Lockheed Altair
The Lockheed Altair was a single-engine, low-wing wooden monoplane sport and racing aircraft developed and produced by the Lockheed Aircraft Corporation in the early 1930s.[1] It evolved from the earlier Lockheed Sirius design, incorporating a retractable undercarriage that made it the first Lockheed model with this feature, enhancing its speed and efficiency for long-distance and competitive flying.[1] A limited production run of approximately 10 aircraft occurred between 1931 and 1934, including both new builds and conversions from Sirius airframes.[2] Primarily powered by a 450–550 horsepower Pratt & Whitney Wasp radial engine, the Altair featured a spruce wood construction for its fuselage, wings, and tail surfaces, with fabric covering and a streamlined two-seat cockpit arrangement.[3] Key specifications included a wingspan of 42 feet 9 inches, a length of about 28 feet, an empty weight of around 3,550 pounds, and a maximum gross weight of 5,800 pounds.[3] Performance highlights encompassed a top speed of 220 miles per hour at 5,000 feet, a cruising range of up to 1,150 miles at 65% power, and a service ceiling of 22,000 feet, making it well-suited for record attempts and air races.[3] The Altair gained prominence through its association with renowned aviators, including Australian pilot Sir Charles Kingsford Smith, who flew the modified Altair 8D Special Lady Southern Cross (c/n 152) on speed record flights across Australia in 1934 and a successful eastbound trans-Pacific crossing from Australia to the United States via Fiji and Hawaii later that year.[4] Other notable uses included U.S. Army Air Corps evaluation as the Y1C-23 and C-23 staff transport, as well as civilian ventures like publisher Bernarr MacFadden's failed 1932 New York-to-Paris attempt in Miss Liberty.[1] Variants such as the 8D, 8E, and DL-2A supported diverse roles from mail delivery to military trials, underscoring the aircraft's versatility during the golden age of aviation.[1]Design and Development
Origins and Influences
The Lockheed Altair originated as an evolution of the Lockheed Sirius, a high-performance monoplane developed in the late 1920s by Lockheed Aircraft Limited to meet growing demand for sport and exploration aircraft.[5] The company, under the guidance of designers Jack Northrop and Gerard Vultee, prioritized lightweight wooden construction and efficient aerodynamics in its lineup, with the Sirius serving as a versatile base for modifications.[5] The Altair specifically advanced this design by incorporating a retractable undercarriage, making it the first Lockheed aircraft to feature this technology and addressing the need for reduced drag in high-speed flight.[6] A pivotal influence came from aviator Charles Lindbergh, who in 1929 commissioned Lockheed to create a faster, long-range aircraft equipped with retractable landing gear for his planned Arctic and exploratory missions.[7] Although Lindbergh ultimately opted for a fixed-gear Sirius variant adapted with floats for over-water operations, his specifications shaped Lockheed's engineering focus toward retractable mechanisms and enhanced speed capabilities.[7] This request aligned with the company's broader strategy to innovate on the Sirius platform, positioning Lockheed as a leader in sport plane advancements amid the era's aviation boom.[5] Development of the Altair prototype began with the conversion of an existing Sirius 8A airframe in early 1930, transforming it into the new model through the addition of the retractable gear system.[2] The resulting aircraft, the first Altair, achieved its maiden flight in September 1930, validating the design's potential for superior performance over its predecessor.[8] This milestone underscored Lockheed's commitment to iterative improvements, setting the stage for the Altair's role in both civilian racing and military evaluation.Engineering Features
The Lockheed Altair was constructed as an all-wood monoplane, utilizing a plywood skin applied over a spruce framework to form its primary structure, with a low-wing configuration that contributed to improved stability during flight.[9][10] Its undercarriage system employed a hand-cranked retractable mechanism, in which the wheels folded inward into bays within the wings, representing the first such design in the Lockheed aircraft lineup.[8][11] The standard powerplant was a Pratt & Whitney Wasp SR-1340E nine-cylinder air-cooled radial engine rated at 500 hp, paired initially with a two-blade fixed-pitch propeller to optimize performance for sport and touring roles.[9][1] The cockpit accommodated two in a tandem arrangement, with the pilot in the forward enclosed position equipped with basic instrumentation, incorporating aerodynamic refinements such as faired struts to reduce drag.[9][1] In terms of weight and balance, the Altair had an empty weight of approximately 3,550 lb (1,610 kg) and a gross weight of 5,800 lb (2,630 kg), allowing for a useful load that supported its intended missions.[3]Operational History
