Igor Sikorsky was born in Kiev, in the present-day Ukraine, 1889 the youngest of five
children of Ivan Alexeevich Sikorsky,
a Russian professor of psychology. By the time he died in faraway Easton, Connecticut on October 26, 1972
at the age of 86 he had turned a childhood
plaything into an aviation revolution and built a major company.
He
was the son of privilege in a provincial capital of the Russian Empire. His mother, the decedent of Polish nobles and a physician by training, homeschooled the lad. In addition to the basics she taught him art and music and shared her particular enthusiasm for Leonardo da Vinci and the exciting tales of Jules Vern. The latter two
captured the boy’s imagination and
by the age of twelve had constructed a model helicopter out of paper, glue, and rubber bands. It was the beginning of a lifelong obsession.
His
father, an ardent Russian nationalist
and monarchist, enrolled his
youngest son in the service of the Tsar at
then Russian Naval Academy when he
was just 14. Although he excelled at his
studies young Igor resigned from the
Academy in 1906 to study engineering in
Paris. The following year he
returned home to enter the Mechanical
College of the Kiev Polytechnic
Institute.
In
the summer of 1908, he accompanied his father on a trip to Germany. That was the year Orville Wright was creating a sensation
barnstorming Europe and Ferdinand Graf von Zeppelin was
demonstrating his advanced LZ-4
dirigible. Both ignited the young man’s
imagination. “Within twenty-four hours,
I decided to change my life’s work. I would study aviation,” he would later
say.
By
1909 Sikorsky was back in Paris studying at the Ecole des Techniques Aéronautiques et de Construction Automobile. The French were rapidly surpassing the Americans and France was becoming the center of the
aviation world. Sikorsky met and was
influenced by the top men in the field including Louis Blériot.
Back
in Kiev, he turned to his childhood interest and began working on a helicopter. His first problem was creating stability in the craft.
Although he made some breakthroughs on that issue, he disassembled his aircraft before
testing in when he realized it would not fly.
The technology needed for a workable model did not yet exist and
Sikorsky felt he personally also had to learn more.
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Sikorski as a pilot always demonstrated his aircraft designs personally. Seen here in 1914.
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So
he turned to fixed wing aircraft. He built two underpowered models, one of which briefly got off the ground,
before he was successful. In 1910 he had
a breakthrough with a two seat aircraft, the S-5, his first entirely original
design. Flying it he earned his pilot’s license 1911. He flew many demonstrations in his new plane
and was attracting notice for his innovation when he was involved in a crash.
A simple mosquito had clogged
the carbonator starving the
engine. The incident convinced him of
the need to develop multi-engine air
craft which could survive the loss of a single engine. He enthusiastically threw himself into the
development of such planes.
After
winning a Russian Army aircraft
exhibition in February of 1912 with his new three passenger S-6, Sikorsky joined the Russian Baltic Railroad Car Works in St. Petersburg as Chief
Engineer of its new aircraft
division. This gave him financial backing and industrial capacity to make huge leaps
in development. Within a year he came up
with his S-21 Russky Vityaz. A first prototype was mounted with two
engines. Wings were extended and four
engines in a push-pull arrangement were
tried. Finally he mounted four tractor engines on the large bi-plane which Sikorsky himself test piloted on May 12, 1913. The accomplishment finally won him an
honorary degree from the St. Petersburg
Polytechnic Institute, the only degree he ever won.
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Sikorski on right in his S-21 Rusky Vitaz.
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Sikorsky
turned to adapting his design into a commercial
airliner, the S-22 Ilya Muromets. It featured an insulated closed cabin with a passenger
saloon, comfortable wicker chairs,
a bedroom, a lounge and even the first airborne
toilet. It was heated by the passage of exhaust pipes from the engines through the cabin and had electric lighting powered by an airspeed turned generator. The cockpit had sufficient space to allow
several persons to observe the pilot. Openings
on both sides of the fuselage permitted mechanics
to climb out onto the lower wings to service
the engines during flight. On
February 11, the second factory prototype
flew a successful demonstration carrying 16 passengers in addition to the
pilot, shattering old capacity records. Plans were made to introduce the plane to
regular commercial service later in the year.
Those
plans were thwarted by the outbreak of World
War I. Sikorsky quickly adapted his
air liner to the world’s first operational
heavy bomber, the Military Ilia
Mourometz, Type B. It was slightly smaller
and lighter than the civilian Type A
and fitted with internal racks
carried up to 800 kg of bombs, and positions for up to nine machine guns for self-defense in
various locations, including the extreme tail. The engines were protected with
5 mm-thick armor.
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Sikorski's heavy bomber in Russian service during World War I. Licensed to Britain and France and copied by the Germans, all heavy bombers used in the war were Sikorskis or based on his design. Modern behind the lines tactics and strategy were developed form its capacities.
