Allison J35


The General Electric/Allison J35 was originally developed by General Electric in parallel with the Whittle-based centrifugal-flow J33, and was the United States Air Force's first axial-flow compressor engine. The J35 was fairly simple, consisting of an eleven-stage axial-flow compressor and a single-stage turbine. With the afterburner, which most models carried, it produced a thrust of.
Like the J33, the design of the J35 originated at General Electric, but major production was by the Allison Engine Company.

Design and development

While developing the T31 axial turboprop in 1943 GE realized that they had the resources to design an axial turbojet at the same time as their centrifugal J33 engine. They recognized the axial would have more potential for the future and went ahead with the TG-180 engine. GE axial compressor designs were developed from the NACA 8-stage compressor.
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The engine had its starter and accessories mounted in the center of the compressor inlet. This accessory layout, as used on centrifugal engines, restricted the area available for compressor inlet air. It was carried over to the J47 but revised on the J73 when a 50% increase in airflow was required. It also had an inlet debris guard which was common on early jet engines.
GE developed a variable afterburner for the engine, although electronic control linked with engine controls had to wait until the J47. Marrett describes one of the consequences if the link is human on an afterburning engine. If the afterburner lit but the nozzle didn't open the RPM governor would overfuel the engine until the turbine failed.

Operational history

The General Electric J35 first flew in the Republic XP-84 Thunderjet in 1946. Late in 1947, complete responsibility for the development and production of the engine was transferred to the Allison Division of the General Motors Corporation and some J35s were also built by GM's Chevrolet division. More than 14,000 J35s had been built by the time production ended in 1955.
The J35 was used to power the Bell X-5 variable-sweep research aircraft and various prototypes such as the Douglas XB-43 Jetmaster, North American XB-45 Tornado, Convair XB-46, Boeing XB-47 Stratojet, Martin XB-48, and Northrop YB-49. It is probably best known, however, as the engine used in two of the leading fighters of the United States Air Force in the 1950s: the Republic F-84 Thunderjet and the Northrop F-89 Scorpion.
A largely redesigned development, the J35-A-23, was later produced as the Allison J71, developing thrust.

Variants

Data from:Aircraft engines of the World 1953, Aircraft engines of the World 1950
;J35-GE-2: thrust, prototypes built by General Electric.
;J35-GE-7: thrust, built by General Electric, powered the 2 Republic XP-84 Thunderjet prototypes
;J35-GE-15: thrust, built by General Electric, powered the sole Republic XP-84A Thunderjet
;J35-A-3: thrust
;J35-C-3: thrust, production by Chevrolet.
;J35-C-3: thrust, production by Chevrolet.
;J35-A-4: Similar to -29, thrust
;J35-A-5: thrust
;J35-A-9: thrust
;J35-A-11: Similar to -29, thrust
;J35-A-13: thrust
;J35-A-13C:
;J35-A-15: Similar to -29, thrust, powered the 15 Republic YP-84 Thunderjets
;J35-A-15C: thrust
;J35-A-17: Similar to -29, thrust
;J35-A-17A: Similar to -29, thrust
;J35-A-17D: thrust
;J35-A-19: Similar to -17, thrust
;J35-A-21: Similar to -35, thrust, with afterburner
;J35-A-21A: Similar to -35, thrust, with afterburner
;J35-A-23: Similar to -29, thrust, original designation for the Allison J71
;J35-A-25: Similar to -29, thrust
;J35-A-29: thrust
;J35-A-33: Similar to -35, thrust, with afterburner, without anti-icing
;J35-A-33A: Similar to -35, thrust, with afterburner, without anti-icing
;J35-A-35: thrust, with afterburner
;J35-A-41: Similar to -35, thrust, with afterburner, with anti-icing
;Model 450:company designation for J35 series engines.

Applications