Skip to content

Tag Archives: Planes

B-17 E-Z Goin’ and the Sonderkommando Elbe – Buchen Raid

Thursday, December 23, 2010

Laurence J. Lazzari Crew
Kneeling L to R: Sgt. Laurence W. Donnelly (BTG), T/Sgt. Robert J. Steele (ROG), 2nd Lt. Charles W. Staiger (NAV)Sgt. Joseph G. Allen.  Standing L to R: Sgt. Richard H. Heritage (NG/TOG), T/Sgt. Charles A. Weiss (TTE), 2nd Lt. Laurence J. Lazzari (P), 2nd Lt. Guiher G. Greenwood (CP), 2nd Lt. Daniel J. O’Connell, Jr. (TG).
100th BG Photo Archives

This website recently received a comment from USAF Colonel Guiher G. Greenwood (retired) who served with the 351st Bomb Squadron, 100th Bomb Group, regarding a picture posted in our gallery. He identified the plane pictured as that of the B-17 E-Z Goin’ piloted by Joe Martin with co-pilot Henry Cervante on the Buchen raid of April 7, 1945. Interestingly, Col Greenwood and Joe Martin lived through one of the more infamous “suicide” attacks by the Germans in their last desperate days of the war.

The Sonderkommando Elbe was a special squadron of the German Luftwaffe, a Luftwaffe task force assigned to bring down Allied bombers by ramming German aircraft into the Allied bombers. Sonderkommando means special command, and Elbe is a river that runs through Germany to the North Sea. The Sonderkommando Elbe was formed at Reichmarschall Hermann Goering’s insistence that the Reich’s defense units should start ramming bombers as a last resort. This group of fighters was not solely tasked with ramming bombers, but that was their last ditch option. In theory this was not a suicide mission, they were only supposed to ram an Allied bomber if there was a chance to bail out alive. Unlike the Japanese kamikaze pilots, the inexperienced German pilots brought a parachute with them while flying their striped-down Messerschmitt Bf 109′s, if the pilot survived the collision, he could use the parachute.

The only documented mission, often called Rammkommando Elbe (ramming) or Werewolf, was on April 7, 1945 when a total of 120 pilots took off in their fighters and attacked several formations of U.S. bombers heading towards the Germany heartland. These young German pilots were motivated to destroy Allied bombers by any means necessary, they had seen their country decimated by the relentless Allied bombing campaign. Although the Luftwaffe had an amply supply of airplanes, even in April 1945, they lacked trained pilots and aviation fuel. Many of the Sonderkommando pilots had only 50 hours of training, and their lack of experience was as likely to get them killed as the P-51 Mustangs that protected the Bomber Armada.

This last ditch effort of the mighty Luftwaffe resulted in only 15 Allied bombers attacked with eight successfully destroyed. Several planes barely limped back to base, these included the E-Z Goin’ flown by Joe Martin’s crew. Their left stabilizer was ripped off, and the rudder substantially damaged. In addition to having little control of the plane, they also lost engine #1. Somehow the crew was able to return to England, and landed successfully.

Related Articles:

Rammkommando – German Kamikaze, WWII
TARGET: BUCHEN GERMANY, 7 APRIL 1945- G. GENE GREENWOOD
Rammkommando “ELBE”
The Boeing B-17 Flying Fortress

Filed in B-17 Flying Fortress, Boeing | Also tagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | Comments (1)

P-38′s in Chino at Planes of Fame – Honey Bunny, Glacier Girl, and three others…

Tuesday, September 14, 2010

P-38 Honey Bunny in Chino at Planes of Fame

Last week  5 of the 7 still flying P-38s flew from Chino to the Sacramento Capital airshow at Mather for the weekend show.   John Maloney flew chase in a P-51!

The fighters joined up over Lake Mathews for a photo shoot and then climbed up and headed north to Mather.  Along the way Hinton decided they would buzz Shafter where his son was preparing “Stega” for the Reno Races.  The WWII  fighters went screaming by the hangar all in a row at about 300 MPH!   The Air Museums P-38  23 Skidoo cracked a head so they followed her to descent at FAT and then pressed on.   At one point in the flight Maloney came from behind in the Mustang and dove down the right of the formation and pulled up into a giant exaggerated barrel roll around the rather loose goose formation so the camera man could snap a photo thru the canopy of the Mustang as he was inverted over the P-38 flight.  Sounds like fun!

