Vickers Valetta
The Vickers Valetta was a British twin-engine military transport and trainer aircraft manufactured by Vickers-Armstrongs for the Royal Air Force, featuring an all-metal mid-wing monoplane design with tailwheel undercarriage and powered by two Bristol Hercules 230 radial piston engines.[1][2] Developed as a military derivative of the Vickers Viking airliner, its prototype first flew on 30 June 1947 and entered RAF service in 1948, with a total of 263 units produced by 1952.[3][4] The aircraft served primarily in troop transport, paratroop dropping, freight hauling, supply dropping, and navigational training roles, operating from bases including those in the Suez Canal Zone and Malaya during the post-war period.[1] Variants included the standard C.1 transport capable of carrying up to 34 passengers or 20 paratroops, the VIP-configured C.2, and the T.3 navigational trainer, some of which were modified to T.4 standard with an extended nose for radar equipment.[1][5] With a maximum speed of approximately 258 mph at 10,000 feet and a range of around 1,460 miles, the Valetta provided reliable short- to medium-range tactical airlift support until its phased retirement in the 1970s, supplanted by more modern jet transports.[5][2]Development
Background and origins
The Vickers Valetta emerged as a military transport derivative of the Vickers VC.1 Viking, a twin-engine civil airliner that had proven successful in postwar civilian operations following its maiden flight on 22 June 1945.[6] Vickers-Armstrongs adapted the Viking's established airframe—originally derived from the wartime Wellington bomber's geodetic construction principles—to fulfill Royal Air Force requirements for a versatile medium-lift aircraft capable of troop and cargo transport.[7] This evolution capitalized on the Viking's empirical reliability, including its Bristol Centaurus radial engines and robust structure, to address the RAF's urgent need to modernize its aging fleet of Douglas C-47 Dakotas without undertaking extensive new design work.[8] Post-World War II Britain's economic austerity, marked by severe foreign exchange shortages and industrial reorientation, necessitated pragmatic procurement strategies that minimized risk and maximized use of proven technologies.[9] The RAF's emphasis on a troop-carrying variant alongside freighter capabilities reflected strategic imperatives for rapid force projection in an era of decolonization and Cold War tensions, where innovative but untested designs posed unacceptable delays and costs. Vickers' approach thus privileged causal efficiency: repurposing civilian production lines and wooden-composite fabrication techniques from the Viking to deliver a militarized platform swiftly, avoiding the fiscal pitfalls of bespoke military R&D amid national recovery efforts.[10] This origins phase underscored a broader pattern in British aviation policy, favoring incremental adaptations of reliable airframes over radical departures to sustain operational readiness under constrained budgets. The Valetta prototype, converted from the 58th Viking airframe (c/n 158), embodied this philosophy, setting the stage for its role as a stopgap solution in RAF logistics.[4]Prototyping and testing
The prototype Vickers Valetta, converted from the 158th production Vickers Viking (constructor's number 158), achieved its maiden flight on 30 June 1947 from Brooklands airfield in Surrey, England, piloted by Vickers chief test pilot Joseph "Mutt" Summers.[11][1] This conversion incorporated key military adaptations, including the installation of two Bristol Hercules 102 radial engines providing 1,735 horsepower each, a strengthened floor for freight handling, and a large rear loading door, which were subjected to initial ground and taxi trials prior to flight.[4] The rapid progression from assembly to first flight underscored the design's evolutionary basis in the proven Viking platform, minimizing developmental risks through prior empirical data on aerodynamics and structures. Flight testing ensued promptly at Brooklands and later at RAF Boscombe Down, encompassing structural load assessments, control system validations, and performance envelope explorations. Engineers addressed minor stability oscillations in early sorties via adjustments to tailplane incidence and elevator trim, informed by complementary wind tunnel simulations at Vickers' facilities. These iterations confirmed the all-metal airframe's robustness under dynamic loads, with no substantiated durability shortfalls emerging from initial exposure simulations, validating the material's superior strength-to-weight ratio over legacy wooden constructions in comparable designs.[12] By mid-1948, completion of certification trials enabled Royal Air Force acceptance, with documented short-field take-off runs under 1,000 feet fully laden and payload verifications supporting up to 5,500 pounds of freight or equivalent troop configurations (approximately 20 paratroopers in braced seating).[13] These outcomes empirically demonstrated the Valetta's operational viability for tactical transport, paving the way for production without major redesigns.Production and challenges
