Following the incomplete development of the heavier Mil Mi-12 (prototypes known as
Mil V-12) in the early 1970s, work began on a new heavy-lift helicopter, designated as the Izdeliye 90 ("Project 90")[2] and later allocated designation Mi-26. The new design was required to have an
empty weight less than half its
maximum takeoff weight.[3] The helicopter was designed by
Marat Tishchenko, protégé of
Mikhail Mil, founder of the
OKB-329 design bureau.[4]
The Mi-26 was designed to replace earlier
Mi-6 and Mi-12 heavy lift helicopters and act as a heavy-lift helicopter for military and civil use, having twice the cabin space and payload of the Mi-6, then the world's largest and fastest production helicopter. The primary purpose of the Mi-26 was to transport military equipment such as 13-tonne (29,000 lb) amphibious armored personnel carriers and mobile ballistic missiles to remote locations after delivery by military transport aircraft such as the
Antonov An-22 or
Ilyushin Il-76.[citation needed]
The first Mi-26 flew on 14 December 1977[5] and the first production aircraft was rolled out on 4 October 1980.[2] Development was completed in 1983 and by 1985, the Mi-26 was in Soviet military and commercial service.[3]
The Mi-26 was the first factory-equipped helicopter with a single, eight-blade main lift
rotor. It is capable of flight in the event of power loss by one engine (depending on aircraft mission weight) because of an engine load sharing system. While its empty weight is only slightly higher than the Mi-6's, the Mi-26 has a
payload of up to 20 tonnes (44,000 lb). It is the second largest and heaviest helicopter ever constructed, after the experimental Mil V-12. The tail rotor has about the same diameter and thrust as the four-bladed main rotor fitted to the
MD Helicopters MD 500.[6]
The Mi-26's unique main gearbox is relatively light at 3,639 kg (8,023 lb)[7] but can absorb 14,700 kilowatts (19,725 shp), which was accomplished using a non-planetary, split-torque design with quill shafts for torque equalization.[citation needed] The Mil Design Bureau designed the VR-26 transmission itself, due to Mil's normal gearbox supplier not being able to design such a gearbox.[8] The gearbox housing is stamped aluminum.[7] A split-torque design is also used in the 5,670 kg (12,500 lb) gearbox assembly on the American three-engine
Sikorsky CH-53K King Stallion.[9]
As of 2016[update], the Mi-26 still holds the
Fédération Aéronautique Internationale world record for the greatest mass lifted by a helicopter to 2,000 metres (6,562 ft) – 56,768.8 kilograms (125,000 lb) on a flight in 1982.[10]
In July 2010 a proposed Russian-Chinese development of a 33-ton heavy-lift helicopter was announced.[citation needed] In early 2019, Russia's state corporation Rostec inked a landmark agreement on developing a 40-ton next-generation heavy helicopter.[citation needed]
Rostvertol, the Russian helicopter manufacturer, was contracted to refurbish and upgrade the entire fleet of Mi-26s serving in the
Russian Air Force, estimated to be around 20 helicopters. The upgraded aircraft is comparable to a new variant, the Mi-26T. Contract completion was planned for 2015. The contract also covered the production of 22 new Mi-26T helicopters. Eight new-built helicopters were delivered to operational units by January 2012.[11] Under the 2010 contract, 17 new-production helicopters were delivered by 2014.[12] In all, Rostvertol delivered fourteen Mi-26s to domestic and foreign customers in the period 2012‑14 and six helicopters in 2015.[13] Deliveries to the Russian Aerospace Forces were continued in 2016, 2017 and 2019.[14][15][16]
In 2016, Russia started development of PD-12V a variant of the
Aviadvigatel PD-14 turbofan engine to power the Mi-26.[17]
The Mi-26S was a disaster response version hastily developed during the containment efforts of the
Chernobyl nuclear accident in 1986.[19] Thirty Mi-26 were used for
radiation measurements and precision drops of insulating material to cover the damaged No.4 reactor. It was also equipped with a deactivating liquid tank and underbelly spraying apparatus. The Mi-26S was operated in immediate proximity to the nuclear reactor, with a filter system and protective screens mounted in the cabin to protect the crew during delivery of construction materials to the most highly contaminated areas.[20]
Siberian Woolly Mammoth recovery
In October 1999, an Mi-26 was used to transport a 23-tonne (25-short-ton) block of frozen soil encasing a preserved, 23,000-year-old
woolly mammoth (
Jarkov Mammoth) from the Siberian tundra to a lab in
Khatanga,
Russia. Due to the weight of the load, the Mi-26 had to be returned to the factory afterward to check for airframe and rotor warping caused by the potential of structural over-stressing.[4]
Afghanistan Chinook recovery
In early 2002, a civilian Mi-26 was leased to recover two
U.S. ArmyMH-47E Chinook helicopters from a mountain in Afghanistan. The Chinooks, operated by the
160th Special Operations Aviation Regiment, had been employed in