Other P-38′s that made it to Mather included Ruff Stuff, Thoughts of Midnight, and Tangerine.

Filed in Lockheed, Museum, P-38 Lightning, Planes, Planes of Fame | Also tagged , , , , , , , , , , , , , , , , , , , | Comments (2)

Bell P-39N Airacobra – Little Sir Echo – Small Fry

Tuesday, September 7, 2010

Bell P-39 Airacobra - Little Sir Echo

This is P-39N-5 “Little Sir Echo / Small Fry” Serial Number 42-19027 which served with the USAAF 5th Air Force (AF), 71st Tactical Reconnaissance Group (TRG), 82nd Tactical Reconnaissance Squadron (TRS), from June 1943 to July 16, 1944. It was abandoned at Tadji, Papua New Guinea, a Japanese airfield that was liberated by the US Army on April 26, 1944. Tadji became a major Allied air depot for American and Australian forces, and the resting place for this P-39 for the next thirty years. It is now on static display at the Planes of Fame Museum in Chino, CA.

This specific P-39 was delivered to the US Army on April 28, 1943, and sent to the Pacific in May. Lyndall W. Tate was assigned to this aircraft. Lyndall was born Oct 20, 1920 in Texas, and passed away Sept 15, 2008. He served over 28 years in the military. If anyone else has any further information on Lyndall, please let us know more about this hero. The aircraft was recovered from Tadji in a 1974 salvage operation funded by David Talichet’s Yesterday’s Air Force (MARC). It currently is on static display at the Planes of Fame museum. It still supports its original markings of Olive Drab over Neutral Grey with White New Guinea theatre markings on tail unit, wing leading edges and spinner (thin White band on nose). In addition it features an interesting shark mouth on the center drop-tank.

The Bell P-39 was one of the US’s main-line fighters when war first broke out in the Pacific at the beginning of World War II. It was unique at the time for having a tricycle undercarriage and a mid-mounted engine located behind the pilot. This arrangement was due to the proposed installation of a powerful 30 mm cannon in the nose. Ultimately, the P-39 was unable to achieve the same performance of later US and European fighters, mainly due to a lack of a turbo-supercharged engine which greatly limited the P-39′s ceiling and speed. However, its low-altitude performance, mid-mounted engine, and armor plating allowed it to become a great ground-support aircraft, most notably used by the Soviet Air Force. In the end, the Bell P-39 became Bell’s most successful fixed-wing aircraft that they ever produced.

Filed in Bell, P-39 Airacobra, Planes | Also tagged , , , , , , , , , , , , , , , , , , , , , | Comments (1)

Bell X-2 StarBuster Replica

Friday, September 3, 2010

Replica Bell X-2 at Planes of Fame

In the back lot of the Planes of Fame Museum located in Chino, CA is a full-size replica of the Bell X-2 StarBuster research aircraft (s/n 46-674). The replica was built and used as a prop in the 1989 pilot episode of the NBC TV series “Quantum Leap”. It was also used in several other movies, including “Space Cowboys”.

Constructed out of fiberglass and foam in less than 10 days, it now sits, wingless, on a wheeled dolly poking its nose between two trees. Even after sitting outside for many years, it is still in remarkably good condition.

The X-2 was a very significant test vehicle, and was instrumental in advancing high-speed aerodynamic research. On 27 September 1956, Capt. Milburn G. “Mel” Apt, flying the real X-2, became the first man to fly faster than three times the speed of sound (Mach 3.196). Unfortunately, he lost control of the aircraft when returning to Edwards and died in the escape capsule. The wreckage was recovered, and although many of the engineers wished to rebuild it, it was ultimately buried in an unmarked grave somewhere on Edwards Air Force Base.

