Nighthawk Stealth Fighter
Wednesday, December 4, 2013
Monday, December 2, 2013
Conclusions
The Nighthawk was an incredible aircraft that was truly ahead of its time in many respects with regards to stealth, aerodynamics, revolutionary materials, and incredible success with combat missions in the midst of a major middle east conflict. The element of surprise was successfully brought back to the battlefield almost 40 years after the invention of radar thanks to the technology the F-117 pioneered. From the early beginnings of development, the birth of revolutionary stealth technology, it's successes in active service, and as a starting point for future stealth aircraft such as the F-22 Raptor, F-35 Joint Strike Fighter, and B-2 Spirit, the F-117 Nighthawk still holds the records for the aircraft with the highest bombing success rates of any other aircraft.
Retirement
The Nighthawk proved too costly for the US Air Force to
maintain and carry out sorties with rising fuel costs and budget cuts. In early
2007, the US Air Force decided to retire the aircraft. Don Logan of Lockheed F-117 Nighthawks: A Stealth Fighter Roll Call tells us that instead of
scrapping the airframes or donating the aircraft to aviation museums, the
entire Nighthawk fleet was returned to
the climate controlled hanger where they were developed at the Tonopah Test
Range. At Tonopah, the F-117's wings were removed for ease of storage. The first four prototype
YF-117A aircraft were sent to museums to be on display.
In Action
The F-117, "being a coalitions workhorse, logged nearly 1,300 combat sorties while flying 6,905 combat flying hours". During their missions, F-117A pilots delivered over 2,000 tons of precision-guided ordnance with a hit rate of better than 80 percent. The success is attributed to the element of surprise made relevant again by the use of stealth. During the Gulf War, Iraq was left virtually defenseless against American attacks. Cruise missiles by day and Nighthawk bombing runs by night made continuous blows on the Iraqi air defense systems, cities, and oil refineries. No other aircraft in the US arsenal was this effective in it's rate of success at the time.
Innovations
Perhaps the most interesting
piece of technology on the Nighthawk that paved the way for its use in future military
and commercial aircraft were the composite dual vertical tail fins. Made of a
thermoplastic graphite material, Maloney says this was the first use of a composite
for a primary aircraft structure. As mentioned, this enabled the Nighthawk to
have a lighter tail section which assisted in moving the aircraft's center of
gravity forward, always preferred due to better maneuverability. Composite
materials were found to further decrease the Nighthawk's radar signature over
traditional metals used in prior aircraft, likely due to the nature of heat conduction
with air friction being lower in comparison to metal. All of the aircraft's
antennae were retractable, and the mid air refueling inlet which allowed the
nighthawk to receive fuel without landing (thus increasing its range) had a door that slides over it to reduce exposure
to radio waves. The engine intake was covered with a composite grid panel that
provided sufficient airflow while maintaining stealth.
Materials and Technologies
The skin of the
aircraft was covered in Radar Absorbing Material, or RAM, which was a material
designed to absorb any excess radar waves that had been developed alongside the
Nighthawk for the F-117 specifically. This material that was composed of
ferrite and polymer was applied in tiles on the skin of the aircraft, on the
cockpit windows in the form of film, as well as the engine inlet covers. The exhaust stream was directed upward and spread along the exhaust duct
in an attempt to reduce the aircraft's infrared heat signature, which could
just as easily give the Nighthawk's position away to the enemy.
Design
The aircraft fuselage had a prismatic shape which reduced its radar cross
section by a large margin. No other plane before the Nighthawk ever employed
such a design and as such, aerodynamic disadvantages became apparent. The design
had to compromise some maneuverability and controllability in order to reduce
its radar detection. The result of the Nighthawk design provided a radar cross
section similar to the size of a bird.
The aircraft benefitted from two General Electric F-404 turbofan engines with no fuel afterburners. In contrast to the afterburning turbojet engines used on fighters during this time, the Nighthawk employed turbofan engines to reduce noise and heat signature, increase thrust at lower speeds, and eliminate the hot, loud, fuel consuming afterburner systems. Even though the Nighthawk was designated F-117, with the F signifying a fighter role, Maloney says it's design focused on surprise ground attack missions rather than mid air dogfights against other aircraft. The Nighthawk also employed a variety of smaller technologies in addition to the design of the aircraft to further reduce its radar cross section.
The aircraft benefitted from two General Electric F-404 turbofan engines with no fuel afterburners. In contrast to the afterburning turbojet engines used on fighters during this time, the Nighthawk employed turbofan engines to reduce noise and heat signature, increase thrust at lower speeds, and eliminate the hot, loud, fuel consuming afterburner systems. Even though the Nighthawk was designated F-117, with the F signifying a fighter role, Maloney says it's design focused on surprise ground attack missions rather than mid air dogfights against other aircraft. The Nighthawk also employed a variety of smaller technologies in addition to the design of the aircraft to further reduce its radar cross section.
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