Vought F7U Cutlass: Innovative, or Gutless?

For some, the Vought F7U Cutlass was an innovative jet fighter set to propel the U.S. Navy into air dominance during the Cold War. For many others, the F7U “Gutless” lacked the power to make it a formidable weapon. In fact, some pilots observed that the aircraft’s poor safety record virtually guaranteed the plane was as much a danger to the U.S. Navy as it was to the enemy.

A Vought F7U-1 Cutlass in flight during testing at Naval Air Station Patuxent River, Maryland. Image: U.S. Navy

What made the Cutlass a unique design? And what went so wrong that the plane was removed from service after less than a decade of use?

Origins of the Navy’s Tailless Fighter

Development of the F7U Cutlass began in 1945. The world had entered the Jet Age, and the U.S. Navy needed a fighter to dominate the skies in the new era. Respected engineer Rex Beisel had plans for a new swept-wing fighter with an unconventional tailless design. With Vought as the manufacturer, the new fighter was sure to be exactly what the Navy needed.

A U.S. Navy Vought F7U-3 Cutlass bearing bureau number 128464 flies over New Jersey waters with VX-3 squadron markings visible on its fuselage. The Vought F7U Cutlass served with development squadrons. Air Development Squadron VX-3 tested advanced fighter aircraft. F7U-3 variants featured improved airframe strength. The F7U Cutlass history includes Atlantic City operations. Naval Air Station Atlantic City hosted development units. Westinghouse J46 turbojets powered F7U-3 models. Vought F7U aircraft could exceed sound barrier speeds. Development squadrons evaluated operational capabilities before fleet deployment. — U.S. Navy Vought F7U Cutlass from Air Development Squadron VX-3 out of Naval Air Station Atlantic City, New Jersey, in flight. Image: U.S. Navy

Beisel was an experienced engineer who had previously delivered the TS-1 biplane: the first fighter built to U.S. Navy specifications. After that, he produced a number of innovative designs including the F8C Helldiver and SB2U Vindicator. His most successful design was the famous F4U Corsair.

A Vought F7U-3M Cutlass bearing bureau number 129704 displays four Sparrow I air-to-air missiles mounted under its wings during test operations with VX-4 at Point Mugu Naval Air Station. The Vought F7U Cutlass pioneered missile-armed fighter operations. F7U-3M variants featured Sparrow missile capability. Test & Evaluation Squadron Four evaluated weapons systems. The F7U Cutlass history includes Point Mugu testing. VX-4 Evaluators conducted advanced weapons trials. Sparrow I missiles provided beyond-visual-range capability. Vought F7U aircraft carried four missiles maximum. Naval Air Station Point Mugu specialized in missile testing. — This F7U-3M carries Sparrow I missiles during evaluation trials with VX-4 at Naval Air Station Point Mugu. The Cutlass became the Navy’s first operational fighter armed with air-to-air missiles. Image: U.S. Navy

Somewhat surprisingly, Operation Paperclip came into play during the development of the F7U. Under this controversial program, German engineer Woldemar Voigt was relocated to the United States at the end of World War II. His experience in the development of the Me 262 jet fighter, Me 264 strategic bomber and the Me 163 Komet helped land him a position with Vought.

A Vought F7U-3 Cutlass bearing bureau number 129656 flies during NACA Ames Research Center evaluation of carrier approach procedures on 22 June 1955. The Vought F7U Cutlass underwent extensive scientific evaluation. F7U-3 carrier approach techniques required specialized study. NACA Ames Research Center analyzed flight characteristics. The F7U Cutlass history includes safety research efforts. June 1955 testing preceded fatal July incidents. Carrier recovery procedures demanded adequate engine thrust. Vought F7U aircraft demonstrated dangerous approach characteristics. USS Hancock crash occurred one month later. — Ames Research Center evaluated F7U-3 carrier approach techniques in June 1955, trying to understand why the Cutlass was so dangerous during recovery. A month later, an F7U would slam into USS *Hancock*‘s ramp in a fireball that killed four people. Image: NASA

It is likely that Voigt’s experience with the development of the Messerschmitt P.1110 and Messerschmitt P.1112 fighters landed him on the F7U project. Both the P.1110 and P.1112 were swept-wing jets using a tailless design — features shared with the Cutlass.