For more information on the real Bell X-2, visit A SHADOW OVER THE HORIZON, THE BELL X-2 by Robert W. Kempel with Richard E. Day

Bell X-2 with no wings

Filed in Bell, Planes, X-2 | Also tagged , , , , , , , , , , , , , , , , , | Comments (0)

Tondelayo – The Collings Foundation B-25 Mitchell

Thursday, April 9, 2009

Tondelayo - Collings Foundation B-25

 

The famed “Tondelayo” of the 345th Bombardment Group known as the “Air Apaches” as it served in the 500th BS. The Tondelayo was one of three B-25Ds that sunk a 6,000-ton freighter in the South Pacific during World War II. Its story was unique in the fact that During the battle, the Tondelayo’s engine was shot out and for over an hour it combated 50 Japanese fighter planes as it headed down the New Britain coast. The other two accompanying B-25s were shot down during the battle. The plane’s turret gunner was given credit for shooting down five Japanese fighters and the crew earned the Distinguished Unit Citation and Silver Stars. Despite tremendous damage “Tondelayo” was returned to service after it was repaired… like a phoenix rising from the ashes.

Tondelayo was named after the sexy actress Hedy Lamar’s character “Tondelayo” in the 1942 film White Cargo.

Filed in B-25 Mitchell, Museum, North American Aviation, Wings of Freedom | Also tagged , , , , , , , , , , , , | Comments (3)

Lockheed Martin F-16 Fighting Falcon

Saturday, April 4, 2009

The U.S. Air Force officially named the F-16 “Fighting Falcon” on July 21st, 1980, during a ceremony at Hill AFB in Utah.

The F-16 Fighting Falcon is a compact, multi-role fighter aircraft. In the air combat role, the F-16′s maneuverability and combat radius exceed that of all potential enemy fighter aircraft. It can locate targets in all weather conditions and detect low flying aircraft in radar ground clutter. In the air-to-surface role, the F-16 can fly over 500 miles, deliver its weapons accurately, defend itself, and return to base. An all-weather capability allows it to accurately deliver ordnance during bad weather or at night. With a full load of internal fuel the F-16 can withstand up to 9G’s, it’s likely the pilot will fail before the airframe does.. The bubble cockpit canopy gives the pilot unobstructed vision forward and upward and much improved vision over the side and rear.

The F-16 first flew in December 1976. The first operational F-16A was delivered to the 388th TFW at Hill AFB, Utah in January 1979. The two-seat version, the F-16B, has two cockpits each about the same size as the single ‘A’ version cockpit. To make room for the second cockpit the forward fuselage fuel tank and avionics growth space is reduced.

The Falcon was one of the first to use the now standard fly-by-wire control system whereby no direct mechanical link is provided, instead the pilot’s controls communicate with the F-16 ‘s electronics which in turn move the aircraft’s flying surfaces. This system requires a side-mounted control stick instead of the conventional between the knees joystick that came as standard with combat planes since the beginning, needed for better control during the high-G maneuvers the plane can fly.

To simplify and cut the cost of development and production of the Falcon, some existing and proven systems from other USAF aircraft were adapted for it’s use. Parts used in the earlier F15 Eagle and the old swing wing F111 fighter bomber found a home in the aircraft. Unusually the F16 Falcon has a single engine instead of two. While cutting the cost of the aircraft and also maintenance time it does always increase the chance of a ‘dead stick landing’, however the F16 has proven reliable in the field.

The Lockheed Martin F-16 Fighting Falcon, the first of the US Air Force multi-role fighter aircraft, is the world’s most prolific fighter with more than 2,000 in service with the USAF and 2,000 operational with 23 other countries.