Production of the Vickers Valetta began in 1948 at the Vickers-Armstrongs factory in Weybridge, Surrey, shortly after the prototype's first flight on 30 June 1947. Manufacturing focused primarily on fulfilling Royal Air Force contracts, with the C.1 transport variant comprising the bulk of output at 211 units. Overall production totaled 263 aircraft across variants, including trainer models, and concluded in 1952.[3][12] The initial batch of Valettas, numbering around 15 to 36 airframes, was assembled at Weybridge before some later production shifted to other facilities. This ramp-up reflected efficient post-prototype scaling amid Britain's peacetime aviation reorientation, leveraging existing infrastructure from wartime bomber lines like the Wellington.[12][14] Challenges during production were limited, with no documented major disruptions from supply chains or component shortages specific to the Valetta. The aircraft's Bristol Hercules radial engines, produced domestically by Bristol Aeroplane Company, integrated reliably without the delays seen in some contemporary sleeve-valve designs like the Centaurus used in related trainers. Post-war material transitions and labor adjustments posed general pressures on UK manufacturers, but Vickers achieved steady delivery rates, underscoring effective prioritization of military transport needs over civilian projects.[12][15]Design
Airframe and structure
The Vickers Valetta employed an all-metal construction for its fuselage and wings, forming a mid-wing monoplane layout optimized for military transport duties.[4] The semi-monocoque structure incorporated stressed-skin aluminium alloy panels, providing inherent strength while facilitating reinforcements where necessary for operational loads.[2] This design choice supported rapid production leveraging post-war manufacturing capabilities, with the airframe demonstrating durability through extended service life in demanding environments.[1] The aircraft measured 62 feet 11 inches (19.18 m) in length and had a wingspan of 89 feet 3 inches (27.21 m), enabling efficient accommodation of cargo or personnel within its rectangular-section fuselage.[16] It featured a fixed tailwheel undercarriage, with main wheels retracting rearward into the engine nacelles and the tailwheel into the fuselage, enhancing suitability for rough-field operations typical of forward-area deployments.[2] The configuration typically housed a crew of four—comprising two pilots, a navigator, and a loadmaster—to manage flight and loading tasks effectively.[1] Adaptations for military roles included a strengthened cabin floor capable of supporting heavy freight or equipped troops, paired with a large rear-loading freight door on the port side.[4] This door incorporated a smaller inset panel for personnel ingress/egress and paratroop dispatch, allowing capacity for up to 34 seated troops or 20 paratroopers with associated static-line fittings.[17] [1] Such features underscored the airframe's versatility for rapid troop insertion and supply missions, with the metal structure's rigidity ensuring structural integrity under dynamic loading conditions like parachute drops.[5]Powerplant and systems
The Vickers Valetta employed two Bristol Hercules 230 fourteen-cylinder, two-row, air-cooled radial engines, each delivering 1,975 horsepower (1,473 kW) for takeoff.[2] [5] These sleeve-valve engines, derived from wartime designs, powered de Havilland or Rotol four-bladed constant-speed feathering propellers, optimizing efficiency across operational altitudes and contributing to the aircraft's short-field capabilities in austere environments.[2] Fuel was stored in wing tanks with a total capacity of 724 imperial gallons (3,290 litres), supporting a maximum range of 1,460 miles under economical cruise conditions without payload.[4] [2] Ancillary systems encompassed hydraulic mechanisms for retractable tricycle landing gear and flaps, alongside basic electrical generation from engine-driven dynamos for instrumentation and lighting. Navigation relied on standard RAF equipment of the era, including radio compasses and gyroscopic aids in transport variants, while cargo configurations featured a reinforced floor and rear freight door for palletized loads, though specialized winches were not universally fitted.[5] Defensive provisions were minimal, with no fixed armament as standard, reflecting the aircraft's primary non-combat transport role.[4]Performance characteristics
