Tupolev Tu-95

Tu-95
Tu-95MS at Engels Air Force Base
Role Strategic bomber, missile carrier, airborne surveillance
Manufacturer Tupolev
First flight 12 November 1952
Introduction 1956 (MS—1981)
Status Active in service
Primary users Soviet Air Forces
Soviet Navy
Russian Air Force
Number built 500+
Variants Tupolev Tu-114
Tupolev Tu-119
Tupolev Tu-142

The Tupolev Tu-95 (Russian: Туполев Ту–95 NATO reporting name: Bear) is a large, four-engine turboprop-powered strategic bomber and missile platform. First flown in 1952, the Tu-95 entered service with the former Soviet Union in 1956 and is expected to serve the Russian Air Force until at least 2040.[1] A naval development of the bomber is designated Tu-142.

The aircraft has four Kuznetsov NK-12 engines, each driving contra-rotating propellers. An airliner variant Tu-114 holds the record as the world's fastest propeller-driven aircraft. Some experimental aircraft were designed for theoretically higher speeds, but none attained or registered them. It also remains the only turboprop-powered strategic bomber in operational use. Its distinctively swept-back wings are at 35°, a very sharp angle by the standards of propeller-driven aircraft, and justified by its operating speeds and altitudes. Its blades, which rotate faster than the speed of sound, according to one media source, make it arguably the noisiest military aircraft on earth,[2] with only the experimental 1950s era Republic XF-84H "Thunderscreech" turboprop powered American fighter design as a likely rival.

Contents

Design and development

The design bureau led by Andrei Tupolev designed the Soviet Union's first intercontinental bomber, the 1949 Tu-85, a scaled up version of the Tu-4, a Boeing B-29 Superfortress copy. The Tu-4 was deemed to be inadequate against the new generation of American all-weather interceptors.

A new requirement was issued to both Tupolev and Myasishchev design bureaus in 1950: the proposed bomber had to have an un-refueled range of 8000 km (4,970 mi) — far enough to threaten key targets in the United States. Other goals included the ability to carry an 11,000 kg (11 ton) load over the target.

The big problem for Tupolev was the engine choice: the Tu-4 showed that piston engines were not powerful enough to fulfill that role, while the fuel-hungry AM-3 jet engines of the proposed T-4 intercontinental jet bomber did not provide adequate range.[3] Turboprops offered more power than piston engines and better range than jets, with a top speed in between.

Tupolev's proposal was selected and Tu-95 development was officially approved by the government on 11 July 1951. It featured four Kuznetsov[4] coupled turboprops fitted with eight-bladed contra-rotating propellers, producing a nominal 8,948 kW (12,000 eshp) power rating. Unlike the advanced engine design, the fuselage was conventional: a mid-wing cantilever monoplane with 35 degrees of sweep, an angle which ensured the main wing spar passed through the fuselage in front of the bomb bay. Retractable tricycle landing gear was fitted, with all three gear strut units retracting rearwards, with the main gear units retracting rearwards into extensions of the inner engine nacelles.

The Tu-95/I, with 2TV-2F engines, first flew 11 November 1952 with test pilot Alexey Perelet at the controls, but suffered a propeller gearbox failure and crashed.[5] The second aircraft, Tu-95/II featured four of the 12,000 ehp Kuznetsov NK-12 turboprops which proved more reliable than the coupled 2TV-2F. After a successful flight testing phase, series production of the Tu-95 started in January 1956.[4]

For a long time, the Tu-95 was known to U.S./NATO intelligence as the Tu-20. While this was the original Soviet Air Force designation for the aircraft, by the time it was being supplied to operational units it was already better known under the Tu-95 designation used internally by Tupolev, and the Tu-20 designation quickly fell out of use in the USSR. Since the Tu-20 designation was used on many documents acquired by U.S. intelligence agents, the name continued to be used outside the Soviet Union.

Initially the United States Department of Defense evaluated the Tu-95 as having a maximum speed of 644 km/h (400 mph) with a range of 12,500 km (7,800 mi).[6] These numbers had to be revised upward numerous times.