Military Service
The United States Army Air Corps procured two Altair variants for evaluation and transport roles in the early 1930s. The Y1C-25, an all-wood prototype (serial 32-393, manufacturer's number 153, originally NR119W), was acquired in November 1931 as a test and demonstration aircraft powered by a 450 hp Pratt & Whitney R-1340-17 engine.[12][1] It served for approximately seven months, accumulating 153 flying hours before sustaining irreparable damage in an accident, leading to its early retirement and destruction.[12] The Y1C-23 (serial 32-232, manufacturer's number 165, converted from DL-2 NR8494), a metal-fuselage model, was purchased in 1931 and redesignated C-23 for staff transport duties.[13][1] Assigned initially to Bolling Field, Washington, D.C., it provided executive transport for senior officers, including the Assistant Secretary of War and Chief of the Air Corps, and underwent service testing at Wright Field, logging 1,075 hours over its career while surviving five wheels-up landings.[13] Later, it supported research at the National Advisory Committee for Aeronautics (NACA) Langley Memorial Aeronautical Laboratory, including evaluations of retractable landing gear effects.[13][14] The Y1C-23 transitioned to ground instructional use at Chanute Field, Illinois, before being transferred to Middletown Air Depot, Pennsylvania, where it was scrapped in June 1942 due to advancing obsolescence amid rapid technological developments in military aviation.[13] Neither Army variant saw combat deployment, focusing instead on non-combat evaluation, officer transport, and aerodynamic testing.[12][13] The U.S. Navy also adopted a single Altair for staff transport, designating it XRO-1 (Bureau Number 9054, a DL-2A model with metal fuselage and wooden wings). Delivered in October 1931 and powered by a 645 hp Wright R-1820E Cyclone engine, it served as the personal aircraft for Assistant Secretary of the Navy David Ingalls, marking the Navy's first landplane with fully retractable landing gear.[15][16] It operated for two years in this four-seat capacity before being placed in storage around 1933, with no record of combat use.[15] The airframe's ultimate fate remains undocumented, though it contributed to early evaluations of advanced features like gear retraction during brief visits to NACA Langley in 1932.[15][17] By the mid-1940s, all military Altairs had been fully phased out, replaced by more capable twin-engine transports.[13]Civilian and Exploratory Missions
The Lockheed Altair found significant application in civilian aviation during the 1930s, particularly for long-distance exploratory flights and commercial operations, leveraging its enhanced range and speed over earlier models like the Sirius. One prominent example was the modification of a Lockheed Sirius 8 Special into the Altair configuration for Australian aviator Charles Kingsford Smith, who named it Lady Southern Cross (registration VH-USB). This aircraft, completed in May 1934 with retractable landing gear and additional fuel tanks, enabled Kingsford Smith and co-pilot Patrick Gordon Taylor to undertake the first eastbound trans-Pacific flight from Brisbane, Australia, to Oakland, California, covering 7,593 statute miles in 14 days, 4 hours, and 18 minutes, with refueling stops in Suva, Fiji, and Honolulu, Hawaii.[18][19] Tragically, on November 8, 1935, Kingsford Smith and co-pilot Tommy Pethybridge disappeared while attempting a record-setting flight from England to Australia in the same aircraft; it was last reported over the Bay of Bengal off the coast of Burma (now Myanmar), with the wreckage never recovered despite extensive searches.[20][21] In Japan, the Altair served journalistic and transport roles, with the newspaper Mainichi Shimbun acquiring two examples in 1934 for aerial photography, high-speed passenger service, and cargo delivery, including newspaper distribution. One of these, a 8F variant (registration J-BAMC), crashed on April 12, 1937, near Osaka while carrying newspapers, with no fatalities; the pilot was injured.