Lockheed Martin F-16 Fighting Falcon

Specifications
Primary Function Multi-role fighter
Builder Lockheed Martin Corp.
Power Plant F-16C/D:
one Pratt and Whitney F100-PW-200/220/229 or
one General Electric F110-GE-100/129
Thrust F-16C/D, 27,000 pounds(12,150 kilograms)
Length 49 feet, 5 inches (14.8 meters)
Height 16 feet (4.8 meters)
Wingspan 32 feet, 8 inches (9.8 meters)
Speed 1,500 mph (Mach 2 at altitude)
Ceiling Above 50,000 feet (15 kilometers)
Maximum Takeoff Weight 37,500 pounds (16,875 kilograms)
Combat Radius [F-16C] 740 nm (1,370 km) w/
2 2,000-lb bombs + 2 AIM-9 + 1,040 US gal external tanks
340 nm (630 km) w/
4 2,000-lb bombs + 2 AIM-9 + 340 US gal external tanks
200 nm (370 km) + 2 hr 10 min patrol
w/ 2 AIM-7 + 2 AIM-9 + 1,040 US gal external tanks

Range Over 2,100 nm (2,425 mi; 3,900 km)
Armament One M-61A1 20mm multibarrel cannon with 500 rounds; external stations can carry up to six air-to-air missiles, conventional air-to-air and air-to-surface munitions and electronic countermeasure pods.

Filed in F-16 Fighting Falcon, Lockheed Martin, Planes | Also tagged , , , , , , , , , , , , , , , , , , , , , , , | Comments (4)

Planes of Fame Visit

Saturday, November 8, 2008

Planes of Fame

I recently visited the Planes of Fame Air Museum in Chino California. What a wonderful place to visit and stroll through dozens of old classic birds.  Where else can you find a perfectly restored Corsair and Mustang along side a B-29 fuselage waiting for some loving care?

The Air Museum was founded by Edward Maloney, who recognized the importance of preserving WWII aircraft at a time when most of these planes were being cut up into scrap metal. The Air Museum was the first permanent air museum west of the Rocky Mountains. It officially opened its doors to the public in January 1957, with an initial collection of six aircraft and a great deal of hope for the future.  Of the museum’s approximate 150 aircraft, 30 are flyable. On a typical Saturday, you may see two P-51 Mustangs fly by escorting a B-25 Mitchell bomber, or a Grumman F6F Hellcat with a Chance-Vought Corsair making a formation overhead approach to the airport.

B-29 Fuselage P-51 in hanger P-39 in Hanger

Filed in Museum, Planes, Planes of Fame | Also tagged , , , , , , , , , , , , , , | Comments (0)

Boeing B-17 Flying Fortress

Tuesday, September 23, 2008

Boeing B-17 Flying Fortress

The B-17 Flying Fortress is one of the most famous airplanes ever built. The B17 prototype first flew July 28, 1935. Few B-17s were in service on Dec. 7, 1941, but production quickly accelerated. The aircraft served in every World War II combat zone, but is best known for daylight strategic bombing of German industrial targets. Production ended in May 1945, and totaled 12,726.

In response for the Army’s request for a large, multiengine bomber, the B-17 (Model 299) prototype, financed entirely by Boeing, went from design board to flight test in less than 12 months. General features on the B-17 include its mid-wing monoplane design, aluminum-clad exterior, four radial engines, massive wing structure and heavy armament. It was the first Boeing airplane with the distinctive, and enormous, tail for improved control and stability during high-altitude bombing.

Although many U.S. airmen and craft contributed to the Allied victory in World War II, the B-17 has become especially symbolic of the self-reliance, daring and sacrifice of American airmen during the war. American confidence in the B-17 became the cornerstone for the Air Corps doctrine of strategic “daylight” bombing in German-occupied Europe.

The G series could hold a crew of 10, including pilot, co-pilot, bombardier, radio operator, navigator, dorsal turret gunner, two waist gunners, ball turret gunner and tail gunner. Typical for B-17Gs are the four 1,380-horsepower Wright GR1820-97 Cyclone air-cooled, nine-cylinder radial engines equipped with exhaust driven turbochargers.  General features include the raised cockpit section and Plexiglas nose cone. Characteristic of all B-17s, starting with the E series, is the massive dorsal fin, which gracefully sweeps to merge with the fuselage. All B-17s have retractable tail-wheel landing gear. The empty weight of the airplane is 32,720 pounds. Fully armed and loaded, B-17s weigh 65,600 pounds. Payloads of 4,000-5,000 pounds were typical but up to 17,600 pounds could be carried for less than maximum range. The maximum speed was 300 miles per hour at 30,000 feet.

