World Library  
Flag as Inappropriate
Email this Article

RSM-56 Bulava

Article Id: WHEBN0002868397
Reproduction Date:

Title: RSM-56 Bulava  
Author: World Heritage Encyclopedia
Language: English
Subject: R-39M, R-29RMU Sineva, R-29RMU2 Layner, 2009 Norwegian spiral anomaly, KSR-5
Collection: Intercontinental Ballistic Missiles of Russia, Submarine-Launched Ballistic Missiles of Russia
Publisher: World Heritage Encyclopedia

RSM-56 Bulava

R-30 (RSM-56) Bulava [1]
Bulava missile variants
Place of origin Russia
Service history
In service 10 January 2013[2]
Used by Russian Navy
Production history
Designer Moscow Institute of Thermal Technology
Manufacturer Votkinsk Plant State Production Association
Produced 2011
Weight 36.8 t (36.2 long tons; 40.6 short tons)
Length 11.5 m (38 ft) (without warhead)
12.1 m (40 ft) (launch container)
Diameter 2 m (6 ft 7 in) (missile)
2.1 m (6 ft 11 in) (launch container)
Warhead 6 (can carry 10) re-entry vehicles with a yield of 150 kt each.[3]

Engine three stage, Solid-fuel rocket and Liquid-propellant rocket
Propellant solid propellant and liquid fuel
8,000-8,300 km[4][5][6]
inertial guidance, possibly Astro-inertial guidance with and/or GLONASS update
Accuracy 350 meters[7]
Borei-class submarines
Typhoon-class submarine Dmitri Donskoi

The Bulava (Russian: Булава, lit. "mace"; designation RSM-56, NATO reporting name SS-NX-30 or SS-N-32 , GRAU index 3M30) is a submarine-launched ballistic missile (SLBM) developed for the Russian Navy and deployed in 2013 on the new Borei class of ballistic missile nuclear submarines. It is intended as the future cornerstone of Russia's nuclear triad, and is the most expensive weapons project in the country.[8] The weapon takes its name from bulava, a Russian word for mace. The Bulava is almost equal to the 1979 Trident C4 in terms of performance and size.[9] Bulava has slightly greater range but a lower throw-weight.

Designed by Moscow Institute of Thermal Technology, development of the missile was launched in the late 1990s as a replacement for the R-39 Rif solid-fuel SLBM.[10] It is expected that the first three Borei-class submarines will carry 16 missiles, while the following five vessels will carry 20 missiles. Development and deployment of the Bulava missile within the Russian Navy is not affected by the enforcement of the new START treaty.[11]

The missile's flight test programme was problematic. Until 2009, there were 6 failures in 13 flight tests and one failure during ground test, blamed mostly on substandard components. After a failure in December 2009, further tests were put on hold and a probe was conducted to find out the reasons for the failures. Testing was resumed on 7 October 2010 with a launch from the Typhoon-class submarine Dmitri Donskoi in the White Sea; the warheads successfully hit their targets at the Kura Test Range in the Russian Far East.[12] Seven launches have been conducted since the probe, all successful. On 28 June 2011, the missile was launched for the first time from its standard carrier, Borei-class submarine Yury Dolgorukiy, and on 27 August 2011 the first full-range (over 9,000 km (5,600 mi)) flight test was conducted. After this successful launch, the start of serial production of Bulava missiles in the same configuration was announced on 28 June 2011. A successful salvo launch on 23 December 2011 concluded the flight test programme. The missile was officially approved for service on 27 December 2011,[13] and was reported to be commissioned aboard the Yuri Dolgorukiy on 10 January 2013. The missile did however continue to fail in the summer of 2013 and was not operational as of November 2013.[14] The Bulava is finally operational aboard Yury Dolgorukiy as of October 2014.[15]

Bulava Trident C4
Number of stages 3 3
Length of assembled missile without front section, m 11.5 10.3
Maximum diameter of missile airframe (without stabilizers, raceways, protruding elements), m 2 1.88
Launch weight, tonnes 36.8 32.3
Total length of missile as a unit with launch canister (with front section), m 12.1 n/a
Declared number of warheads [START] 6 8
Throw weight, kg to 9,500 km [START Protocol] 1150 1500
up to 7,400 km


