|This article's lead section may not adequately summarize key points of its contents. (January 2015)|
Scud missile on TEL vehicle, National Museum of Military History, Bulgaria.
|Type||Tactical ballistic missile|
|Place of origin||Soviet Union|
|In service||1957–present Scud A
1964–present Scud B
1965–present Scud C
1989–present Scud D
|Used by||see Operators|
|Wars||Yom Kippur War, Iran-Iraq War, Persian Gulf War, Afghan Civil War (1989–92), Yemeni Civil War (1994), First Chechen War, Second Chechen War, Libyan Civil War, Syrian Civil War, Yemeni Civil War (2015-present), Saudi-led intervention in Yemen (2015-present)|
|Weight||4,400 kg (9,700 lb) Scud A
5,900 kg (13,000 lb) Scud B
6,400 kg (14,100 lb) Scud C
6,500 kg (14,300 lb) Scud D
|Length||11.25 m (36.9 ft)|
|Diameter||0.88 m (2 ft 11 in)|
|Warhead||Conventional high-explosive, Fragmentation, Nuclear 5 to 80 kiloton, Chemical VX warhead|
|180 km (110 mi) Scud A
300 km (190 mi) Scud B
600 km (370 mi) Scud C
700 km (430 mi) Scud D
|Speed||Mach 5, 1.7 km/s (1.1 mi/s)|
|inertial guidance, Scud-D adds DSMAC terminal guidance|
|Accuracy||3,000 m (9,800 ft) Scud A
450 m (1,480 ft) Scud B
700 m (2,300 ft) Scud C
50 m (160 ft) Scud D
Scud is a series of tactical ballistic missiles developed by the Soviet Union during the Cold War. It was exported widely to both Second and Third World countries. The term comes from the NATO reporting name "Scud" which was attached to the missile by Western intelligence agencies. The Russian names for the missile are the R-11 (the first version), and the R-17 (later R-300) Elbrus (later developments). The name Scud has been widely used to refer to these missiles and the wide variety of derivative variants developed in other countries based on the Soviet design.
- 1 Development
- 2 Variants
- 3 Operational use
- 4 Operators
- 5 See also
- 6 References
- 7 Further reading
- 8 External links
The first use of the term Scud was in the NATO name SS-1b Scud-A, applied to the R-11 Zemlya ballistic missile. The earlier R-1 missile had carried the NATO name SS-1 Scunner, but was of a very different design, almost directly a copy of the German V-2 rocket. The R-11 used technology gained from the V-2 as well, but was a new design, smaller and differently shaped than the V-2 and R-1 weapons. The R-11 was developed by the Korolyev OKB and entered service in 1957. The most revolutionary innovation in the R-11 was the engine, designed by A. M. Isaev. Far simpler than the V-2's multi-chamber design, and employing an anti-oscillation baffle to prevent chugging, it was a forerunner to the larger engines used in Soviet launch vehicles.
Further developed variants were the R-17 (later R-300) Elbrus / SS-1c Scud-B in 1961 and the SS-1d Scud-C in 1965, both of which could carry either a conventional high-explosive, a 5- to 80-kiloton thermonuclear, or a chemical (thickened VX) warhead. The SS-1e Scud-D variant developed in the 1980s can deliver a terminally guided warhead capable of greater precision.
All models are 11.35 m (37.2 ft) long (except Scud-A, which is 1 m (3 ft 3 in) shorter) and 0.88 m (2 ft 11 in) in diameter. They are propelled by a single liquid-fuel rocket engine burning kerosene and corrosion-inhibited red fuming nitric acid (IRFNA) with unsymmetrical dimethylhydrazine (UDMH, Russian TG-02 like German Tonka 250) as liquid igniter (self-ignition with IRFNA) in all models.
The missile reaches a maximum speed of mach 5.