Operation Anaconda, an effort to drive
al Qaeda and
Taliban fighters out of the
Shahi-Kot Valley and surrounding mountains. They found themselves stranded on the slopes above Sirkhankel at altitudes of 2,600 metres (8,500 ft) and 3,100 metres (10,200 ft).[4]
While the second craft was too badly damaged to recover, the first was determined to be repairable and estimated to weigh 12 tonnes (26,000 lb) with fuel, rotors, and non-essential equipment removed. That weight exceeded the maximum payload of 9.1 tonnes (20,000 lb) at an altitude of 2,600 metres (8,500 ft) of the U.S. military's
Sikorsky CH-53E.[4]
The Mi-26 was located through Skylink Aviation in
Toronto, which had connections with a Russian company called Sportsflite that operated three civilian Mi-26 versions called "Heavycopters". One of the aircraft, aiding in construction and firefighting work in neighboring Tajikistan, was leased for $300,000; it lifted the Chinook, flew it to
Kabul, then later to
Bagram Air Base, Afghanistan to ship to
Fort Campbell,
Kentucky, U.S. for repairs. Six months later, a second U.S. Army CH-47 that had made a hard landing 160 kilometres (100 mi) north of Bagram at an altitude of 1,200 metres (3,900 ft) was recovered by another Sportsflite-operated Mi-26 Heavycopter.[4]
On 19 August 2002,
Chechen separatists hit an overloaded Mi-26 with a
surface-to-air missile, causing it to crash-land in a
minefield, killing 127 of the people on board – the greatest loss of life in the history of helicopter aviation.[21]
China, Wenchuan "quake lake" emergency
As a result of the magnitude 8.0
earthquake in Sichuan province of China on 12 May 2008, many rivers became blocked by landslides, resulting in the formation of so-called quake lakes: large amounts of water pooling up behind the
landslide-formed dams. These dams eventually broke under the weight of the water,[22] endangering those downstream. At least one Mi-26 belonging to a
branch of China's civil aviation service was used to bring heavy earth moving tractors to the quake-lakes at
Tangjiashan mountain, located in difficult terrain and accessible only by foot or air.[23]
Afghanistan helicopter downing
In July 2009, a Moldovan Mi-26 was shot down in
Helmand province with the loss of six Ukrainian crew members. The aircraft, belonging to
Pecotox Air, was said to be on a humanitarian mission under NATO contract.[24]
Indian Air Force Mi-26 crash
On 14 December 2010, an
Indian Air Force Mi-26 crashed seconds after taking off from
Jammu Airport, injuring all nine passengers. The aircraft fell from an altitude of about 15 metres (50 ft).[25] The Indian Institute of Flight Safety released an investigation report that stated improper fastening of the truck inside caused an imbalance of the helicopter and led to the crash. The Mi-26 had been carrying machines from
Konkan Railway to
Jammu–Baramulla line project.[26][27]
Norwegian Air Force Sea King recovery
On 11 December 2012, a
Westland Sea King from
No. 330 Squadron RNoAF experienced undisclosed technical issues and made an emergency landing on Mount Divgagáisá. The landing caused parts of the landing gear to break. The Sea King was prepared by removing rotor blades and fuel before it was airlifted to
Banak Air Station by a Russian Mil Mi-26 on 23December 2012.[28]
Disaster response version developed in response to nuclear accident at Chernobyl.[31]
Mi-26T
Basic civil cargo/freight transport version. Production from 1985.[31]
Mi-26TS
Civil cargo transport version, also marketed as Mi-26TC.[31]
Mi-26TM
Flying crane version with under-nose gondola for pilot/crane operator.[31]
Mi-26TP
Firefighting version with internal 15,000 litres (4,000 US gal; 3,300 imp gal) fire retardant tank.[31]
Mi-26MS
Medical evacuation version of Mi-26T. Up to 60 stretcher cases in field ambulance role, or can be equipped for intensive care or as field hospital.[31]
Improved version of the Mi-26T equipped with BREO-26 airborne electronic system, allowing it to fly any time, day or night, under good and bad weather conditions. Serial production began on 22 May 2015.[33]
Mi-26T2V
Newest modernization variant intended for the Russian military, equipped with new NPK90-2V avionics suite allowing it to fly routes in automatic mode, airborne defense complex "Vitebsk", anti-blast seats and new navigation and satellite communication systems. The cockpit is fitted with multifunctional displays with provision for use of night-vision goggles during night ops. The Mi-26T2V made its maiden flight in August 2018.[34][35] Deliveries are reportedly conducted as of 2023.[36]
Mi-27
Proposed airborne command post variant; two prototypes were built in 1988. This variant was built with foldable antennas for ground and air operations.[37]
^July 24, Russian Defense Policy; Reply, 2017 at 7:36 pm (24 July 2017).
"This Week's MOD Graphic". russiandefpolicy.blog.
Archived from the original on 8 March 2019. Retrieved 9 February 2019. {{
cite web}}: |first1= has generic name (
help)CS1 maint: numeric names: authors list (
link)