  • Description 1
  • Development history 2
    • Inception 2.1
    • First tests 2.2
    • Troubles 2.3
      • Explanations for the failures 2.3.1
      • Effects on the military 2.3.2
      • Debate about the program 2.3.3
      • Probe 2.3.4
    • 2010 tests 2.4
    • 2011 tests and deployment 2.5
    • 2012 tests and deployment 2.6
    • 2013 deployment 2.7
  • Timetable & SLBM Comparison 3
  • Service 4
  • See also 5
  • References 6
  • External links 7


The Bulava missile was developed by Moscow Institute of Thermal Technology under the leadership of chief designer Yury Solomonov. Although it utilizes some engineering solutions used for the recent Topol-M ICBM, the new missile has been developed virtually from scratch.[16] Bulava is both lighter and more sophisticated than the Topol-M. The two missiles are expected to have comparable ranges, and similar CEP and warhead configurations. Bulava has a declared START throw weight of 1150 kg to 9,500 km.

The missile has three stages; the first and second stages use solid fuel propellant, while the third stage uses a liquid fuel to allow high maneuverability during warhead separation. The missile can be launched from an inclined position, allowing a submarine to fire them while moving. It has a low flight trajectory, and due to this could be classified as a quasi-ballistic missile.[17] The missile possesses advanced defense capabilities making it resistant to missile-defense systems. Among its abilities are evasive maneuvering, mid-course countermeasures and decoys, and a warhead fully shielded against both physical and electromagnetic pulse damage. The Bulava is designed to be capable of surviving a nuclear blast at a minimum distance of 500 metres (1,600 ft).

The Bulava's advanced technology allows it to carry up to 10 hypersonic, individually guided, maneuverable warheads with a yield of 100–150 kt each.[17]

Borei-class submarines carrying Bulava missiles are expected to be an integral part of the Russian nuclear triad until 2040.[18]

Bulava can be loaded on TEL road mobile launchers, on railway BZhRK trains, other various displacement ground sea sub.

Development history


In the 1990s, Russia had two submarine-launched ICBMs, the solid-fuel R-39 and the liquid-fuel R-29 Vysota family, both developed by the Makeyev Design Bureau. A new missile, designated R-39UTTH Bark was under development to replace the R-39. The Bark was planned to become the only submarine-launched ballistic missile of the Russian nuclear arsenal.[19] However, its development was plagued with problems, and after three test failures the Bark programme was canceled in 1998. Moscow Institute of Thermal Technology was now tasked with developing a new advanced missile. The institute promised that it would able to quickly develop a new naval missile based on its recent Topol-M land-based ICBM.[20]

The new missile would be deployed per 16 missiles on the Borei I-[20] and per 20 missiles on Borei II-class submarines.[21] As the new submarines would not be ready in time for flight tests, the Typhoon-class submarine Dmitry Donskoy was upgraded to carry Bulavas.[22]

Key people involved in the decision to develop Bulava included the institute director and Bulava's chief designer Yury Solomonov; director of the Defense Ministry's Fourth Central Research Institute, Major-General Vladimir Dvorkin; Navy Commander, Fleet Admiral Vladimir Kuroyedov; Defense Minister, Marshal Igor Sergeyev; Economics Minister Yakov Urinson and Prime Minister Viktor Chernomyrdin.[20]

First tests

The missile completed the first stage launch-tests at the end of 2004. Although it was initially planned to base the Bulava design on the Topol-M, the first tests showed that the new missile was completely different in terms of appearance, dimensions and warhead lay-out.[20] It was later acknowledged that the Moscow Institute of Thermal Technology had developed Bulava virtually from scratch, reusing only a few engineering solutions from the Topol-M.[16]


By 2009, the missile had experienced 5 failures in 11 tests. This led to the missile's chief designer, Yury Solomonov resigning from his post in July 2009.[23] Aleksandr Sukhodolskiy was appointed as the new general designer of sea-based ballistic missiles at the Moscow Institute of Thermal Technology; Solomonov however retained his post of general designer of land-based missiles.[24]

Explanations for the failures

Chief designer Solomonov has blamed the failures on the poor state of the Russian defense industry and problems in the design-technology-production chain.