The first of the "Scud" series, designated R-11 (SS-1B Scud-A) originated in a 1951 requirement for a ballistic missile with similar performance to the German V-2 rocket. The R-11 was developed by engineer Viktor Makeev, who was then working in the OKB-1, headed by Sergey Korolev. It first flew on 18 April 1953, was fitted with an Isayev engine using kerosene and nitric acid as propellant. On 13 December 1953, a production order was passed with SKB-385 in Zlatoust, a factory dedicated to producing long-range rockets. In June 1955, Makeev was appointed chief designer of the SKB-385 to oversee the program and, in July, the R-11 was formally accepted into military service. The definitive R-11M, designed to carry a nuclear warhead, was accepted officially into service on 1 April 1958. The launch system received the GRAU designation 8K11.
The R-11M had a maximum range of 270 km, but when carrying a nuclear warhead, this was reduced to 150 km. Its purpose was strictly as a mobile nuclear strike vector, giving the Soviet Army the ability to hit European targets from forward areas, armed with a nuclear warhead with an estimated yield of 50 kilotons.
A naval variant, the R-11FM (SS-N-1 Scud-A) was first tested in February 1955, and was first launched from a converted Project 611 (Zulu class) submarine in September of the same year. While the initial design was done by Korolev's OKB-1, the program was transferred to Makeev's SKB-385 in August 1955. It became operational in 1959 and was deployed onboard Project 611 and Project 629 (Golf Class) submarines. During its service, 77 launches were conducted, of which 59 were successful.
The successor to the R-11, the R-17 (SS-1C Scud-B), renamed R-300 in the 1970s, was the most prolific of the series, with a production run estimated at 7,000. It served in 32 countries and four countries besides the Soviet Union manufactured copied versions. The first launch was conducted in 1961, and it entered service in 1964.
The R-17 was an improved version of the R-11. It could carry nuclear, chemical, conventional or fragmentation weapons. At first, the Scud-B was carried on a tracked transporter erector launcher (TEL) similar to that of the Scud-A, designated 2P19, but this was not successful and a wheeled replacement was designed by the Titan Central Design Bureau, becoming operational in 1967. The new MAZ-543 vehicle was officially designated 9P117 Uragan. The launch sequence could be conducted autonomously, but was usually directed from a separate command vehicle. The missile is raised to a vertical position by means of hydraulically powered cranes, which usually takes four minutes, while the total sequence lasts about one hour.
The Makeyev OKB also worked on an extended-range version of the R-17, known in the West as SS-1d Scud-C, that was first launched from Kapustin Yar in 1965. Its range was brought up to 500–600 km, but at the cost of a greatly reduced accuracy and warhead size. Eventually, the advent of more modern types in the same category, such as the TR-1 Temp (SS-12 Scaleboard), made the Scud-C redundant, and it apparently did not enter service with the Soviet armed forces.
The R-17 VTO (SS-1e Scud-D) project was an attempt to enhance the accuracy of the R-17. The Central Scientific Research Institute for Automation and Hydraulics (TsNIAAG) began work on the project in 1968, but the first test launch was conducted only in September 1979. Development continued through the 1980s until the system was accepted into initial service as the 9K720 Aerofon in 1989. However, by this time, more advanced weapons were in use, such as the OTR-21 Tochka (SS-21) and the R-400 Oka (SS-23), and the Scud-D was not acquired by the Soviet armed forces. Instead it was proposed for export as an upgrade for Scud-B users, in the 1990s.
Unlike previous Scud versions, the 9K720 had a warhead that separated from the missile's body, and was fitted with its own terminal guidance system. With a TV camera fitted in the nose, the system could compare the target area with data from an onboard computer library (DSMAC). In this way, it was thought to attain a Circular Error Probable (CEP) of 50 m.
|Length||10.7 m||11.25 m||11.25 m||12.29 m|
|Width||0.88 m||0.88 m||0.88 m||0.88 m|
|Launch weight||4,400 kg||5,900 kg||6,400 kg||6,500 kg|
|Range||180 km||300 km||600 km||700 km|
|Payload||950 kg||985 kg||600 kg||985 kg|
|Accuracy (CEP)||3000 m||450 m||700 m||50 m|
North Korea obtained its first Scud-Bs from Egypt in 1979 or 1980. These missiles were reverse engineered, and reproduced using North Korean infrastructure, including the 125 factory at Pyongyang, a research and development institute at Sanum-dong and the Musudan-ri Launch Facility. The first prototypes were completed in 1984, and designated Hwasong-5. They were exact replicas of the R-17Es obtained from Egypt. The first test flights occurred in April 1984, but the first version saw only limited production, and no operational deployment, as its purpose was only to validate the production process.
