The H-1 upgrade program is the United States Marine Corps's program to develop the AH-1Z Viper and UH-1Y Venom military helicopters to replace its aging fleets of AH-1W SuperCobras and UH-1N Twin Hueys. The contract was awarded in 1996 to Bell Helicopter, the original manufacturer of both aircraft, to design the new airframes as modernized attack and utility helicopters with considerable design commonality, to reduce operating costs.

Upgraded H-1 family in flight

The upgraded type entered service starting in the early 2000s, and have become the dominant type in the USMC as the older models were slowly phased out. The upgraded types have also been exported internationally.

Development

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UH-1Y and AH-Z land on ship deck
 
An AH-1Z Viper and a Bell UH-1Y Venom during trials aboard the USS Bataan (LHD-5) in 2005

In August 1995, the Secretary of the Navy authorized the Marine Corps to upgrade its utility and attack helicopters as a bridge until the Joint Replacement Aircraft was available in 2020.[1] In 1996, the Marine Corps launched the H-1 upgrade program by signing a contract with Bell for upgrading 180 AH-1Ws into AH-1Zs and upgrading 100 UH-1Ns into UH-1Ys.[2][3] While the original contract called for upgrading existing airframes, it was later modified in 2008 to manufacture completely new aircraft.[2][4][5] The program also includes aircraft simulators.[6] The AH-1Z first flew on 8 December 2000.[7] Three prototype aircraft were delivered to NAVAIR's Naval Air Station Patuxent River in July 2002 for the flight test phase of the program. Low-rate initial production followed beginning in October 2003,[2][8] with deliveries to run through 2018,[9] however, full-rate production was delayed until 2005.[1]

The AH-1Z completed sea-trial flight testing in May 2005.[10] On 15 October 2005, the USMC, through the Naval Air Systems Command, accepted delivery of the first AH-1Z production helicopter to enter the fleet.[11] During the first quarter of 2006, the first production model UH-1Y completed its first flight, and the aircraft were transferred to the Operational Test Unit at the NAS Patuxent River to begin operational evaluation (OPEVAL) testing.[12] In February 2008, Bell received a contract for the last 40 AH-1Zs to be built as new airframes instead of the previously planned rebuild of AH-1Ws.[5] Also that same month, the AH-1Z and UH-1Y began the second and final portion of OPEVAL testing.[13]

Bell delivered three upgraded H-1s to the Marine Corps in February 2008.[14] In September 2008, the NAVAIR proposed adding 46 additional AH-1Zs bringing the total number ordered to 226. The additional aircraft will appear on the 2010 fiscal budget request.[15] The final number of UH-1Y acquisitions was also set at 123.[16] Full-rate production was approved in late 2008.[17]

On September 30, 2008, Bell received a contract for Lot 5 H-1 aircraft. These 15 aircraft in Lot 5 include 11 UH-1Ys and four AH-1Zs, bringing the total contracted number to 49 upgraded H-1 aircraft for the Marine Corps: 37 UH-1Ys and 12 AH-1Zs. At that time, the company had delivered 20 upgraded H-1 helicopters: 14 UH-1Ys and six AH-1Zs.[18][19] On March 27, 2009, the Navy Department ordered 16 Lot 6 H-1 helicopters. The 16 aircraft in Lot 6 include five AH-1Zs and 11 UH-1Ys, bringing the total contract to produce a total of 65 upgraded H-1 aircraft: 17 AH-1Zs and 48 UH-1Ys. At the time, Bell had delivered 23 upgraded H-1 helicopters: six AH-1Zs and 17 UH-1Ys.[20][21]

In May 2009, several helicopters were grounded after a manufacturer's defect was detected in the gearbox.[16] The aircraft deployed with the 13th Marine Expeditionary Unit were not affected.

In September 2009, the UH-1Y entered full rate production, with the Marine Corps expected to receive 21 aircraft by the end of the year.[17] The AH-1Z reached initial operational capability in September 2010,[22] and was approved to begin full-rate production on 10 December 2010.[23][24] The AH-1Z is expected to cost approximately US$27 million each.[25]

Program manager Colonel Harry Hewson expressed interest in exporting the upgraded aircraft via Foreign Military Sales at the 2010 Farnborough Airshow.[26]

Upgrades

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UH-1Y landing on an amphibious assault ship
 
AH-1Z and UH-1Y in Japan

The stated mission of the H-1 upgrade program is to "resolve existing safety deficiencies, significantly improve operational capabilities, and reduce life-cycle costs. Commonality between aircraft will greatly enhance the maintainability and deployability of the systems with the capability to support and operate both aircraft within the same squadron structure."[27] Reduced logistical burden, maintenance costs, and personnel requirements (all of which increase the expeditionary capabilities of the aircraft) are possible by the increased commonality of the two airframes,[25] as well as increased reliability of individual components.[1]

Common Elements

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The AH-1Z and UH-1Y share a common tailboom, engines, rotor system, drivetrain, avionics architecture, software, controls and displays for over 84% identical components.[28][29] Both aircraft use twin General Electric T700-GE-401C turboshaft outputting 1,800 shp (1,350 kW) each. Upgrades will also be made to the transmission (rated for 2,350 hp (1,750 kW)) and skid landing gear.[27][30]