"Sometimes [the problem] is poor-quality materials, sometimes it is the lack of necessary equipment to exclude the 'human' factor in production, sometimes it is inefficient quality control"

According to Solomonov, the industry is unable to manufacture 50 of the necessary components for the missile, forcing designers to improvise and look for alternative solutions, which seriously complicates the testing process. Solomonov further said that despite the failures, there was no need for changes in the design.[25]

Sergei Kovalyov, the designer of three generations of Russian strategic submarines said that due to lack of funding, the developers had been unable to conduct test launches from a floating pad to test the underwater segment of the missile's trajectory. He also said that there were insufficient funds to conduct ground-based test launches. Both types of testing had been standard procedure during Soviet times. Kovalyov also criticised the poor quality of missile components provided by a large number of sub-contractors and the absence of military representatives at manufacturing plants.[26]

The 2009 Norwegian spiral anomalies, a temporary strange light phenomenon over vast areas of northern Norway have been explained with a failed stage of a Bulava missile test.[27][28] According to a spokesman, "The missile's first two stages worked as normal, but there was a technical malfunction at the next, third, stage of the trajectory".[29][30]

Effects on the military

Due to the delays in Bulava's development, the launch of the fourth Borei-class submarine, Svyatitel Nikolay, has been pushed back.[31] Russia was planning to build eight of Borei-class submarines by 2015.[32]

Only one Typhoon-class submarine, Dmitry Donskoy, has been modified to launch Bulavas. The Bulava program is the most expensive weapons project in Russia.[8]

Debate about the program

Despite continued test failures, the Russian defense minister, Anatoly Serdyukov, has stated that the project will not be abandoned. "We will certainly not give up the Bulava. I think that despite all the failures, the missile will fly," he said in an interview in late December 2009. The Russian military has been adamant that there is no alternative to Bulava.[33]

There has been discussion among analysts about the possibility of re-equipping the Borei-class submarines with the more reliable liquid-propellant R-29RMU Sineva missiles. The Sineva is an upgrade of the R-29RM Shtil and entered service in 2007. According to RIA Novosti military analyst Ilya Kramnik, this would have been an attractive option, given that the less advanced Sineva missiles already have "virtually the same impressive specifications as the Trident II (D5) SLBMs wielded by the U.S. Navy and the Royal Navy." However, the work needed to redesign and modify the Borei-class submarines to carry Sinevas is regarded as too expensive.[34]


After a launch failure in December 2009 caused by a defective engine nozzle and which led to the 2009 Norwegian spiral anomaly, further tests were put on hold and a review of the missile program was initiated. The results of the probe were delivered to the Russian government in May 2010.[35]

2010 tests

Testing was resumed for the first time after the probe on 7 October 2010. The missile was launched from the submerged Dmitry Donskoy, in the White Sea, and the warheads successfully hit their targets at the Kura testing range, 380 kilometres (240 mi) to the north of Petropavlovsk-Kamchatsky in the Russian Far East.[12][18] The launch reportedly took place at 07:15 UTC.[36] The missile travelled over 6,000 kilometres (3,700 mi), and the rocket's trajectory was within the normal parameters, according to a Navy official.[37]

The second test launch in 2010 from Dmitry Donskoy was set to 29 October[3] and was successful.[38]

The next test to be performed from Yuriy Dolgorukiy was initially planned to December 2010, but was postponed to mid-summer 2011 due to ice conditions in White Sea.[39]

Each of following new test missiles needed to been built under nearly identical conditions, in order to determine the cause of potential failures.[40]

2011 tests and deployment

Russian defense sources have stated that the Bulava missile will not enter service until it is 98-99% reliable.[41] According to the Russian Vice Premier Sergei Ivanov another six successful launches (one planned in 2010, other five in 2011) will be required before the missile could be commissioned.[42] After a successful test salvo launch in December 2011, Russian president Dmitry Medvedev announced that the Bulava missile was ready and it would now be adopted for service with the Russian Navy.[43]

2012 tests and deployment

On August 2012 a high-ranking official of Russia’s United Shipbuilding Corporation said in 2012 Russia will test fire its Bulava missile only once, in November, specifically from the nuclear-powered submarine Alexander Nevsky.[44]