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The
bomber went into service in the Imperial Air Force in late 1915 and by
1916 enough had been produced to assemble the world’s first heavy bomber squadrons. A total of 76 planes were produced during the
war. Their heavy armament made them practically invincible in the air. Only one was ever shot down by enemy fighters,
only after its gunners had knocked out three of the four attackers. Four others were badly damaged but could
continue to fly and return to base. The
Russians developed the first tactics
for heavy bombers, including large scale
and night time raids and attacks on industrial and transportation facilities behind the front lines.
At
the beginning of the war, no other power had anything like it. The Germans
eventually built their own bomber using parts of a crashed Ilia Mourometz
as a guide and licenses were granted
to France and England to produce their own planes. Thus virtually every heavy bomber in the Great War was based on Sikorsky’s
design.
After
the war four surviving bombers were retrofitted back to their original
commercial use and between May and October 1921 were put into regular operations between Moscow and Kharkov.
By
that time, Sikorsky had fled the country. The 1917 Bolshevik
Revolution and subsequent Civil War had
made his life untenable in the
county. He remained, like his father, a
monarchist and conservative as well
as an ardent Orthodox Church member. After fleeing the capital, he briefly served
as an engineer with French interventionist
forces in the Civil War, which
cemented his condemnation by the Communist government.
Sikorsky
divorced his
wife Olga Fyodorovna Simkovitch,
perhaps to protect her, and left her and their infant daughter, Tania, behind then fled to the United States.
On
arrival he found a nation that was a relative aviation backwater. Other
nations had made most of the great
technological leaps of the War years and the American forces flew mostly
English or French made aircraft or American versions built under license. The clamor to disarm cut the possibility of military contracts. Only barnstorming
pilots and airmail service using
obsolete bi-planes kept any interest
in aviation alive. Sikorsky struggled to
support himself as a teacher and
sometime lecturing on aviation.
Finally
with the support of exiled Russian
Army officers and a major $5,000 investment by composer Sergei Rachmaninoff
he was able to form the Sikorsky
Manufacturing Company in Roosevelt,
New York in 1923. The same year he brought three of his sisters and his daughter Tania over from Russia. In 1924 Sikorsky married 21 year old Elisabeth Semion. They would have four children, including Igor, Jr. who would follow his father’s
footsteps as an executive in his company.
His
new company turned back to the design and production of commercial air
liners. The S-29-A was an all-metal,
twin-engine biplane airliner, capable of carrying 16 passengers and a crew of
three first flown in 1924. The airline
industry was in its early infancy and the plane never sold for its intended
purpose. The prototype was sold and used
in promotions for Curlee Clothing
and somehow as a “flying cigar store.” Howard
Hughes used it as a stand-in for
a bomber in Hell’s Angels in 1929.
It crashed and was destroyed
during the filming.
After
becoming an American citizen in 1928
Sikorsky merged his company with United
Aircraft and Transport (now United
Technologies Corporation) becoming
the Vought-Sikorsky Aircraft Division. As was the case with his association with the
Russian rail car manufacturer, the association with a larger company gave him
more assets and the industrial capacity to produce planes in numbers. A plant
was established at Stratford, Connecticut.
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Sikorski
did not invent the Flying Boat, but
he and his company produced the first really successful trans-oceanic airliners.
After developing a successful prototype the S-40 in 1931, Pan American
Airlines (Pan Am) president Juan
Trippe, asked Sikorski to submit a design.
At a luncheon meeting with Pan Am consultant Charles Lindbergh on a test flight of the S-40 the two men sketched
out plans for a grand new aircraft on a napkin.
The
S-42, which went into production in
1934, became the mainstay of Pan
Am’s global Clipper service flying
on Latin American, Trans-Atlantic, and Trans-Pacific routes. Only 10 were built but Pan Am kept them
plenty busy. The planes could carry 37 day passengers or 14 sleeper berths. They had a range of 1,930 miles before
needing to be refueled, and flew at
180 miles per hour, a speed that gobbled
up miles on the long trips.
Sikorski
had returned to tinkering with vertical
lift ideas as early as 1929 when he filed a patent on a direct lift amphibious
aircraft which used compressed air
to power a direct lift propeller and
two smaller propellers for thrust. Another direct lift patent was granted the
next year. But neither of these were
true helicopters. They were somewhat
similar to Spanish designer Juan de la Cierva’s fixed wing auto-gyros with enhanced ability to
take off and land completely vertically and even to hover.
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Sikorksy
at the controls of the Vought-Sikorsky VS-300, the first truly
modern operational helicopter, in a tethered test flight in 1939.