The existing two-bladed semi-rigid, teetering rotor system is being replaced with a four-bladed, hingeless, bearingless composite rotor system.[25] The improvement in flight characteristics provided by the four-bladed configuration has led to increases in flight envelope, maximum speed, vertical rate-of-climb, payload and reduced rotor vibration.[31][unreliable source?] The rotor system has 75% fewer parts than that of four-bladed articulated systems, and the improved yokes allow for weight saving with the elimination of all bearings, hinges, and vibration absorbers in the rotor hub.[25] The blades are made of carbon fiber-based composites, which have an increased ballistic survivability, and there is a semiautomatic folding system for stowage aboard Amphibious assault ships.[28] Both helicopters will receive an upgraded, four-blade tail rotor and drive system.[27]

The new integrated avionics system (IAS) has been developed by Northrop Grumman.[27] The system includes two mission computers, an automatic flight control system (reportedly "stops short of a fly-by-wire system"[25]), and a glass cockpit; Bell suggests the system can withstand 23 mm caliber fire.[25] Each crew station has two 8 by 6 in (20 by 15 cm) multifunction liquid crystal displays (LCD) and one 4.2 by 4.2 in (11 by 11 cm) dual function LCD display. The communications suite combines a US Navy RT-1824 integrated radio, UHF/VHF, COMSEC, and modem in a single unit.[6] The navigation suite includes an embedded GPS inertial navigation system (EGI), a digital map system and a low-airspeed air data subsystem, which allows weapons delivery when hovering.[31] The new cockpit systems will increase joint interoperability, now able to transmit and receive data from ground and air systems from other branches.[1][27]

The Lockheed Martin _target Sight System (TSS) incorporates a third-generation FLIR sensor.[27] The TSS provides _target sighting in day, night or adverse weather conditions. The system has various view modes and can track with FLIR or by TV.[28] It is also used on the KC-130J Harvest HAWK.[32]

 
AH-1Z pilots aboard the USS Makin Island wear helmet-mounted displays

The pilot and copilot are equipped with the Thales "Top Owl" helmet-mounted sight and display system.[29][30] The Top Owl has a 24-hour day/night capability and a binocular display with a 40° field of view. Its visor projection provides forward looking infrared (FLIR) or video imagery. However, the Corps has decided to augment it with existing night vision devices.[25]

AH-1Z

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AH-1Z on the tarmac

Its two redesigned wing stubs are longer, with each adding a wingtip station for a missile such as the AIM-9 Sidewinder. Each wing has two other stations for 2.75 inches (70 mm) Hydra 70 rocket pods, or AGM-114 Hellfire quad missile launchers. The Longbow radar can also be mounted on a wingtip station.[2] It will be able to cruise at approximately 135 to 140 knots (250 to 259 km/h) and sprint at 180 knots (330 km/h) before suffering the limits of parasitic drag.[25]

The AH-1Z has survivability equipment including the Hover Infrared Suppression System (HIRSS) to cover engine exhausts, countermeasure dispensers, radar warning, missile warning, and laser warning systems.[28]

UH-1Y

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UH-Y from the rear, showing the distinctive exhaust common to both upgraded types

One of the most critical UH-1Y upgrades is in its powertrain. The UH-1N gradually became burdened with various upgrades: avionics, radios, modern door guns, and safety upgrades; all increasing the UH-1N's empty weight. With a maximum speed of approximately 100 knots (190 km/h) and an inability to lift much more than its own crew, fuel and ammunition, the UH-1N became limited in its utility. However, the UH-1Y has upgraded engines and transmission, 170% increased payload, and almost 50% greater range and maximum speed.[29][33] The fuselage has been lengthened by 21 inches (53 cm) just forward of the main door for more capacity.[29]

Exports

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In 2013 the upgraded helicopters were being considered by South Korea and Iraq.[34]

AH-1Z Viper

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As of 2022, the Viper has been ordered by Royal Bahraini Air Force and the Czech Air Force.[35] Bahrain has ordered 12 and the Czech Republic has ordered 4.

Nigeria has also ordered the AH-1Z, and as of 2024 is planning procure 12.[36]

UH-1Y Venom

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The Venom, as of 2022, was ordered by the Czech Air Force, who ordered 8 helicopters.[citation needed]

See also

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AH-1Z Viper (left) and UH-1Y Venom (right)