The Vickers Valetta achieved a maximum speed of 258 mph at 10,000 feet, with a cruise speed of 172 mph at the same altitude.[2][4] Its service ceiling reached 21,500 feet, supported by an initial rate of climb of 1,275 feet per minute.[2][4] Range extended to 1,460 miles under typical operational loads.[2] These figures, derived from manufacturer trials and RAF evaluations, underscored the aircraft's suitability for tactical transport roles, particularly its short takeoff and landing performance enabling operations from semi-prepared forward airstrips.[18] In hot and high conditions, such as those encountered in Middle Eastern deployments, the Bristol Hercules engines provided reliable power retention, outperforming expectations for radial-engined types in altitude-limited environments.[18] Compared to contemporaries like the Douglas Dakota, the Valetta offered superior freight capacity at 11,500 pounds versus the Dakota's 7,800 pounds, despite similar empty weights and powerplants, due to optimized airframe loading and reinforced flooring.[18] This advantage facilitated heavier payloads in contested areas, though the Valetta's lower cruise efficiency on long sectors—evident in its marginally shorter range—necessitated more frequent refueling versus the Dakota's endurance.[2] Empirical RAF usage through the 1950s and 1960s demonstrated higher dispatch reliability for the Valetta in austere operations, attributable to simpler piston systems that resisted jet-era maintenance complexities, sustaining viability for paratroop drops and resupply even as turbojets proliferated.[18]| Performance Parameter | Specification |
|---|---|
| Maximum speed | 258 mph at 10,000 ft |
| Cruise speed | 172 mph at 10,000 ft |
| Service ceiling | 21,500 ft |
| Rate of climb | 1,275 ft/min |
| Range | 1,460 miles |
Operational history
Royal Air Force introduction
The Vickers Valetta C.1 entered Royal Air Force service in 1948 as a medium transport aircraft, primarily intended to succeed the Douglas Dakota in logistical roles within RAF Transport Command.[4] This introduction followed the prototype's maiden flight on 30 June 1947, with initial operational deployments occurring by No. 204 Squadron at RAF Kabrit in Egypt during 1949.[10] The aircraft's design emphasized versatility for freight, troop carriage, and paratroop operations, facilitating a rapid expansion of the RAF's tactical airlift capabilities amid post-war restructuring.[19] Crew training for Valetta operations relied on the related Vickers Varsity T.1, a dual-control variant introduced in 1951 specifically for aircrew instruction and replacing the Wellington T.10 in advanced training units.[20] The Varsity, sharing the Valetta's basic airframe but incorporating a tricycle undercarriage and extended fuselage, enabled efficient conversion of pilots and navigators to the type's handling characteristics within RAF flying schools.[21] This integration supported the buildup of proficient squadrons, with over 210 Valetta C.1s produced to equip transport wings for routine supply missions and domestic maneuvers.[19] In its early non-combat employment, the Valetta demonstrated reliability in RAF exercises focused on logistical efficiency, such as paratroop drops and supply chain simulations, underscoring its role in maintaining operational readiness without venturing into active conflict zones.[10] These activities highlighted the type's capacity for 32 troops or equivalent cargo loads over medium ranges, contributing to the RAF's transition toward more modern tactical transports.[4]Deployment in conflicts and exercises
The Vickers Valetta played a support role in the Malayan Emergency, conducting supply drops to isolated outposts amid counter-insurgency efforts against communist guerrillas; for instance, a Valetta C.1 (VW861) delivered provisions to forces in the Cameron Highlands in 1954, leveraging the aircraft's ability to operate from rough airstrips in rugged terrain.[22][23] Its rugged design proved effective for such low-intensity logistics, enabling sustained operations where more delicate transports faltered, though exposure to potential ground threats underscored inherent vulnerabilities for unescorted flights. In the 1956 Suez Crisis, during Operation Musketeer, Valettas from No. 30 Squadron RAF, staging from Cyprus, executed paratroop resupply drops to British airborne forces at El Gamil airfield near Port Said on 5 November, following the initial assault to secure the canal zone.[24][25] These missions highlighted the Valetta's utility in rapid deployment scenarios, with its troop-carrying capacity and short-field performance aiding the swift insertion of follow-on supplies despite the operation's compressed timeline and contested airspace. Valettas supported logistics in the Aden Protectorate through the early 1960s, including supply runs to forward bases in challenging regions such as Beihan in the Wadi Hadramaut, where the aircraft's twin-engine reliability facilitated access to austere sites amid efforts to maintain British influence against local insurgencies.[26] No. 233 Squadron operated the type until its disbandment in 1964, contributing to routine transport that sustained garrison operations in the protectorates' remote and hostile environments. In training exercises, Valettas enabled paratroop jumps for British airborne units, including simulations circa 1950 that prepared forces for rapid insertion tactics akin to those employed in Malaya and Suez.[27] They supported drills with elements of the 16th Parachute Brigade, demonstrating versatility for static-line drops in varied conditions, though operational histories noted limitations like susceptibility to small-arms fire during low-altitude profiles, as evidenced by broader transport loss patterns in peripheral conflicts.[28] This dual-use capability underscored the Valetta's value in honing capabilities for imperial defense postures reliant on air mobility over extended theaters.Export use and withdrawal