2013 deployment

Bulava was finally commissioned with its lead carrier Yuri Dolgorukiy on 10 January 2013. The official ceremony of raising the Russian Navy colors on the submarine was led by Russian Defense Minister Sergey Shoigu.[2] After another failed launch in September, Shoigu announced a pause in the state trials of the next two submarines and five more test launches.[45] The entire production run of the missiles was then recalled for factory inspections.[46] Russian Deputy Defense Minister Yury Borisov told reporters on Wednesday 20 November 2013: "The commission has completed its work. The causes have been determined. They are technological and are related to the production of the nozzle," Borisov told a roundtable meeting on state defense contracts. The cause of the failure does not call into question "the correctness of the production of the product in general," he said. The flaw that has been revealed has been corrected on the three remaining missiles in this batch, Borisov said. Borisov said Russian Defense Minister Sergei Shoigu has made a decision to hold another five Bulava launches. "These launches will be planned next year," Borisov said. The intercontinental ballistic missile Bulava was launched at the Kura testing ground in Kamchatka during the state testing of the strategic nuclear submarine Alexander Nevsky in the White Sea on September 6. "The missile left the launch container, but the its board system failed three minutes into the launch," the Russian Defense Ministry earlier said.[47]

Timetable & SLBM Comparison

RSM-56 Bulava launches & Comparison
Date Result Position Submarine Notes
24 June 2004 Failure Ground Solid propellant engine exploded during the test.[48]
01 23 September 2004 Success Surfaced Dmitri Donskoi Pop-up test.[48]
02 27 September 2005 Success Surfaced Dmitry Donskoi First flight test.[48]
03 21 December 2005 Success Submerged Dmitry Donskoi First launch from a submerged submarine.[48]
04 7 September 2006 Failure Submerged Dmitry Donskoi The first stage failed shortly after launch.[48]
05 25 October 2006 Failure Submerged Dmitry Donskoi Failure of the first stage.[48]
06 24 December 2006 Failure Surfaced Dmitry Donskoi Problems with the third stage.[48]
07 29 June 2007 Success Submerged Dmitry Donskoi Warheads hit targets at the Kura testing range,[48] but one of warheads didn't.[49]
08 18 September 2008 Success Submerged Dmitry Donskoi Launch at 18:45, warheads hit target at 19:05.[48][50]
09 28 November 2008 Success Submerged Dmitry Donskoi The first statements suggests that the test was a success.[48][51]
10 23 December 2008 Failure Submerged Dmitry Donskoi The missile malfunctioned during firing of its third stage and self-destructed on command.[48][52]
11 15 July 2009 Failure Submerged Dmitry Donskoi The missile malfunctioned during firing of its first stage and self-destructed.[48][53]
12 9 December 2009 Failure Submerged Dmitry Donskoi The missile malfunctioned during firing of its third stage.[48][54][55]
13 7 October 2010 Success Submerged Dmitry Donskoi Targets at the Kura Test Range in the Russian Far East were successfully hit.[12][48]
14 29 October 2010 Success Submerged Dmitry Donskoi Launch from the White Sea. Targets at the Kura Test Range were hit successfully.[38][48]
15 28 June 2011 Success Submerged Yury Dolgorukiy First launch from standard missile carrier from the White Sea. Targets at the Kura Test Range were hit successfully.[56]
16 27 August 2011 Success Submerged Yury Dolgorukiy Launch from the White Sea. Targets at the Pacific Ocean were hit successfully at a range of 9,100 km (5,700 mi).[57] First full-range test.[58]
17 28 October 2011 Success Submerged Yury Dolgorukiy Successful launch from the White Sea. Warheads hit target at the Kura test range in Kamchatka.[59][60]
18,19 23 December 2011 Success Submerged Yury Dolgorukiy A salvo launch involving two missiles. Warheads hit designated targets at the Kura test range in Kamchatka.[61]
20 6 September 2013 Failure Submerged Alexander Nevsky[62] A malfunction in one of its systems on the second minute of the flight.[63]
21 9 September 2014 Success Submerged Vladimir Monomakh [64] Hit the designated target at the Kura test range[65]
22 29 October 2014 Success Submerged Yury Dolgorukiy Successful launch from Barents Sea. Target hit at Kura test range in Kamchatka.[66]
23 28 November 2014 Success Submerged Alexander Nevsky Hit the designated target at the Kura test range[67]