While the B-17s were used in the Pacific, by 1944 the B-29 had replaced the B-17 for use in the Pacific Theater. While in the Pacific, the planes earned a deadly reputation with the Japanese, who dubbed them “four-engine fighters.” The Fortresses were also legendary for their ability to stay in the air after taking brutal poundings. They sometimes limped back to their bases with large chunks of the fuselage shot off. B-17s were initially intended as a fast, land-based bomber, which could patrol at sea and intercept naval vessels.

The B-17 went through several alterations in each of its design stages and variants. By the time the definitive B-17 G appeared, the number of guns had been increased from seven to 13, the designs of the gun stations were finalized, and other adjustments were complete. The B-17 G was the final version of the B-17, incorporating all changes made to its predecessor, the B-17 F, and in total 8,680 was built, the last one on 9 April 1945. Boeing plants built a total of 6,981 B-17s in various models, and another 5,745 were built under a nationwide collaborative effort by Douglas and Lockheed (Vega). Many B-17 Gs were converted for other missions such as cargo hauling, engine testing and reconnaissance. Initially designated SB-17G, a number of B-17Gs were also converted for search-and-rescue duties, later to be re-designated B-17H.

Late in World War II, at least 25 B-17s were fitted with radio controls, loaded with 20,000 pounds (9,000 kg) of high-explosives, dubbed “BQ-7 Aphrodite missiles”, and used against U-boat pens and bomb-resistant fortifications.

Specifications

Wing Span: 103 feet, 10 inches
Length: 74 feet, 4 inches
Height: 19 feet, 1 inches
Weight: 55,000 pounds loaded
Armament: Thirteen .50-caliber machine guns with normal bomb load of 6,000 pounds
Engines: Four Wright “Cyclone” R-1820s of 1,200 horsepower each
Cost: $276,000
Maximum speed: 300 mph.
Cruising speed: 170 mph.
Range: 1,850 miles
Service Ceiling: 35,000 feet
Memphis Bell

Filed in B-17 Flying Fortress, Boeing, Planes | Also tagged , , , , , , , , , , , , , , , , , , , , , | Comments (14)

Grumman F-14 Tomcat

Tuesday, August 19, 2008

 Grumman F-14 Tomcat

The Grumman F-14 Tomcat is a supersonic, twin-engine, variable sweep wing, two-place strike fighter. The Tomcat’s primary missions are air superiority, fleet air defense and precision strike against ground targets. Recently phased out of active service, the F-14 has had a long and distinguished career. The person responsible for the F-14 project was Admiral Tom Conolly, Deputy Chief, Naval Operations for Air. The aircraft was dubbed “Tom’s Cat” long before it was officially named “Tomcat”. Naming their aircraft after ‘cats’ is a long held Grumman tradition.

The F-14 Tomcat had visual and all-weather attack capability to deliver Phoenix and Sparrow missiles as well as the M-61 gun and Sidewinder missiles for close in air-to-air combat. The F-14 also had the LANTIRN targeting system that allows delivery of various laser-guided bombs for precision strikes in air-to-ground combat missions. This enabled the Tomcat to acquire mensurated target coordinates that are accurate enough for GPS weapons, which was unique to the Tomcat. The F-14, equipped with Tactical Air Reconnaissance Pod System (TARPS) was the Navy’s only manned tactical reconnaissance platform.

The F-14 was designed in 1968 to take the place of the controversial F-111B, which was under development for the Navy’s carrier fighter inventory. The F-14A used the P&W TF30 engines and AWG-9 system and carried the six Phoenix missiles that had been intended for the F-111B. A completely new fighter system was designed around these with emphasis on close-in fighting “claws” along with standoff missile fighting. Grumman was announced as competition winner for the new carrier-based fighter for the U.S. Navy. Emphasis had been placed on producing a comparatively small, light weight, high performance aircraft with a significant advance over the then current F-4 Phantom II. The F-14 had three primary missions; the first was as a fighter / escort to clear contested air space of enemy fighters and protecting the strike force. The second mission was to defend the carrier task force with Combat Air Patrols (CAP) and interception operations. The third role was secondary attack on tactical ground targets.