A rear view photograph shows a U.S. Navy Vought F7U-3 Cutlass parked on concrete with wheel chocks, displaying its distinctive tailless configuration with twin vertical stabilizers mounted at the wingtips. The Vought F7U Cutlass featured radical tailless design. F7U-3 aircraft eliminated traditional horizontal tail surfaces. Rex Beisel engineered unconventional fighter configuration. The F7U Cutlass history includes German design influence. Woldemar Voigt contributed swept-wing expertise. Twin vertical fins provided directional stability. Vought F7U aircraft borrowed Messerschmitt experimental concepts. Operation Paperclip brought German engineers to America. — The rear view really showcases what made the Cutlass so unusual — no horizontal tail at all, just those twin vertical stabilizers mounted on the swept wings. Image: U.S. Navy

The plane’s design eliminated a traditional horizonal tail. Instead, the aircraft used large, swept wings with a pair of vertical fins: one located on each of the wings. The plane used two Westinghouse J34 turbojets installed along the fuselage of the Cutlass.

The first Vought XF7U-1 Cutlass prototype sits parked on concrete tarmac with a North American F-82 Twin Mustang visible in the background to the left. The Vought F7U Cutlass began development in 1945. XF7U-1 prototypes featured experimental tailless configuration. F-82 Twin Mustang represented propeller-driven technology. The F7U Cutlass history started with prototype testing. Rex Beisel designed radical swept-wing fighter. Early test flights revealed serious deficiencies. Vought F7U aircraft development proved problematic immediately. Multiple test pilots died in prototypes. — The first XF7U-1 prototype sits on the tarmac with an F-82 Twin Mustang visible to the left and behind it, representing two radically different approaches to fighter design. Image: NARA

Without a doubt, the F7U Cutlass had a sleek, modern look perfectly suited for the times. It was the embodiment of America’s ambitions to rule the sky and reach for planets beyond. Unfortunately, the plane’s performance did not live up to its styling.

Cutlass Performance

The initial Cutlass, dubbed the F7U-1, was to be fast with excellent handling characteristics and a rapid ascent capability. However, early engines were underpowered for the design. New engines were delayed, and the project was almost canceled due, in part, to engine issues. Dubbed the “Gutless” by pilots, raw power wasn’t the plane’s only problem.

A Vought F7U-1 Cutlass bearing bureau number 124415 launches from USS Midway's catapult with steam visible as Lt. Cmdr. E.L. Feightner pilots the aircraft on 25 July 1951. The Vought F7U Cutlass underwent carrier qualification testing. F7U-1 production aircraft featured inadequate pilot visibility. USS Midway hosted initial carrier trials. The F7U Cutlass history includes near-catastrophic landing incidents. Lieutenant Commander Feightner piloted dangerous test flights. Landing Signal Officers controlled F7U-1 approaches completely. Vought F7U aircraft demonstrated poor forward visibility design. Only one F7U-1 carrier landing occurred ever. — The first production F7U-1 launches from USS *Midway* (CVB-41) on July 25, 1951. This would be the only carrier landing ever made by an F7U-1. The pilot’s visibility was so terrible during approach that he couldn’t see the deck and nearly struck the ramp on recovery. Image: U.S. Navy

Additional problems included issues with the high-pressure hydraulics system, landing gear and airframe strength. On numerous flights, the hydraulics blew out causing a loss of controls. On at least one occasion, the airframe broke in half during a carrier landing. Several test pilots died in the F7U-1.

Eventually, Westinghouse delivered the higher thrust J46 turbojets which could push the Cutlass past the sound barrier. With the new engines, some believed that the Cutlass could best the Navy’s FJ-2 Fury and F9F-6 Cougar in a head-to-head dogfight. Combined with an improved airframe and other tweaks, the F7U-3 was born.

A photograph shows the Vought F7U Cutlass with its characteristically tall nose landing gear extended, giving the aircraft a pronounced nose-up attitude while parked on the ground. The Vought F7U Cutlass featured unusually tall nose gear. F7U landing gear design accommodated tailless configuration. Nose strut failures occurred frequently during operations. The F7U Cutlass history includes catastrophic gear incidents. Extended nose gear provided proper launch angle. Carrier operations required specific geometric configurations. Vought F7U aircraft suffered from gear reliability issues. Nose gear drove into cockpit during one accident. — The F7U’s unusually tall nose gear gave the aircraft its distinctive stance on the ground. Nose gear failures were disturbingly common and sometimes catastrophic, including one incident where the strut broke loose and drove upward into the cockpit. Image: NASA

Nevertheless, more than a few pilots felt the plane was still underpowered, which created problems during maneuvers and landings. Westinghouse promised the J46 engines would deliver 10,000 pounds of thrust each. Instead, the delivered engines provided closer to an anemic 6,000 pounds. While more powerful than the J34, they provided substantially less power than needed.

Some pilots, however, liked the capabilities of the newer F7U-3. The improved airframe is said to have been very strong. In the air, the plane was nimble — if underpowered — with a significantly faster roll rate than most other jets. Potentially, this would make the Cutlass a capable plane in a dogfight given enough thrust.