In October 2010 it was reported that 150-170 operational missiles would be built (124 active + reserve for training and tests).[68]

After the successful launch on 28 June 2011, the Russian government announced the start of serial production of Bulava missiles.[69] On 10 January 2013, Bulava was adopted into service with its lead carrier submarine Yuri Dolgorukiy.[2]

See also


  1. ^ "Next launch of SLBM Bulava to be held in Oct". 11 October 2010. Retrieved 2011-12-29. 
  2. ^ a b c "Finally flying colors: Yury Dolgoruky nuclear sub joins Russian Navy". RT. 10 January 2013. Retrieved 13 January 2013. 
  3. ^ a b """Названа дата 14-го запуска "Булавы. 26 October 2010. Retrieved 2011-12-29. 
  4. ^
  5. ^
  6. ^
  7. ^
  8. ^ a b "Russian military successfully tests new missile".  
  9. ^
  10. ^ "SS-27 Topol-M / SS-NX-30 Bulava ("Mace")". 2007. Retrieved 2010-04-07. 
  11. ^ "New Start won't keep Russia from developing Bulava missiles - deputy PM | Defense | RIA Novosti".  
  12. ^ a b c "Russia's Bulava missile hits target in test".  
  13. ^ "Bulava missile completes flight tests, ready to deploy".  
  14. ^ "Russian Navy’s Newest Missile Subs Not Operational – Source". Retrieved 23 December 2014. 
  15. ^ "TASS: Russia - Bulava missile launched from nuclear sub in Russia". TASS. Retrieved 23 December 2014. 
  16. ^ a b Kramnik, Ilya (2010-09-20). "Bulava missile: is there any alternative?".  
  17. ^ a b "Bulava - the lightest ballistic missile of its type".  
  18. ^ a b "Bulava missile: 13th time lucky".  
  19. ^ "Status of Russia's SLBM programs". 2005. Retrieved 2012-11-05. 
  20. ^ a b c d "The Bulava missile saga".  
  21. ^ "SSBN Yury Dolgoruky completed sea trials". 28 September 2010. Retrieved 2011-12-29. 
  22. ^ "Bulava trials are postponed". 2009-12-09. Retrieved 2011-12-29. 
  23. ^ "Russian Bulava missile designer quits after failed tests".  
  24. ^ Булава" сносит головы""". Российская газета. 2010-09-20. Retrieved 2012-11-05. 
  25. ^ "Bulava missile designer blames industry for test failures". 2010-04-14. Retrieved 2012-11-05. 
  26. ^ "Russian submarine designer certain of Bulava missile success".  
  27. ^ "Strange 'Norway spiral' likely an out-of-control missile".  
  28. ^ "Norway spiral: A rocket scientist explains the mystery".  
  29. ^ Clara Moskowitz, 'Russia admits missile caused UFO lights'. MSNBC News, 10 December 2009.
  30. ^ Oberg, James (January 2010). "Russia's Ailing ICBM Program: Spiral over Norway latest in string of failures".  
  31. ^ "Russia to start construction of 4th Borey-class sub in early 2010".  
  32. ^ "Russia's newest nuclear sub completes sea trials".  
  33. ^ "Russian defense minister insists on Bulava missile development".  
  34. ^ Kramnik, Ilya (2010-09-20). "Bulava missile: is there any alternative?".  
  35. ^ "Bulava probe results ready for Russian government review - source".  
  36. ^ Podvig, Pavel. "Bulava launch reported success". Retrieved 2012-11-05. 
  37. ^ "Russia successfully tests troubled Bulava missile".  
  38. ^ a b "Russia carries out another successful test launch of Bulava missile".  
  39. ^ """Названа новая дата испытаний "Булавы. 15 December 2010. Retrieved 2011-12-29. 
  40. ^ "Russia to test Bulava missile in 3rd quarter - top general".  
  41. ^ "Russia's ballistic missile to enter service after clean sheet (Update 1)".  
  42. ^ "To commission Bulava, six effective launches are required – Ivanov". Retrieved 2012-11-05. 
  43. ^ "Bulava missile ready to deploy | Defense |".  
  44. ^
  45. ^ "Borei super-subs trials may be postponed after Bulava ‘failure’". Retrieved 23 December 2014. 
  46. ^ Retrieved 23 December 2014. 
  47. ^ Bulava launch failure was caused by violations of nozzle production technologies-Russian Defense Ministry Voice of Russia, 20 November 2013
  48. ^ a b c d e f g h i j k l m n o "Bulava missile: test-launch history".  
  49. ^ "Булава" не раскалывается.  
  50. ^ "Russia successfully test launches Bulava missile from submarine".  
  51. ^ "Russia test launches ICBM from White Sea, hits Kamchatka target".  
  52. ^ С АПЛ "Дмитрий Донской" произведен неудачный запуск "Булавы".  
  53. ^ "Q+A-Russia delays test of troubled Bulava missile".  
  54. ^ "Russia's latest Bulava missile test unsuccessful".  
  55. ^ "New Russian missile fails again in test: reports".  
  56. ^ "Russia successfully test-fires new ballistic missile".  
  57. ^ "First Borey class nuclear sub to be assigned to Pacific Fleet in 2011 | Defense |".  
  58. ^ "Yuri Dolgoruky nuclear submarine successfully conducts Bulava missile launch".  
  59. ^ тНРН: "пц". Чпхи Днкцнпсйхи" Бшонкмхк Сяоеьмши Осяй Пюйерш "Аскюбю" — Пняяхияйюъ Цюгерю""". Retrieved 2011-12-29. 
  60. ^ "Russian submarine test-fires Bulava missile successfully".  
  61. ^ "Russia successfully test fires Bulava missiles".  
  62. ^ "Russian Navy to get three nuclear submarines in 2013". Retrieved 23 December 2014. 
  63. ^ "Russia Puts Submarine Trials on Hold After Bulava Failure".  
  64. ^ "All News / Sputnik International". Retrieved 23 December 2014. 
  65. ^ "Russia Successfully Test-Fires Bulava SLBM". Retrieved 23 December 2014. 
  66. ^ "Russia Test Fires Bulava Sea-Based Ballistic Missile".  
  67. ^ "Russian submarine test-launches Bulava intercontinental missile". Reuters. Retrieved 23 December 2014. 
  68. ^ "Объем серийного выпуска ракет "Булава" может превысить 150 единиц". 25 October 2010. Retrieved 2011-12-29. 
  69. ^ Булаву" можно запускать в серийное производство, заявил Сердюков""". Retrieved 2011-12-29. 