Like its American counterpart, the Boeing B-52 Stratofortress, the Tu-95 has continued to operate in the Russian Air Force while several subsequent iterations of bomber design have come and gone. Part of the reason for this longevity was its suitability, like the B-52, for modification to different missions. Whereas the Tu-95 was originally intended to drop free-falling nuclear weapons, it was subsequently modified to perform a wide range of roles, such as the deployment of cruise missiles, maritime patrol (Tu-142), and even civilian airliner (Tu-114). An AWACS platform (Tu-126) was developed from the Tu-114. An icon of the Cold War, the Tu-95 has served not only as a weapons platform but as a symbol of Soviet and later Russian national prestige.

Tu-116

Designed as a stopgap in case the Tu-114A was not finished on time, two Tu-95 bombers were fitted with passenger compartments. Both aircraft had the same layout: a three-seat VIP section with office space, and the rest of the 70 m³ cabin configured as a normal airliner. Both aircraft were eventually used as crew ferries by the various Tu-95 squadrons. One of these machines is preserved at Ulyanovsk Central Airport.

Operational history

Cold War icon

The Tu-95RT variant in particular was a veritable icon of the Cold War as it performed a vital maritime surveillance and targeting mission for other aircraft, surface ships and submarines. It was identifiable by a large bulge under the fuselage, which housed a radar antenna that was used to search for and target surface ships. The US Navy placed high priority in intercepting the Tu-95RT aircraft at least 200 miles from aircraft carriers with its interceptors, which would then escort the Tu-95 away from NATO airspace.

During interceptions, Tu-95 tail gunners typically kept their twin cannon pointed upwards so as not to antagonize the intercepting fighters. Similarly, NATO rules of engagement for interceptions restricted aircrews from locking onto the Tu-95 with fire control radar lest this be misinterpreted as a hostile act.

During the height of the Cold War, the long range of the Tu-95 was demonstrated weekly as a pair of Tu-95s would fly from the Kola Peninsula to Cuba along the East Coast of the United States, escorted continuously along the way.

The Tu-95 carried and dropped the AN602 Tsar Bomba, the largest and most powerful nuclear weapon ever detonated (deliberately de-rated from 100 to 50 megatons), in 1961.[7]

Present and future status

In 1992, newly independent Kazakhstan began returning the Tu-95 aircraft of the 79th Heavy Bomber Aviation Division at Dolon air base to the Russian Federation.[8] The bombers joined those already at the Far Eastern Ukrainka air base.[9]

All Tu-95s now in Russian service are the Tu-95MS variant, built in the 1980s and 1990s. On August 18, 2007, then-President Vladimir Putin announced that Tu-95 patrols would resume, 15 years after they had ended.[10]

NATO fighters are often sent to intercept Tu-95s as they performed their missions along the periphery of NATO airspace, often in close proximity to each other.[11][12][13][14][15][16][17][18]

Russian Tu-95s reportedly took part in a naval exercise off the coasts of France and Spain in January 2008, alongside Tu-22M3 Backfire strategic bombers and airborne early-warning aircraft.[19]

During the Russian Stability 2008 military exercise in October 2008, Tu-95MS aircraft fired live air-launched cruise missiles for the first time since 1984. The long range of the Raduga Kh-55 cruise missile means Tu-95MS Bears can once again serve as a strategic weapons system.[20]

On 8 July 2011, two Russian Tu-95 turboprop bombers flew an 11-hour flight over the northeast Pacific Ocean and the Sea of Japan. Japan sent two fighter pairs of F-15 and F-2 aircraft to intercept and escort the Russian bombers over portions of the flight. On 8 September 2011, two Russian Tu-95 bombers flew near Japanese airspace, and Japan Air Self Defense Force fighters were sent to intercept them.[21]

Variants and derivatives

Several other modification of the basic Tu-95/Tu-142 airframe have existed, but these were largely unrecognized by Western intelligence or else never reached operational status within the Soviet military. One of these modified Bears, known as the Tu-95V, was used to drop the Tsar Bomba.

Operators

Current

 Russia

Former

 Ukraine

 Soviet Union

Specifications (Tu-95MS)

Data from Combat Aircraft since 1945[25]