The Vickers Valetta saw negligible export activity, with production focused exclusively on Royal Air Force requirements and no confirmed sales to foreign military operators.[1] Unlike contemporaneous British transports such as the Handley Page Hastings, which found limited overseas markets, the Valetta remained a RAF-centric platform, its piston-engine design limiting appeal amid the post-war shift toward turboprops and jets.[29] Withdrawal from RAF service commenced in the early 1960s as squadrons transitioned to superior types, including the de Havilland Devon for lighter duties and emerging turboprops like the Blackburn Beverley for heavy lift, culminating in replacement by the Lockheed C-130 Hercules.[30] Front-line operations effectively ended by 1968, with surviving airframes allocated to storage, target towing, or scrapping; for instance, examples at RAF Safi in Malta were dismantled that year.[31] A handful persisted in reserve or maintenance roles into 1970, as evidenced by sightings such as VW197 at Birmingham Elmdon Airport.[32] This phased retirement aligned with broader RAF modernization driven by demands for higher speeds, greater range, and enhanced reliability in transport fleets, underscoring the Valetta's role as a transitional piston-powered stopgap rather than a long-term solution.[30] Scrappage rates were high post-withdrawal, reflecting economical disposal of aging airframes amid budget constraints and technological obsolescence.Variants
Primary transport variants
The Vickers Valetta C.1 served as the standard transport variant, designed primarily for freight, troop, and paratroop roles with a strengthened floor and large rear loading doors to accommodate cargo handling. Powered by two Bristol Hercules 230 fourteen-cylinder radial engines each producing 1,975 horsepower, it lacked dual controls found in trainer models, emphasizing payload capacity over instructional features. A total of 211 units were produced between 1947 and 1952.[3][5] In troop carrier configuration, the C.1 could accommodate 34 fully equipped soldiers, while as an air ambulance it carried 20 stretchers plus two medical orderlies; paratroop operations utilized drop doors integrated into the fuselage design.[5] Some airframes received modifications for glider towing, leveraging the Hercules engines' power for secondary roles in training exercises, though primary emphasis remained on logistical transport.[33] The Valetta C.2 variant, numbering 11 built, adapted the C.1 airframe for VIP transport with interior fittings for high-ranking passengers, retaining the same powerplant but prioritizing passenger comfort over maximum payload.[3] These transports featured production refinements such as enhanced undercarriage for rough-field operations, distinguishing them from civilian-derived predecessors like the Viking by focusing on military durability without specialized avionics for navigation training.[4]Trainer and specialized variants
The Vickers Valetta T.3 served as a dedicated navigational trainer for the Royal Air Force, designed to Specification T.1/49 with the company designation V.743.[34] It featured a flying classroom configuration equipped with astrodomes for celestial navigation exercises and provisions for side-by-side instructor-student seating to facilitate training.[11] The prototype first flew on 31 August 1950, and production commenced shortly thereafter, with 40 aircraft built between 1951 and 1952.[5] [35] These were allocated to the RAF College at Cranwell and Nos. 1 and 2 Air Navigation Schools for aircrew instruction.[36] A specialized sub-variant, the T.4, was created by converting existing T.3 airframes through the addition of an extended nose section housing a radar scanner.[3] This modification supported training in airborne interception radar operations, with approximately 18 conversions completed to meet RAF requirements for advanced crew proficiency.[4] The T.4 retained the core navigation capabilities of the T.3 while incorporating radar-specific instrumentation, reflecting adaptations for evolving tactical training needs without necessitating entirely new production lines.[36] No further specialized variants beyond these trainer adaptations were produced in quantity, as operational priorities favored the standard transport models for cost-effectiveness in logistics roles over niche configurations like proposed paramedic variants, which were not pursued due to insufficient demand relative to expenses.[5]Operators
Military operators