External links

  • MissileThreat news articles, primarily with an American view of events.
  • Russia's Bulava undergoes fast-track test programme, May 2006.
  • Technical data in PDF, DTIG.
  • Technical data from
  • Technical data from
This article was sourced from Creative Commons Attribution-ShareAlike License; additional terms may apply. World Heritage Encyclopedia content is assembled from numerous content providers, Open Access Publishing, and in compliance with The Fair Access to Science and Technology Research Act (FASTR), Wikimedia Foundation, Inc., Public Library of Science, The Encyclopedia of Life, Open Book Publishers (OBP), PubMed, U.S. National Library of Medicine, National Center for Biotechnology Information, U.S. National Library of Medicine, National Institutes of Health (NIH), U.S. Department of Health & Human Services, and, which sources content from all federal, state, local, tribal, and territorial government publication portals (.gov, .mil, .edu). Funding for and content contributors is made possible from the U.S. Congress, E-Government Act of 2002.
Crowd sourced content that is contributed to World Heritage Encyclopedia is peer reviewed and edited by our editorial staff to ensure quality scholarly research articles.
By using this site, you agree to the Terms of Use and Privacy Policy. World Heritage Encyclopedia™ is a registered trademark of the World Public Library Association, a non-profit organization.

Copyright © World Library Foundation. All rights reserved. eBooks from Project Gutenberg are sponsored by the World Library Foundation,
a 501c(4) Member's Support Non-Profit Organization, and is NOT affiliated with any governmental agency or department.