Production of the definitive version began at a slow rate in 1985. The type incorporated several minor improvements over the original Soviet design. The range was increased by 10 to 15 percent and it could carry High Explosive (HE) or cluster chemical warheads. Throughout the production cycle, until it was phased out in favour of the Hwasong-6 in 1989, the DPRK manufacturers are thought to have carried out small enhancements, in particular to the guidance system.
The Hwasong-6 was first test-flown in June 1990, and entered full-scale production the same year, or in 1991, until it was superseded by the Rodong-1. It features an improved guidance system, a range of 500 km, but saw its payload reduced to 770 kg, though the dimensions are identical to the original Scud. Due to difficulties in procuring MAZ-543 TELs, the North Koreans had to produce a local copy. By 1999, North Korea was estimated to have produced 600 to 1,000 Hwasong-6 missiles, of which 25 served for testing, 300 to 500 were exported, and 300 to 600 are used by the Korean People's Army.
The Hwasong-6 was exported to Iran where it is known as the Shahab-2, and to Syria, where it is manufactured under license with Chinese assistance. Also, according to SIPRI, 150 Scud-C were exported to Syria in 1991–96, 5 to Libya in 1999, 45 to Yemen in 2001–02.
The Hwasong-7, also called the Scud-ER (extended range), is essentially a North Korean modification of the Hwasong-6 that exchanges payload for greater range; estimates range from 700–800 km (430–500 mi) to as much as 995 km (618 mi) through a reduced payload of 450–500 kg (990–1,100 lb) and enlarging the fuel and oxidant tanks along with a slight enlargement of the fuselage. The missile is single-stage and road mobile employing an HE, submunition, chemical, or potentially miniaturized nuclear warhead with a CEP of 3 km (1.9 mi). Its range allows the North Korean military to strike anywhere on the peninsula and threaten areas of Japan.
Development of the Hwasong-7 reportedly began in 1991 and production started in 1994. Deployment began in 2003, intelligence imagery first observed it in 2005, and it was only first revealed publicly in 2007. Reports suggest Syria received Scud-ER missiles in 2000, giving them the ability to target all of Israel and southeastern Turkey, including Ankara; Syria reportedly converted its own Hwasong-6 production line in order to make the longer-range Hwasong-7.
The Rodong (also NoDong, "Scud-C "), was the first North Korean missile to feature important modifications from the Scud design. Development began in 1988, and the first missile was launched in 1990, but it apparently exploded on its launch pad. A second test was carried out in May 1993 successfully.
The main characteristics of the Rodong are a range of 1000 km and a CEP estimated at 2,000–4,000 m, giving the North Koreans the ability to strike Japan. The missile is substantially larger than the Hwasong series, and its Isayev 9D21 engine was upgraded with help from Makeyev OKB. Some assistance came also from China and Ukraine while a new TEL was designed using an Italian Iveco truck chassis and an Austrian crane. The rapidity with which the Rodong was designed and exported after just two tests came as a surprise for many Western observers, and led to some speculation that it was in fact based on a cancelled Soviet project from the Cold War period, but this has not been proven.
Iran is known to have financed much of the Rodong program, and in return is allowed to produce the missile, as the Shahab-3. While the first prototypes may have been acquired as early as 1992, production began only in 2001, with assistance from Russia. The Rodong has also been exported to Egypt and Libya.