From its first flight on 21 December 1970, the F-14A went through five years of development, evaluation, squadron training and initial carrier deployments to become the carrier air wings’ most potent fighter. Technical and financial problems that received a great deal of publicity were overcome in achieving this goal. Originally it was planned that the F-14B with the advanced P&W F401 would be the major production version. However, performance of the TF30-P-412 exceeded expectations while development of the F401 was delayed. One F-14B was flight tested, showing that an F401-powered Tomcat would be a potential future option.

The first operational ‘Tomcat’ squadrons with the U.S. Navy were VF-1 and VF-2. VF-2 flew the first operational sorties from the U.S.S. Enterprise in March 1974. The first ‘combat’ cruise of the Tomcat was in April 1975 when the Enterprise covered the withdrawal from Saigon, South Vietnam although no combat took place between American and North Vietnamese forces. In the 1980s, in what was known as the ‘Gulf of Sidra Incident’, a pair of VF-41 ‘Black Aces’ Tomcats from USS Nimitz shot down two Libyan Su-22 Fitters on 19 August 1981. A similar incident took place again on 4 January 1989 when a pair of VF-32 ‘Swordsmen’ Tomcats from USS John F. Kennedy shot down two Libyan MiG-23 Floggers.

Also, during the 1980s, Iranian F-14s (the only export customer for the F-14) were engaged in combat against the Iraqi Air Force during the Iran-Iraq War. Apart from functioning in its intended role, Iranian Tomcats were also used as mini-AWACS, using their superior radar system to direct other Iranian fighter planes (such as the F-4 and the F-5) against Iraqi aircraft. The final kill by the US Navy Tomcat is an Iraqi Mi-8 helicopter, shot down by an F-14 from VF-1 using a Sidewinder AAM on 7 February 1991 during Operation Desert Storm. These five kills are the only ones scored by the US Navy. The IRIAF Tomcats is much more successful, shooting down fairly large numbers of Iraqi warplanes using all the weapons systems available.

The Tomcat caps a long line of Grumman Cats. In the hands of Navy pilot/NFO teams, it provided the carrier task force with its first-line offense and defense against any enemy air threat in the tradition of its predecessors.  The F-14 became famous to the general public, as the star of the movie Top Gun, which also featured Tom Cruise.

The F-14 Tomcat performed superbly in Operation Allied Force and the strikes in Operation Southern Watch. While the Navy provided only eight percent of the total dedicated aircraft in Operation Allied Force, the Navy was credited with 30 percent of the validated kills against fielded forces in Kosovo as a result of the superb performance of the Tomcat in the Forward Air Controller (Airborne) (FAC(A)) role.

Specifications
Function: Carrier-based multi-role strike fighter
Contractor: Grumman Aerospace Corporation
Unit Cost: $38 million
Propulsion:
F-14A: Two Pratt & Whitney TF-30P-414A turbofan engine with afterburners
F-14B and F-14D: Two General Electric F110-GE-400 turbofan engines with afterburners
Thrust:
TF-30P-414A: 20,900 pounds (9,405 kg) static thrust per engine
F110-GE-400: 27,000 pounds (12,150 kg) static thrust per engine
Length: 61 feet 9 inches (18.6 meters)
Height: 16 feet (4.8 meters)
Maximum Takeoff Weight: 72,900 pounds (32,805 kg)
Wingspan: 64 feet (19 meters) unswept, 38 feet (11.4 meters) swept
Ceiling: Above 56,000 feet
Range: 1239 km 1994 km
Speed: Mach 2+
Crew: Two: pilot and radar intercept officer
Armament: Up to 13,000 pounds to include AIM-54 Phoenix missile, AIM-7 Sparrow missile, AIM-9 Sidewinder missile, air-to-ground precision strike ordnance, and one M61A1/A2 Vulcan 20mm cannon.
Date Deployed: First flight: December 1970

Click the picture for even more great Tomcat pictures!
Grumman F-14 Tomcat

Filed in F-14 Tomcat, Grumman, Planes | Also tagged , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | Comments (4)

Northrop F-20 Tigershark

Monday, July 14, 2008

The Northrop F-20 Tigershark (initially F-5G) was a privately financed fighter aircraft, designed and built by Northrop. In 1975, Northrop began development on the F-20 Tigershark, a fighter plane designed to be reliable, easy to fly and inexpensive to maintain. Northrop didn’t accept any funds from the government to develop the plane, so the company didn’t have to consult the Air Force or any other government agency to make design decisions. As a result, the development process went fairly quickly. Northrop built three planes to take around the world to fly in demonstrations for potential customers.

