taliban". 21st Century Asian Arms Race. 1 May 2023.
  45. ^ Military Balance 1981, p. 40.
  46. ^ Military Balance 2020, p. 340.
  47. ^ Military Balance 1981, p. 52.
  48. ^ Military Balance 2016, p. 429.
  49. ^ Military Balance 2016, p. 178.
  50. ^ Military Balance 2016, p. 180.
  51. ^ Military Balance 2016, p. 182.
  52. ^ a b c d e Prenatt 2016, p. 32.
  53. ^ The Military Balance 2021, p. 451.
  54. ^ Military Balance 2016, p. 82.
  55. ^ The Military Balance 2021, p. 452.
  56. ^ The Military Balance 2021, p. 453.
  57. ^ Military Balance 2016, p. 239.
  58. ^ The Military Balance 2021, p. 454.
  59. ^ The Military Balance 2021, p. 457.
  60. ^ The Military Balance 2021, p. 458.
  61. ^ The Military Balance 2021, p. 461.
  62. ^ The Military Balance 2021, p. 459.
  63. ^ Military Balance 2016, p. 393.
  64. ^ Military Balance 2016, p. 85.
  65. ^ Military Balance 2016, p. 396.
  66. ^ "Реактивная система БМ-21 "Град" на удлиненном шасси КамАЗ-43118 в армии Эквадора". 9 March 2019. Archived from the original on 23 March 2019. Retrieved 22 March 2019.
  67. ^ Military Balance 2016, p. 324.
  68. ^ The Military Balance 2021, p. 464.
  69. ^ The Military Balance 2021, p. 465.
  70. ^ Military Balance 2016, p. 184.
  71. ^ The Military Balance 2021, p. 251.
  72. ^ Military Balance 2016, p. 328.
  73. ^ Military Balance 1981, p. 42.
  74. ^ Military Balance 2016, p. 332.
  75. ^ a b c Military Balance 2016, p. 491.
  76. ^ Military Balance 2016, p. 334.
  77. ^ Military Balance 2016, p. 185.
  78. ^ Military Balance 2016, p. 187.
  79. ^ Gibson, Neil; Fediushko, Dmitry (22 January 2019). "Laotian military parades Russian- and Chinese-made equipment". Jane's 360. London, Moscow. Archived from the original on 23 January 2019. Retrieved 24 January 2019.
  80. ^ Military Balance 2016, p. 340.
  81. ^ Military Balance 1981, p. 45.
  82. ^ Military Balance 2016, p. 342.
  83. ^ Military Balance 2016, p. 119.
  84. ^ Guilloteau, Christophe; Nauche, Philippe (18 July 2013). "Rapport d'information déposé en application de l'article 145 du Règlement par la commission de la Défense Nationale et des Forces Armées en conclusion des travaux d'une mission d'information sur l'opération Serval au Mali" (in French). France: National Assembly. p. 22. Archived from the original on 24 September 2015. Retrieved 25 September 2018.
  85. ^ Military Balance 2016, p. 455.
  86. ^ The Military Balance 2021, p. 241.
  87. ^ Military Balance 2016, p. 275.
  88. ^ Military Balance 1981, p. 46.
  89. ^ Military Balance 2016, p. 345.
  90. ^ Military Balance 2016, p. 458.
  91. ^ "SIPRI Trade Register". Stockholm International Peace Research Institute.
  92. ^ Military Balance 2016, p. 459.
  93. ^ Military Balance 2016, p. 406.
  94. ^ Military Balance 2016, p. 461.
  95. ^ Military Balance 1981, p. 70.
  96. ^ Military Balance 2016, p. 265.
  97. ^ International Institute for Strategic Studies (15 February 2023). The Military Balance 2023 (1st ed.). Routledge. p. 280. ISBN 978-1-032-50895-5.
  98. ^ "Latest rockets manufactured in China". The Jerusalem Post - JPost.com. Archived from the original on 21 October 2012. Retrieved 23 December 2014.
  99. ^ "BBC News – Israeli air strikes hit two Gaza towns". 19 November 2010. Archived from the original on 25 September 2015. Retrieved 23 December 2014.
  100. ^ Mitzer, Stijn; Oliemans, Joost (29 October 2021). "Kurdish Armour: Inventorising YPG Equipment In Northern Syria". Oryx Blog.
  101. ^ Military Balance 2016, p. 410.
  102. ^ Military Balance 1981, p. 17.
  103. ^ Military Balance 2016, p. 127.
  104. ^ "Drgnęło w eksporcie broni".
  105. ^ "UNROCA (United Nations Register of Conventional Arms)". www.unroca.org. Retrieved 3 June 2020.
  106. ^ Military Balance 2016, pp. 132–133.
  107. ^ International Institute for Strategic Studies (15 February 2023). The Military Balance 2023 (1st ed.). Routledge. p. 239. ISBN 978-1-032-50895-5.
  108. ^ "Senegal parades new BM-21s and armoured vehicles". Janes.com. 11 April 2017. Archived from the original on 16 May 2017. Retrieved 1 June 2017.
  109. ^ Military Balance 2016, p. 466.
  110. ^ "Somaliland's Military is a Shadow of the Past". Piracyreport.com. 13 August 2011. Retrieved 11 December 2021.
  111. ^ Military Balance 2016, p. 469.
  112. ^ Military Balance 2016, p. 471.
  113. ^ Military Balance 2016, p. 354.
  114. ^ Military Balance 2016, p. 202.
  115. ^ Military Balance 2016, p. 473.
  116. ^ Military Balance 2016, p. 203.
  117. ^ Military Balance 2016, p. 205.
  118. ^ Military Balance 2016, p. 475.
  119. ^ Military Balance 2016, p. 208.
  120. ^ Military Balance 2016, p. 416.
  121. ^ Military Balance 2016, p. 297.
  122. ^ Mitzer, Stijn; Oliemans, Joost (20 September 2015). "The Oryx Handbook of Pre-war Yemeni Fighting Vehicles". Oryx.
  123. ^ Military Balance 2016, p. 476.
  124. ^ Military Balance 1981, p. 16.
  125. ^ Military Balance 2016, p. 492.
  126. ^ Mitzer, Stijn; Oliemans, Joost (1 September 2021). "The Tigray Defence Forces - Documenting Its Heavy Weaponry". Oryx Blog.
  127. ^ Misikir, Maya (11 January 2023). "Tigray Forces Start Handing Over Heavy Weapons as Part of Peace Deal". Voice of America. Retrieved 11 January 2024.
  128. ^ Military Balance 1981, p. 105.
  129. ^ Military Balance 1981, p. 50.
  130. ^ "Grad". Deagel. Archived from the original on 1 July 2015. Retrieved 1 July 2015.

Bibliography[edit]

External links[edit]