The Royal Air Force was the sole military operator of the Vickers Valetta, receiving a total of 263 aircraft between 1948 and 1959, including 211 C.1 transport variants, 11 C.2 VIP transports, and 40 T.3 navigation trainers.[3] These numbers reflected the RAF's emphasis on a cost-effective, versatile transport fleet capable of troop and supply movements across its global commitments.[8] Valettas equipped multiple squadrons for general transport duties, with No. 30 Squadron re-equipping in December 1950 and operating them until transitioning to larger types.[37] No. 110 Squadron used the type from October 1951 until disbanding on 31 December 1957.[38] Early operations began with No. 204 Squadron at RAF Kabrit, Egypt, in 1949, marking the replacement of Dakotas in frontline service.[5] In the Middle East, five squadrons—No. 70, No. 78, No. 114, No. 204, and No. 216—operated Valettas from RAF Fayid between 1951 and 1953, supporting regional logistics.[1] No. 233 Squadron flew C.1s in Aden during 1960 for ferry and operational support.[39] Navigation training variants served with the RAF College at Cranwell and air navigation schools, while communications units like the Metropolitan Communications Squadron at Northolt and Near East Communications Squadron in Malta utilized them into the 1960s.[40][41] No verified foreign military operators acquired Valettas, limiting their use to British forces.Operational scale and usage
A total of 263 Vickers Valetta aircraft were produced between 1947 and 1952, comprising 211 C.1 transport variants, 11 C.2 VIP transports, and 41 T.3/T.4 trainers, providing substantial capacity for medium-range military logistics and navigation instruction.[3] This output enabled fleet-wide deployment starting in 1948, with the type accumulating extensive service across diverse operational environments until final withdrawals in the late 1960s.[1] Intensive usage is evidenced by airframe-specific records, such as a T.3 trainer that logged 8,143 flying hours and 5,146 landings from its first flight in March 1952 to delivery for further service in the mid-1950s, reflecting routine high-tempo missions typical of the variant's workload.[42] Other documented examples include individual units exceeding 4,900 RAF service hours, indicative of the platform's endurance in sustained operations without aggregate fleet totals publicly compiled in declassified records.[43] The Valetta's operational efficiency stemmed from its robust Bristol Hercules engines and modular construction, which facilitated rapid turnaround and minimized unscheduled maintenance relative to piston-engined peers like the Douglas Dakota, though quantitative availability metrics—such as mission-capable rates—remain sparsely reported in historical aviation analyses.[1] This reliability supported its role as a cost-effective workhorse, with low incidence of systemic failures contributing to high dispatch rates in transport duties.Incidents and accidents
Engine and structural failures
On 17 September 1951, Vickers Valetta C.1 VW813 encountered severe turbulence during flight near Loka, Sudan, resulting in the failure of an outer wing panel and subsequent in-flight breakup; all four crew members perished in the crash.[44] [45] The official investigation determined that dynamic stresses exceeded the wing's structural limits, though the airframe's design was deemed adequate under normal loads, highlighting the interplay between external forces and material fatigue thresholds rather than inherent defects.[46] Engine-related incidents were similarly tied to specific mechanical faults in the Bristol Hercules radials, which powered the Valetta. For instance, on 18 February 1951, Valetta C.1 VX514 experienced oil starvation in its No. 2 engine during a flight from the United Kingdom to Sweden, necessitating propeller feathering; compounded by radio failure, the crew executed a forced belly landing in a wooded area near Stockholm-Bromma Airport, writing off the aircraft but with the pilot surviving.[47] Analysis pointed to lubrication system deficiencies under prolonged high-altitude operation, underscoring the need for vigilant monitoring of engine oil circuits.[48] A comparable dual-engine sequence unfolded on 26 February 1952 with Valetta C.1 VW827, where the initial powerplant loss prompted shutdown and feathering, only for the remaining engine to succumb to magneto ignition failure, forcing an emergency descent and crash-landing that destroyed the airframe.[49] Post-incident reviews identified magneto wear as the root cause, a known vulnerability in radial engines of the era attributable to electrical arcing under vibration, yet mitigated through scheduled overhauls; such events remained infrequent, with failure rates empirically lower than those of comparable piston-engined transports based on RAF operational logs.[50] These cases revealed patterns of radial engine sensitivities to oil management and ignition reliability, often exacerbated by operational stresses like extended sorties, but investigations consistently emphasized maintenance lapses or component aging over foundational design shortcomings.[51] No widespread structural redesigns were mandated, as empirical data from fleet-wide hours indicated robust airframe integrity when subjected to routine inspections.[52]Weather-related and operational mishaps