General characteristics

Performance

Armament

See also

Aviation portal
Soviet Union portal
Related
Similar aircraft
Lists

References

Notes
  1. ^ Kramnik, Ilya. "Оружие: Возвращение летающего медведя (English: Return of the flying bear"), (in Russian). Lenta.ru, 19 July 2007 Retrieved: 5 June 2010.
  2. ^ "Russian Bear is back." Russia Today via youtube.com, 24 September 2007. Retrieved: 23 January 2011.
  3. ^ "Tupolev Tu-95 Bear." FAS. Retrieved: 23 January 2011.
  4. ^ a b Sobolev, D.A. and D.B. Khazanov. "Creation of the TV-2 (NK-12) turboprop engine 2 TV-2F." Aviation of World War II. Retrieved: 5 June 2010.
  5. ^ :Tupolev." Military Airplanes. Retrieved: 19 January 2009.
  6. ^ "Tu-20/95/142 Bear: The fastest prop-driven aircraft." Aviation.ru. Retrieved: 5 June 2010.
  7. ^ " Big Ivan, The Tsar Bomba (“King of Bombs”): The World's Largest Nuclear Weapon." nuclearweaponarchive.org, 3 September 2007. Retrieved: 5 June 2010.
  8. ^ "All Strategic Bombers Out Of Kazakhstan; Talks On Those In Ukraine." RFE/RL News Briefs, Vol. 3, No. 9, 21–25 February 1994, via Nuclear Threat Initiative.
  9. ^ Bukharin et al. 2004, p. 385.
  10. ^ Kramer, Andrew E. "Russia Resumes Patrols by Nuclear Bombers." The New York Times, 17 August 2007. Retrieved: 17 July 2010.
  11. ^ "UK jets shadow Russian bombers." BBC News, 6 July 2007. Retrieved: 5 June 2010.
  12. ^ "NORAD downplays Russian bomber interception." CBC, 25 August 2010. Retrieved: 6 September 2010.
  13. ^ Lilley, Brian. "Canadian jets repel Russian bombers" Calgary Sun, 30 July 2010.
  14. ^ "CF-18s Russians Airspace." CBC. Retrieved: 25 August 2010.
  15. ^ "Russia's Arctic policy no cause for alarm, MacKay told." The Globe and Mail. Retrieved: 28 August 2010.
  16. ^ "Nederlandse F-16´s onderscheppen Russische vliegtuigen {in Dutch)." Defensie.nl, 19 October 2010. Retrieved: 23 January 2011.
  17. ^ "F-16's Vliegbasis Leeuwarden onderscheppen Russische toestellen | Ministerie van Defensie )in Dutch)." Defensie.nl. Retrieved: 23 January 2011.
  18. ^ "Luchtmacht onderschept Russen boven Noordzee (in Dutch)." nu.nl. 7 June 2011.
  19. ^ Halpin, Tony. "RAF alert as Russia stages huge naval exercise in Bay of Biscay." The Times, 17 August 2007. Retrieved: 5 June 2010.
  20. ^ "Russia revives Cold War aircraft." Washington Times, 30 October 2008. Retrieved: 5 June 2010.
  21. ^ "Tu95 bombers circled Japan." AirForceWorld.com. Retrieved: 25 September 2011.
  22. ^ "Tu-96." globalsecurity.org. Retrieved: 5 June 2010.
  23. ^ Duffy and Kandalov 1996, pp. 131–132.
  24. ^ "SSM" manuscript from Yahoo TO&E group
  25. ^ Wilson 2000, p. 137.
  26. ^ "Tu-95 Bear Strategic Bomber." Air Force Technology. Retrieved: 20 January 2011.
  27. ^ a b c d Grant and Dailey 2007, p. 293.
  28. ^ Originally measured as 15,000 PS.
Bibliography
  • Bukharin, Oleg, Pavel L. Podvig and Frank von Hippel. Russian Strategic Nuclear Forces. Boston: MIT Press, 2004. ISBN 978-0-262-66181-2.
  • Duffy, Paul and Andrei Kandalov. Tupolev: The Man and His Aircraft. Shrewsbury, UK: Airlife, 1996. ISBN 978-1-85310-728-3.
  • Eden, Paul (editor). The Encyclopedia of Modern Military Aircraft. London: Amber Books, 2004. ISBN 978-1-904687-84-9.
  • Gordon, Yefim and Peter Davidson. Tupolev Tu-95 Bear. North Branch, Minnesota: Specialty Press, 2006. ISBN 978-1-58007-102-4.
  • Grant, R.G. and John R. Dailey. Flight: 100 Years of Aviation. Harlow, Essex: DK Adult, 2007. ISBN 978-0-7566-1902-2.
  • Wilson, Stewart. Combat Aircraft since 1945. Fyshwick, Australia: Aerospace Publications, 2000. ISBN 978-1-875671-50-2.

External links