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The
Vought-Sikorsky VS-300, was not the
first true helicopter—the Soviet Yuriev/Cheremukhin
was flown in 1932—but it was the first built in the United States and the
first with the combination of a single
horizontal rotor for lift and small
vertical rotor mounted on a tail for stability, both powered by a single engine. This is the configuration that almost all modern helicopters incorporate. Mounted with pontoons it became the first amphibious
helicopter and was the first to have cargo
capacity. The VS-300 was tested on a
tether on September 14, 1939 Sikorsky
few the first untethered test flight on May 13, 1940.
Despite
the breakthrough the demand for other type of aircraft production with the
outbreak of World War II,
interrupted further development and production.
In 1942 the company introduced the two-man R-4 which became the first helicopter in the world to go into mass
production. After testing prototypes
which set records for endurance time aloft and distance, the Army ordered 44 aircraft, designated YR-4A, for use as a reconnaissance,
scout, and passenger ferry. The British ordered a handful for use on carriers.
In
1944 a YR-4A performed the first helicopter
rescue in history when it extracted the pilot of a crashed aircraft and
three British passengers from rugged
mountain country in Burma, bringing
the men out in multiple flights. That
soon became a primary mission of the
new aircraft. They were also used to
ferry aircraft parts to and from ships and to remote locations.
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Sikorski at the controls of an R-6 Hoverfly II.
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The
R-6 Hoverfly II was an improved,
streamlined upgrade with increased speed and lift power that introduced by
American and British forces in 1945 and saw limited use. The British were the first to fit the landing
booms with external stretcher bearing capacity for medical evacuation. These machines continued in limited use
through the early 1950’s. Surplus YR-4A
and R-6 were sold on the civilian market
after the war igniting interest in commercial possibilities.
The
post war years meant a growing demand for a variety of helicopters. Among those produced were the H-19 Chickasaw, an eighteen passenger work horse that was ordered in large
numbers by the Army, Navy (HOS-4)
and Marines (HRS). They were extensively
used in the Korean War for cargo delivery, behind the lines troop
transport, and medical evacuation. The
Navy and Coast Guard adapted theirs to air-sea
rescue. Many were sold to foreign governments
as well and the French were the
first to use them in active combat
as for paratroop insertion and as gun platforms in Algeria and to a lesser degree in Indo China. It was French
tactics that caused a re-evaluation
of the use of helicopters by American forces.
The H-19 also had a long life in civilian service.
The
Navy’s SH-3 Sea King dual turbo-prop
anti-submarine helicopter was
introduced in 1961 and the Army’s heavy lifting CH-54 Tarhe or Flying Crane which
was capable of delivering a tank even
retrieving a downed aircraft, in 1962. CH-3 Jolly Green Giant introduced with fore and aft rotors and a rear ramp became a major cargo delivery
and troop carrier ship.
Sikorski
lost the competition for an Army utility helicopter to Bell’s UH-1 Iroquois (Huey), which became the work horse of the Vietnam War and the ship around which air mobile and air cavalry tactics were built.
But the company would come roaring back.
Sikorski
himself remained active as Chief
Engineer and had at least a hand in the development of everything that came
out of his New Jersey plant, although his son and a new generation of designers
took up more and more of the detailed work.
He
also had time for other interests, including art and music. His interest in religion never flagged and he
wrote two volumes of essays on the subject, The Message of the Lord’s Prayer
and The
Invisible Encounter, both published during World War II. He developed the Aeronautical Engineering program at Rhode Island University where he was a professor from 1932 to ’48 and subsequently lectured at the University of Bridgeport near his
home. And he was a long time member of the Board of the Tolstoy Foundation which helped Soviet displaced persons, dissidents and former Soviet citizens
to settle in the West.
As
noted, Sikorski died in 1972 and was buried in a Greek Orthodox cemetery near his home.
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The Black Hawk, its variants, and upgrades have been the backbone of U.S. military assault and air mobile tactics for more than 40 years. Seen here inserting an artillery piece and crew.
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But
his work and company went on. In 1974
the Army UH-60 Black Hawk, and Navy SH-60 Seahawk tactical armed transport
helicopters with dual use as troop insertion and were introduced and upgraded models are still in production. They are still a backbone of operations and
have been extensively used in conflicts including the First Gulf War, Iraq, and Afghanistan. Their vulnerability to shoulder-fired anti-aircraft weapons
and small arms—as the Russians
discovered flying similar aircraft in Afghanistan,
and as was demonstrated in the Black
Hawk Down incident in Somalia and has caused military planners to reassess the air-mobile tactics of
Vietnam.
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Sikorski is considered a national hero in Ukraine where this monument was recently dedicated in Kiev despite the fact that he was an ethnic Russian and an ardent Russian nationalist. Soviet era attempts to scrub the anti-Communist from history have raised his appeal in Ukraine.
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In
2015 giant defense contractor Lockheed Martin bought the Sikorski helicopter
operations of United Technology.
Despite
this, the Navy is now operating its entire armed transport, reconnaissance,
vertical insertion fleets with variants
of the Seahawk.
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