The Scud missile (including derivatives) is one of the few ballistic missiles to be used in actual warfare, second only to the V-2 in terms of combat launches (the SS-21, MGM-140 ATACMS, Fateh-110 and 9K720 Iskander being the only other ballistic missiles fired in action). The first recorded combat use of the Scud was at the end of the Yom Kippur War in 1973, when three missiles were fired by Egypt against the Israeli Arish and bridgehead on the western bank of the Suez canal. Seven Israeli soldiers were killed. Libya responded to U.S. airstrikes in 1986 by firing two Scud missiles at a U.S. Coast Guard navigation station on the nearby Italian island of Lampedusa, which missed their target. Scud missiles were used in several regional conflicts that included use by Soviet and Afghan Communist forces in Afghanistan, and Iranians and Iraqis against one another in the so-called "War of the cities" during the Iran–Iraq War. Scuds were used by Iraq during the Gulf War against Israel and coalition targets in Saudi Arabia and Israel.
More than a dozen Scuds were fired from Afghanistan at targets in Pakistan in 1988. There was also a small number of Scud missiles used in the 1994 civil war in Yemen, as well as by Russian forces in Chechnya in 1996 and onwards. The missiles saw some minor use by forces loyal to Muammar Gaddafi in the Libyan Civil War. They have reportedly been used recently in the ongoing Syrian civil war by forces loyal to President Bashar al-Assad.
Iraq was the first to use ballistic missiles during the Iran–Iraq War, firing limited numbers of Frog-7 rockets at the towns of Dezful and Ahvaz. On 27 October 1982, Iraq launched its first Scud-Bs at Dezful killing 21 civilians and wounding 100. Scud strikes continued during the following years, intensifying sharply in 1985, with more than 100 missiles falling inside Iran.
In response, the Iranians searched for a source of ballistic weapons, finally meeting success in 1985, when they obtained a small number of Scud-Bs from Libya. These weapons were assigned to a special unit, the Khatam Al-Anbya force, attached to the Pasdaran. On 12 March, the first Iranian Scuds fell in Baghdad and Kirkuk. The strikes infuriated Saddam Hussein, but the Iraqi response was limited by the range of their Scuds, that could not reach Tehran. After a request for TR-1 Temp (SS-12 Scaleboard) missiles was refused by the Soviets, Iraq turned to developing its own long-range version of the Scud missile, that became known as the Al Hussein. In the meantime, both sides quickly ran out of missiles, and had to contact their international partners for resupply. In 1986, Iraq ordered 300 Scud-Bs from the USSR, while Iran turned to North Korea for missile deliveries, and for assistance in developing an indigenous missile industry.
In 1988, the fighting along the border had reached a stalemate, and both belligerents began employing terror tactics, in order to break the deadlock. Lasting from 29 February to 20 April, this conflict became known as the war of the cities, and saw an intensive use of Scud missiles in what became known as the "Scud duel". The first rounds were fired by Iraq, when seven Al-Husseins landed in Tehran on 29 February. In all, Iraq fired 189 missiles, mostly of the Al-Hussein type, of which 135 landed in Tehran, 23 in Qom, 22 in Isfahan, four in Tabriz, three in Shiraz and two in Karaj. During this episode, Iraq's missiles killed 2,000 Iranians, injured 6,000, and caused a quarter of Tehran's population of ten million to flee the city. The Iranian response included launching 75 to 77 Hwasong-5s, a North Korean Scud variant, at targets in Iraq, mostly in Baghdad.
Prior to the 2003 invasion of Iraq, the government of Saddam Hussein had asserted that Iran fired dozens of Scud missiles at the People's Mujahedin (MKO) in Iraq in 1999 and 2001, with the MKO itself claiming that Iran fired more missiles at Iraq in 2001 than it did during the entire Iran-Iraq war.