None of the original F7U-1 fighters made it to service. Almost 300 F7U-3 and -3M fighters did enter service.

Engines Flame Out When Shooting Your Guns

The Cutlass was the first operational Navy fighter that was armed with the Sparrow air-to-air missiles. While other Navy planes would soon be equipped with the same missiles, it did further the F7U’s cutting-edge mystique.

The image shows the compact nose gun installation of an F7U-1 with cannons positioned directly under the pilot compartment. F7U Cutlass featured 20mm automatic cannon armament. The Cutlass represented first-generation tailless fighter design. AN/M3 cannons provided aerial combat capability. Vought F7U Cutlass incorporated German engineering influence. F7U-1 aircraft suffered from underpowered J34 engines. The F7U Cutlass history reveals numerous design iterations. Original prototypes killed multiple test pilots. Navy rejected F7U-1 models for service. — The original F7U-1 mounted its four 20mm cannons in the nose fuselage, directly below the pilot’s position. This configuration seemed logical given the forward cockpit placement, but the design would be changed on later variants. Image: NARA

Additional armament included four AN/M3 20mm cannons. On the F7U-1 model, the autocannons were mounted in the fuselage, below the pilot. As the cockpit is forward on the Cutlass, you could say the guns were in the plane’s nose.

With the redesign, the guns on the F7U-3 were moved to the top of the engine fairings above the intake. This created a new problem: when the guns fired, the engines would flame out. Test pilots, including future astronaut John Glenn, reported that the muzzle blast from the 20mm cannons interfered with the engine’s performance and caused flameouts.

A close-up photograph shows the 20mm cannon installation positioned above the engine air intake on an F7U-3 Cutlass variant. The Vought F7U Cutlass mounted four AN/M3 cannons. F7U-3 models relocated guns from fuselage positions. Cannon muzzle blast caused Westinghouse engine flameouts. The F7U Cutlass history includes numerous armament problems. John Glenn tested Cutlass fighters as pilot. Gun smoke entered jet engine intakes directly. George Chinn developed compensator vents for cannons. Vought F7U aircraft required constant engineering modifications. — When the 20mm cannons fired on the F7U-3, the engines could flame out. This was addressed with venting systems possibly inspired by Thompson SMG compensators. Image: Tac6 Media

It appeared that smoke from the 20mm guns was sucked into the jet engine and caused the flameout. Marine Col. George M. Chinn, the designer of the Mk 19 grenade launcher and an expert on automatic weapons, developed a solution: vents. Potentially inspired by the Cutts compensator used on the Thompson SMG, the vents allowed the smoke to escape from the top of the intake before causing engine failure.

Ship Captains Didn’t Like the Cutlass

In the spring of 1954, the F7U Cutlass entered active duty. Research shows the Vought fighter was assigned to 13 squadrons. Almost immediately, there were problems. Stalls and nose gear issues were relatively common.

A Vought F7U-3 Cutlass sits on the catapult track of USS Forrestal's flight deck with deck crew personnel preparing the aircraft for launch in March 1956. The Vought F7U Cutlass operated from supercarrier flight decks. USS Forrestal represented newest carrier technology. F7U-3 fighters required catapult-assisted takeoffs. The F7U Cutlass history includes numerous carrier incidents. Deck crews faced dangerous launch operations daily. Westinghouse engines provided marginal thrust for launches. Vought F7U aircraft struggled with carrier qualification requirements. Steam catapults helped compensate for underpowered engines. — Deck crews prep an F7U-3 for launch from the USS *Forrestal* (CVA-59). The Cutlass needed every bit of catapult power since the J46 engines barely delivered enough thrust for safe carrier operations. Image: U.S. Navy

In one incident, the nose gear broke free and drove upward into the cockpit during landing. Entering the cockpit, the strut caused the ejection seat to fire. As the nose of the plane was now down, the pilot was not launched up, but forward into the vertical stabilizer of another aircraft. He would eventually die of those injuries.

In July 1955, several Cutlass aircraft encountered issues during carrier qualifications aboard the Essex-class aircraft carrier USS Hancock (CV-19). In the worst of the incidents, an F7U came in too low and exploded into a giant fireball when striking the ramp at the end of the deck. Along with the pilot, three sailors on the ship were killed in the conflagration. It is believed that the pilot was unable to get enough engine thrust during the approach to gain the few feet needed to prevent the crash.