On 18 February 1951, Vickers Valetta C.1 VX514 of the Royal Air Force attempted a go-around during marginal weather conditions with poor runway alignment, resulting in insufficient climb performance and a crash that killed all three crew members.[47] The incident highlighted operational challenges in low-visibility approaches typical of the era's visual flight rules reliance and limited instrumentation for precise alignment.[47] On 19 August 1952, Valetta C.1 VX559 departed RAF Benson at night amid low clouds and rain, leading to controlled flight into terrain in a slight descent, with the aircraft destroyed and fatalities among the crew.[53] Such weather-related navigation errors during training sorties underscored the difficulties of maintaining situational awareness without modern radar or enhanced ground proximity warnings, though the aircraft's design permitted operations in these conditions when pilots exercised caution.[53] A prominent example occurred on 6 January 1954, when Valetta T.3 WJ474 of No. 2 Air Navigation School took off from RAF Bovingdon into a blizzard, losing height four minutes later and striking a tree near Aldbury, Hertfordshire, killing 16 of 17 occupants including a rugby team en route to a match.[54] The accident investigation attributed the mishap to the decision to depart in severe snow and wind, reflecting human factors in assessing marginal ceilings and visibility rather than inherent aircraft limitations, as the Valetta's taildragger configuration, while reducing forward ground visibility in fog or snow, was standard for transports of the period and not a primary causal element here.[55] These incidents, concentrated in training environments, illustrate operational risks from environmental factors and pilot judgments in an age before widespread instrument landing systems, with no evidence of systemic procedural flaws beyond the technological constraints of 1950s piston-engine aviation.[54]Preservation
Surviving airframes
As of 2025, no Vickers Valetta airframes remain airworthy, with extant examples limited to static displays and stored components primarily in the United Kingdom.[56] The surviving complete airframes consist of two C.2 variants preserved in museum collections.[57]| Serial | Variant | Location | Condition |
|---|---|---|---|
| VX573 | C.2 | RAF Cosford Museum Store | Stored, wings removed as of recent inspections[57][56] |
| VX580 | C.2 | Norfolk and Suffolk Aviation Museum, Flixton | Outdoor static display[57][58] |
Restoration efforts and losses
Following the withdrawal of the Vickers Valetta from RAF service by the early 1970s, the majority of the approximately 217 airframes produced were systematically scrapped at disposal units, driven by operational obsolescence, escalating maintenance costs, and the absence of immediate preservation mandates.[61] This attrition reflected the aircraft's transition from active duty to surplus status, with metal fatigue and corrosion accelerating degradation in stored examples not selected for retention.[56] Preservation initiatives emerged sporadically through museum acquisitions, though constrained by parts scarcity and structural deterioration. The RAF Museum at Cosford acquired Valetta C.2 VX573 for restoration, with efforts commencing to address corrosion and component wear; however, as of March 2023, progress stood at approximately 15% complete, limited by the unavailability of specialized spares for the 1950s-era Alvis Leonides engines and airframe assemblies.[62] Similarly, private and regional efforts, such as the two-year restoration of VX577 at the North East Aircraft Museum completed by 1997, faced catastrophic setbacks, with the airframe destroyed by arson shortly thereafter, underscoring vulnerabilities in unsecured storage.[30] These challenges stem from the Valetta's all-metal construction, which, while durable in operational environments, proved susceptible to long-term environmental decay without proactive conservation, contrasting with its proven reliability during over two decades of service. As of September 2025, only two intact fuselages persist: VX573 in covered storage pending further work and VX580 exposed outdoors at Flixton, where ongoing weathering poses risks of additional material loss absent dedicated intervention.[61] Such limited survivorship highlights the causal interplay of post-service neglect and resource constraints in aviation heritage efforts.[56]Specifications
Vickers Valetta C.1 details
The Vickers Valetta C.1, the primary transport variant, accommodated a crew of four and had no fixed armament.[4][2]| General characteristics | |
|---|---|
| Crew | 4 |
| Empty weight | 24,980 lb (11,330 kg) |
| Max takeoff weight | 36,500 lb (16,560 kg) |
| Length | 62 ft 11 in (19.18 m) |
| Wingspan | 89 ft 3 in (27.21 m) |
| Height | 19 ft 7 in (5.97 m) |
| Wing area | 882 sq ft (82.0 m²) |
| Powerplant | 2 × Bristol Hercules 230 14-cylinder air-cooled radial piston engines, 1,975 hp (1,473 kW) each |
| Performance | |
|---|---|
| Maximum speed | 258 mph (415 km/h, 224 kn) at 10,000 ft (3,000 m) |
| Cruise speed | 211 mph (340 km/h, 183 kn) |
| Range | 1,460 mi (2,350 km, 1,270 nmi) |
| Service ceiling | 21,500 ft (6,600 m) |