Related development

Related lists

References

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  1. ^ a b c d H-1 Upgrade Program on GlobalSecurity.org
  2. ^ a b c d Donald, David. Modern Battlefield Warplanes. AIRTime Publishing, 2004. ISBN 1-880588-76-5.
  3. ^ Bishop, Chris. Huey Cobra Gunships. Osprey Publishing, 2006. ISBN 1-84176-984-3.
  4. ^ Milliman, John (2005-04-22). "UH-1Ys to be built new starting in 06". Naval Air Systems Command. United States Navy. Archived from the original on 2009-02-06. Retrieved 2008-12-06.
  5. ^ a b Warwick, Graham. "Bell AH-1Z upgrade to switch to new airframes", Flightglobal.com, 15 February 2008.
  6. ^ a b USMC H-1 Upgrade Program Archived December 12, 2008, at the Wayback Machine, Advanced Simulation Technology, Inc., September 2005
  7. ^ "AH-1Z completes first flight", Bell Helicopter, 7 December 2000.
  8. ^ Defense Dept. `Green Lights' Bell's H-1 Upgrade Program Business Wire, October 2003
  9. ^ "AH-1Z/UH-1Y complete developmental testing", US Navy, 6 March 2006.
  10. ^ "AH-1Z/UH-1Y complete first sea trials" Archived February 15, 2008, at the Wayback Machine. US Navy, 13 June 2005.
  11. ^ "Bell 449 SuperCobra and KingCobra", Jane's Information Group, 7 December 2005.
  12. ^ "AH-1Z/UH-1Y Start OPEVAL", US Navy, 6 May 2006.
  13. ^ Warwick, Graham. "US Marine Corps' Bell AH-1Z and UH-1Y enter final test phase", Flightglobal.com, 20 February 2008.
  14. ^ "Bell H-1 upgrade program delivers two UH-1Y and one AH-1Z in February" Archived October 28, 2008, at the Wayback Machine. Bell Helicopter, 3 March 2008.
  15. ^ Trimble, Stephen (2008-08-22). "US Navy proposes more UH-1Ys, AH-1Zs despite test phase setback". www.flightglogal.com. Retrieved 2008-08-24.
  16. ^ a b McCullough, Amy (May 5, 2009). "Damaged gear boxes ground some new Hueys". Marine Corps Times. Gannett Company. Archived from the original on January 28, 2013. Retrieved May 22, 2009.
  17. ^ a b "Program Insider: H-1 Update". Rotor & Wing Magazine. September 1, 2009. Archived from the original on February 17, 2012. Retrieved September 19, 2009.
  18. ^ "Bell Helicopter Receives Contract for Additional H-1 Aircraft". Textron. October 10, 2008. Archived from the original on February 21, 2013.
  19. ^ "Bell Helicopter Receives Contract for Lot 5 H-1 Aircraft". deagel.com. September 30, 2008.
  20. ^ "US Navy Orders More H-1 Aircraft from Bell Helicopter". Textron. April 2, 2009. Archived from the original on July 12, 2012.
  21. ^ "US Navy Orders 16 Lot 6 UH-1Y Helicopters". deagel.com. March 27, 2009.
  22. ^ Trimble, Stephen (30 September 2010). "USMC declares AH-1Z Viper combat ready". Flight International. Retrieved 1 October 2010.
  23. ^ "Bell Helicopter AH-1Z earns Navy approval for full rate production". Shephard Group Limited. 10 December 2010. Archived from the original on 16 December 2010. Retrieved 11 December 2010.
  24. ^ "Snakes and Rotors: The USMC's H-1 Helicopter Program". Defense Industry Daily. 30 December 2010. Retrieved 2 January 2011.
  25. ^ a b c d e f g h "AH-1Z Viper enters production as substantially new aircraft." FlightGlobal, 20 December 2010.
  26. ^ Peniston, Bradley (August 2, 2010). "Corps seeks international buyers for its new helos". Marine Corps Times. p. 19.
  27. ^ a b c d e f H-1 Upgrade Program (UH-1Y/AH-1Z) Archived 2007-07-10 at the Wayback Machine, U.S. Marine Corps, 2007.
  28. ^ a b c d Bell AH-1Z Pocket Guide Archived November 13, 2008, at the Wayback Machine, Bell Helicopter, Retrieved 3 January 2008.
  29. ^ a b c d Bell UH-1Y pocket guide Archived November 14, 2008, at the Wayback Machine, Bell Helicopter, Retrieved 16 August 2008.
  30. ^ a b Bell AH-1Z page Archived March 28, 2007, at the Wayback Machine, Bell Helicopter, Retrieved 3 January 2008.
  31. ^ a b AH-1W/AH-1Z Super Cobra Attack Helicopter, USA, Airforce-Technology.com. Retrieved: 14 January 2008.
  32. ^ "From Hueys to Harvest Hawk: Ordnance Marine arms aircraft in Afghanistan" by Cpl. Samantha H. Arrington, DVIDS. 19 May 2011
  33. ^ Bell UH-1Y page Archived April 3, 2007, at the Wayback Machine, Bell Helicopter, Retrieved 3 January 2008.
  34. ^ "Bell Helicopters' upgraded H-1 generates foreign interest."
  35. ^ Parsons, Dan (16 December 2019). "Czech H-1 deal will keep Bell's production line open at least through 2024". verticalmag.com.
  36. ^ Finnerty2024-03-13T17:00:00+00:00, Ryan. "Bell extends H-1 production with $455m attack helicopter order from Nigeria". Flight Global. Retrieved 2024-04-19.{{cite web}}: CS1 maint: numeric names: authors list (link)
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