A U.S. Navy Vought F7U-3M Cutlass bearing bureau number 129733 sits on USS Intrepid's starboard catapult with a Piasecki HUP-2 helicopter visible in the background on 10 May 1956. The Vought F7U Cutlass served with Attack Squadron VA-83. F7U-3M variants carried Sparrow air-to-air missiles. USS Intrepid deployed to Mediterranean Sea in 1956. The F7U Cutlass history includes CVG-8 operations. Carrier Air Group 8 operated mixed aircraft types. Vought F7U aircraft required plane guard helicopter coverage. HUP-2 Retriever helicopters rescued downed pilots. VA-83 Rampagers flew from March through September. — VA-83 “Rampagers” operated this F7U-3M Cutlass from USS *Intrepid* (CVA-11) during their 1956 Mediterranean deployment. The -3M variant was equipped to carry Sparrow missiles. Image: U.S. Navy

The problems with the Cutlass were so pervasive that the captains of the Hancock and the USS Ticonderoga (CV-14) would order the planes off their ships.

Even the Blue Angels Couldn’t Make Them Work

When the Blue Angels were reactivated in 1951, there was some push to have the team fly the F7U-1 fighters. There was a belief, probably by those who had never flown the plane, that the Cutlass needed to be more visible to the public. As a result, two of the -1 models were delivered to the team. Not part of the normal demonstration team, the planes were used for supplementary demos.

A Vought F7U-3M Cutlass sits on the concrete tarmac with Sparrow air-to-air missiles mounted beneath its swept wings in operational configuration. The Vought F7U Cutlass pioneered operational missile armament. F7U-3M variants carried Sparrow I missiles. Radar-guided missiles provided beyond-visual-range capability. The F7U Cutlass history includes weapons system firsts. Four Sparrow missiles represented standard loadout. Navy squadrons operated missile-armed Cutlass fighters. Vought F7U aircraft introduced air-to-air missile technology. Advanced weapons couldn't compensate for engine deficiencies. — Parked with missiles mounted, the F7U-3M looks every bit the futuristic weapons platform Vought intended. Image: U.S. Navy

Unsurprisingly, there were incidents.

On one occasion, a Blue Angels Cutlass dropped a landing gear door while the pilot was flying over the crowd. The door dropped right onto the grandstand. Miraculously, no one was injured.

Two U.S. Navy Vought F7U-3M Cutlass aircraft from Attack Squadron VA-86 "Sidewinders" sit positioned on steam catapults aboard USS Forrestal's flight deck ready for launch operations. The Vought F7U Cutlass served with multiple attack squadrons. F7U-3M variants featured Sparrow missile armament. VA-86 Sidewinders operated from supercarrier platforms. The F7U Cutlass history includes Forrestal deployment operations. USS Forrestal represented newest carrier technology available. Twin catapult launches enabled rapid sortie generation. Vought F7U aircraft required catapult assistance for takeoffs. Attack squadrons faced operational challenges with Cutlass. — Two F7U-3M Cutlass fighters from Attack Squadron VA-86 await launch from the catapults of the USS *Forrestal*. Image: U.S. Navy

In another instance, a pilot experienced a loss of hydraulics mid-demonstration. Too low to eject, he managed to fly the plane through some trees toward the runway. Some combination of luck, skill and divine intervention allowed him to land without injury.

The team eventually abandoned the Cutlass planes.

Final Thoughts

The Cutlass assumed active duty in 1954. In less than five years, the Navy seemingly couldn’t get rid of them fast enough. A contract for a ground attack version of the plane was canceled, and the fighters were doled out to schools and cities under the guise of promoting interest in aviation. Frankly, it seems the Navy just wanted them gone.

A 1954 Chance Vought advertisement features the F7U-3 Cutlass fighter aircraft with marketing copy promoting the aircraft's advanced capabilities and modern design. The Vought F7U Cutlass entered active duty in 1954. F7U-3 variants represented production model fighters. Chance Vought promoted Cutlass technological innovation. The F7U Cutlass history includes aggressive marketing campaigns. Corporate advertisements emphasized jet age advancement. Vought F7U aircraft featured in aviation publications. Public perception differed from operational reality. Fleet squadrons experienced serious safety problems. — Vought’s 1954 advertising promoted the F7U-3 Cutlass as a cutting-edge fighter jet. Marketing emphasized innovation and performance, ignoring the chronic engine problems, hydraulic failures, and deadly accident rate.

An analysis of the F7U indicated that roughly ¼ of all Cutlass airframes were lost in accidents. Although I’ve not seen the raw data, it has been said that the Vought F7U had the highest accident rate of any swept-wing fighter employed by the U.S. Navy.

I wonder how a similar design would fare with modern technology. With computer-assisted, fly-by-wire designs and more powerful engines, the design might have been a more successful one. While issues with the hydraulics and landing gear may have eventually been fixed, there simply were not more powerful engines available for the Cutlass. And that appears to be the ultimate failure point with the so-called F7U Gutless.

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