Civil war in Afghanistan
The most intensive – and less well-known – use of Scud missiles occurred during the civil war in Afghanistan between 1989 and 1992. As compensation for the withdrawal of Soviet troops in 1989, the USSR agreed to deliver sophisticated weapons to the Democratic Republic of Afghanistan (DRA), among which were large quantities of Scud-Bs, and possibly some Scud-Cs as well. The first 500 were transferred during the early months of 1989, and soon proved to be a critical strategic asset for the DRA. Every Scud battery was composed of three TELs, three reloading vehicles, a mobile meteorological unit, one tanker and several command and control trucks. During the mujahideen attack against Jalalabad, between March and June 1989, three firing batteries manned by Afghan crews advised by Soviets fired approximately 438 missiles in defense of the embattled garrison. Soon all the heavily contested areas of Afghanistan, such as the Salang Pass and the city of Kandahar, were under attack by Scud missiles.
Due to its imprecision, the Scud was used as an area bombing weapon, and its effect was psychological as well as physical: the missiles would explode without warning, as they travelled faster than the sound they produced in-flight. At the time, reports indicated that Scud attacks had devastating consequences on the morale of the Afghan rebels, who eventually learned that by applying guerilla tactics, and keeping their forces dispersed and hidden, they could minimize casualties from Scud attacks. The Scud was also used as a punitive weapon, striking areas that were held by the resistance. In March 1991, shortly after the town of Khost was captured, it was hit by a Scud attack. On 20 April 1991, the marketplace of Asadabad was hit by two Scuds, that killed 300 and wounded 500 inhabitants. Though the exact toll is unknown, these attacks resulted in heavy civilian casualties. The explosions destroyed the headquarters of Islamic leader Jamil al-Rahman, and killed a number of his followers.
In all, between October 1988 and February 1992, with 1,700 to 2,000 Scud launches, Afghanistan saw the greatest concentration of ballistic weapons fired since World War II. After January 1992, the Soviet advisors were withdrawn, reducing the Afghan army's ability to use their ballistic missiles. On 24 April 1992, the mujahideen forces of Ahmad Shah Massoud captured the main Scud stockpile at Afshur. As the communist government collapsed, the few remaining Scuds and their TELs were divided among the rival factions fighting for power. However, the lack of trained personnel prevented a sustained use of such weapons, and, between April 1992 and 1996, only 44 Scuds were fired in Afghanistan. When the Taliban arrived in power in 1996, they captured a few of the remaining Scuds, but lack of maintenance had reduced the state of the missile force to such an extent that there were only five Scud firings, until 2001. After the U.S. invasion of Afghanistan, the last four surviving Scud launchers were destroyed in 2005.
Persian Gulf War
At the outbreak of the Persian Gulf War, Iraq had an effective, if limited, ballistic missile force. Besides the original Scud-B, several local variants had been developed. These included the Al-Hussein, developed during the Iran–Iraq War, the Al-Hijarah, a shortened Al-Hussein, and the Al-Abbas, an extended-range Scud fired from fixed launching sites, that was never used. The Soviet-built MAZ-543 vehicle was the prime launcher, along with a few locally designed TELs, the Al Nida and the Al Waleed.
Scuds were responsible for most of the coalition deaths outside Iraq and Kuwait. Of a total 88 Scud missiles, 46 were fired into Saudi Arabia and 42 into Israel. Twenty-eight members of the Pennsylvania National Guard were killed when a Scud struck a United States Army barracks in Dhahran, Saudi Arabia.
The United States Air Force organized air patrols over areas where Scud launchers were suspected to operate, namely western Iraq near the Jordanian border, where the Scuds were fired at Israel, and southern Iraq, where they were aimed at Saudi Arabia. A-10 strike aircraft flew over these zones during the day, and F-15Es fitted with LANTIRN pods and synthetic aperture radars patrolled at night. However, the infrared and radar signatures of the Iraqi TELSs were almost impossible to distinguish from ordinary trucks and from the surrounding electromagnetic clutter. While patrolling, strike aircraft managed to sight their targets on 42 occasions, but they were only able to acquire them long enough to release their ordnance three times. In addition, the Iraqi missile units dispersed their Scud TELs and hid them in culverts, wadis, or under highway bridges. They also practiced "shoot-and-scoot" tactics, withdrawing the launcher to a hidden location immediately after it had fired, while the launch sequence that usually took 90 minutes was reduced to half an hour. This enabled them to preserve their forces, despite optimistic claims by the coalition. A post-war Pentagon study concluded that relatively few launchers had been destroyed by coalition aircraft.