The first flight of the Tigershark was made August 30, 1982. The Mach 2 class F-20 Tigershark’s basic single-seat configuration was formally designated the F-20A. The F-20 combined propulsion, electronics and armament technologies with improvements in reliability to sustain high sortie rates in adverse weather.

The F-20 incorporated a combination of advanced technology features. The F-20 could carry more than 8,300 pounds of external armaments and fuel on five pylons. It could carry six Sidewinder missiles on air-to-air missions. For air-to-ground missions, more than 6,800 pounds of armament could be carried. Two internally mounted 20mm guns were standard equipment on the Tigershark.

The avionics system features a General Electric multimode radar, Honeywell laser inertial navigation system, General Electric head-up display, Bendix digital display and control set and Teledyne Systems mission computer.

The F-20 is powered by a General Electric F404 engine, with 17,000 pounds of thrust. The F404 is recognized as one of the world’s most reliable advanced technology engines. It is also used to power the U.S. Navy/Marine Corps F/A-18A Hornet strike fighter.

Once airborne, the F-20 pilot utilized his multi-mode radar, which could detect and track targets at ranges of up to 48 nautical miles “look up” and 31 nautical miles “look down.” The F-20 mission computer coordinated the aircraft’s weapons systems. The head-up display placed critical weapons, target and flight data at the pilot’s eye level. This allowed him to fight without having to look down. Northrop designed a new panoramic canopy for the F-20 that gave the pilot a 50 percent increase in rearward visibility over previous Northrop fighters. An improved seat and headrest design combined to substantially expand over-the-shoulder visibility, which is critical in air-to-air combat.

Aerodynamic features of the F-20 included an enlarged leading edge extension to the wing, which generated up to 30 percent of the lift maneuvers. The “shark-shaped” nose allowed the F-20 to maneuver at much higher angles of attack than current operational fighters. The F-20 airframe could withstand nine G’s.

According to many pilots, the Tigershark was an excellent plane. It could be ready for combat just one minute after takeoff, and it could climb 53,800 feet per minute. Northrop planned to sell the plane to foreign countries for use in their military. However, as a result of many political changes as well as competition from other aircraft such as the F-16, the market for the plane never developed.

The F-20 was reliable and easy to maintain. Based on comparisons with the average of contemporary international fighters, the F-20 consumed 53 percent less fuel, required 52 percent less maintenance manpower, had 63 percent lower operating and maintenance costs and had four times the reliability.  

 

 

Northrup F-20 Tigershark

Specifications
Maximum Speed Mach 2 class
Sea level rate-of-climb 52,800 feet/minute
Combat ceiling 54,700 feet
Takeoff distance 1,600 feet
Takeoff Distance 4,200 feet
Scramble order to brake release 52 seconds
Scramble order to 29,000 feet 2.5 minutes
Time to 40,000 feet from brake release 2.3 minutes
Acceleration Time 0.3M to 0.9M, at 10,000 feet 28 seconds
Sustained Turn Rate 0.8M at 15,000 feet 11.1 degrees/second
Maximum Load Factor 9g
Length 46 ft 6 in
Height 13 ft 10 in
Wing Span 26 ft 8 in
Internal Fuel 5,050 lbs
External Fuel 6,435 lbs
Takeoff Weight clean 18,005 lbs
Combat Thrust/Weight ratio 1.1
Combat Weight 50% fuel, 2 AIM-9 missiles 15,820 lbs
Maximum Weight 27,500 lbs
Armament Two AIM-9 missiles

Five pylons, more than 8,300 lbs external armaments

Filed in F-20 Tigershark, Northrop, Planes | Also tagged , , , , , , , , , , , , , , , , | Comments (2)