Ground-based special forces from the United Kingdom were covertly inserted into Iraq to locate and destroy Scud launchers, either by directing airstrikes or in some cases attacking them directly with MILAN man-portable missiles. An example was the 8-man SAS patrol designated Bravo Two Zero, led by "Andy McNab" (a pseudonym). This patrol resulted in the death or capture of all but one of its members, "Chris Ryan".
The mobility of Scud TELs allowed for a choice of firing position and increased the survivability of the weapon system to such an extent that, of the approximately 100 launchers claimed destroyed by coalition pilots and special forces in the Gulf War, not a single destruction could be confirmed afterwards. After the war, UNSCOM investigations showed that Iraq still had 12 MAZ-543 vehicles, as well as seven Al-Waleed and Al-Nidal launchers, and 62 complete Al-Hussein missiles.
1994 Yemen civil war
A small number of Scuds were used by Russian forces in 1996 during the First Chechen War and in late 1999/early 2000 during the Second Chechen War, including during the Battle of Grozny (1999-2000). Although frequently reported by media as Scuds, the majority of the 60–100 SRBMs fired in the Chechen Wars were the OTR-21 Tochka (SS-21 Scarab-B).
Libyan Civil War
In May 2011, early during the Libyan Civil War, it was rumored that Scud-B's had been fired by Muammar Gaddafi's forces against anti-Gaddafi forces. The first confirmed use happened several months later, when on 15 August 2011, as anti-Gaddafi forces encircled the Gaddafi-controlled capital of Tripoli, Libyan Army forces near Gaddafi's hometown of Sirte fired a Scud missile toward anti-Gaddafi positions in Cyrenaica, well over 100 kilometers away. The missile struck the desert near Ajdabiya, causing no casualties. On 22 August 2011, a second Scud-B also fired by Gaddafi forces in Sirte. On 23 August, opposition forces in Misrata reported that four Scud-B missiles were fired against the city from Sirte, but had caused no damage. Initial claims that an Aegis Ballistic Missile Defense System-equipped US Navy cruiser shot down the missiles over the Gulf of Sidra were later denied by US DoD officials.
Syrian Civil War
On 12 December 2012, it was reported by various outlets that the Syrian Army has begun using short-range ballistic missiles against rebels in the Syrian civil war. According to NATO officials, "allied intelligence, surveillance and reconnaissance assets" had detected the launch of a number (later reports said at least 6) of unguided, short-range ballistic missiles inside Syria. The trajectory and distance travelled indicated that they were Scud-type missiles, although no information on the type of Scud being used was provided at the time. An American intelligence official, who asked not to be identified, confirmed that missiles had been fired from the Damascus area at targets in northern Syria, where the majority of the rebels' bases and facilities are located.
Three districts in the rebel-held eastern part of Aleppo and the nearby city of Tel Rifat were hit by ballistic missiles on 22 February 2013, flattening up to 20 houses in each of the places hit. Human Rights Watch inspector Ole Solvang toured the areas supposedly targeted by SCUDs on 25 February, saying that he "has never seen such destruction" during his past visits to the country. According to the New York-based organization at least 141 people were killed in the attacks, including 71 children. The statement added that there was no sign of rebel presence in the areas hit, meaning that the attacks were unlawful. Syrian Information Minister Omran al-Zoabi denied the government was using ballistic weapons, even as opposition activists claimed more than 30 had been launched since December 2012.
2015–2017 Yemen–Saudi War
- In the 2015/2016 Yemeni-Saudi war SCUD-B missiles targeted King Khalid Airbase more than once
On 9 October 2016 Houthi forces fired four separate Vulcan-1 (a locally-built type of SCUD-D) missiles, with all four causing no damage or casualties. One missile traveled more than 520 km into Saudi territory, into the Makkah Region, landing inside the King Fahad Air Base in Ta'if. The city of Ta'if lies eastward at a distance of some 65 km from the Holy City of Makkah. Saudi Arabia denies the occurrence of any damages. It was the furthest ballistic missile strike by the Houthis up until that point in the war. The last missile was aimed at the Yemeni city of Marib, the Saudi Coalition forces also intercepted this missile.
On October 12 another missile was launched at the Saudi city of Khamis Mushayt, which houses the King Khalid Air Base, which was also intercepted and did not do any damage.
On the 28th of October the Houthi forces fired another ballistic missile, again into the Makkah region and it was destroyed at a distance of 65 km from the Holy City of Makkah itself. Saudi Arabia says it was sent to the Makkah Region, and did not specify if it was fired at the Holy City itself. (Makkah is also the name of a province in Saudi Arabia [See Makkah Region, and for the map of the region see here: Makkah in Saudi Arabia]). The Houthi forces claimed to have targeted the Airport at Jeddah this time, which houses the Prince Abdullah Air Base. The Holy City of Makkah lies only at some 30 km from the missile trajectory from Yemen to the Jeddah airport.
The current operators of Scuds or Scud derivatives are:
- (Scud-B, Scud-D): Some sources said that Algeria has received one Scud B or D during the period of 1985–1990
- (Scud-C): 8 launchers, 32 missiles
- Democratic Republic of the Congo
- (Scud-B, Hwasong-6, project-t)
- (Scud-B, Hwasong-5, Shahab-1, Shahab-2, Shahab-3, Rodong-1)
- North Korea
- (Scud-B, Scud-C, Hwasong-5, Hwasong-6,Hwasong-7, Rodong-1)
- ( Scud-B)
- (Scud-B, Scud-C, Scud-D, Hwasong-6, Hwasong-7)
- United States
- c. 30 Scud-B missiles and four TELs acquired in 1995, and converted into targets by Lockheed Martin.
- (Scud-B, Scud-D, Scud-C)
- (Scud-B, Scud-C)
- (Scud-B) – 4 launchers, ~50 missiles, retired in 2005.
- Democratic Republic of Afghanistan
- (Scud-B, Scud-C?) – 43+ launchers, 2000+ missiles.
- 60 launchers, retired in May 2005
- (Scud-B) – 36 launchers, retired, destroyed
- (Scud-B) – 30 launchers
- Czech Republic
- (Scud-B) – 27 launchers, retired
- East Germany
- (Scud-A, Scud-B) – 24 launchers plus decoys, retired 1990
- (Scud-B) – 9 launchers, retired, destroyed in 1995
- (Scud-B, Al-Hussein, Al-Abbas) – 24–36 launchers plus decoys, 819 missiles, plus 11 MAZ-543 launchers for Al-Hussein.
- (Scud-B) – 30 launchers, retired
- (Scud-B) – 18 launchers, retired
- (Scud-C, Scud-D) – ~300 launchers remaining at the dissolution of the Soviet Union, retired
- South Yemen
- 6 launchers
- Soviet Union
- ~660 launchers
- United Arab Emirates
- 25 Hwasong-5s purchased from North Korea in 1989. The UAE military were not satisfied with the quality of the missiles, and they were kept in storage.
- 50 launchers and 185 missiles, destroyed
- (Scud-B) – retired
- List of missiles
- Al Hussein – An Iraqi upgraded Scud-B
- Shahab-1 – An Iranian copy of the Scud-B
- 9K720 Iskander – Russian Scud replacement
- Boka Star
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- [dead link]
- Zaloga, Steven; Illustrated by Jim Laurier and Lee Ray (2006). Scud Ballistic Missile Launch Systems 1955–2005. Osprey Publishing. ISBN 1-84176-947-9.
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