[22] The second aircraft remained in operation until 1944, when it was destroyed in a U.S. Army Air Forces bombing raid.[23] Beyond these high-profile cases, Lockheed sold Altairs to private pilots and explorers for personal and expeditionary use, with approximately six new civilian builds produced alongside several conversions from Sirius airframes to meet demand for reliable long-range transport in remote areas.[24] These aircraft demonstrated notable safety and reliability in challenging environments, such as overwater and undeveloped terrain flights, contributing to their appeal for adventurers. The Altair's design facilitated several record achievements in the 1930s, including Kingsford Smith's pre-Pacific speed runs across Australia, such as Sydney to Melbourne in 2 hours 25 minutes and Brisbane to Sydney in 2 hours 16 minutes, which highlighted its efficiency for intercontinental travel.[19] Overall, these missions underscored the Altair's role in advancing civilian aviation boundaries, from journalistic utility to pioneering exploration.Variants and Production
Civilian Models
The Lockheed Altair's civilian production centered on the 8D variant as the baseline model, featuring a 500 hp Pratt & Whitney Wasp radial engine and retractable undercarriage for enhanced performance in long-range sport flying.[1] This configuration involved four conversions from existing Lockheed Sirius airframes, supplemented by three new builds directly by Lockheed between 1930 and 1931, emphasizing the aircraft's evolution from its predecessor for civilian markets like personal transport and record attempts.[1] The DL-2A represented a licensed variant produced by the Detroit Aircraft Corporation, with two examples completed in 1931 that closely mirrored the 8D in design and capabilities but incorporated minor assembly variations.[2] These aircraft maintained the Wasp engine's power output while adapting the structure for broader civilian utility, including potential use in mail carriage and executive travel, with wooden monocoque fuselage construction.[2] An experimental outlier was the 8G Altair, also known as the AiRover, a single prototype constructed in 1937 by the AiRover Company as a testbed for the approximately 600 hp Menasco Unitwin 2-544 inverted in-line engine, which coupled two smaller engines to a single propeller shaft for experimental power delivery, with first flight in 1938.[25] This variant demonstrated alternative propulsion concepts but yielded limited flight data due to its developmental focus, ultimately leading to its scrapping after evaluation.[25] Overall, civilian Altair production totaled 11 aircraft, comprising five conversions and six new constructions, reflecting the model's niche appeal in the early 1930s aviation landscape.[26]Military Adaptations
The Lockheed Altair saw limited military adaptations primarily within the United States, with modifications focused on evaluation and transport roles rather than combat operations. The first such adaptation was the Y1C-25, a single prototype derived from the civilian 8D Altair model, which the U.S. Army Air Corps acquired in November 1931 for testing purposes.[12] This all-wood aircraft, originally a demonstrator (c/n 153, NR119W), featured retractable landing gear and was powered by a 450 hp Pratt & Whitney R-1340-17 Wasp engine.[1] It underwent evaluation for potential pursuit applications but was damaged beyond repair in a belly landing after just seven months and 153 flying hours, leading to its strike-off charge.[12][27] Following the Y1C-25's evaluation, the Army Air Corps procured a second Altair variant designated Y1C-23 (later redesignated C-23, serial 32-232) in 1931, configured as a staff transport with a metal fuselage constructed to the DL-2 standard for improved durability.[13][1] This sole example (c/n 165, originally NR8494) retained the retractable undercarriage and was fitted with a 500 hp Pratt & Whitney SR-1340E engine, accommodating a pilot and up to two passengers in tandem enclosed cockpits.[13] It incorporated radio equipment for command duties and logged over 1,075 flying hours in service testing before being converted to a ground instructional airframe and ultimately scrapped in June 1942.[13] For naval applications, the U.S. Navy acquired a single XRO-1 in October 1931, adapted from the DL-2A configuration with a strengthened metal fuselage to enhance structural integrity, though it was not employed in carrier operations.[15][1] Powered by a 645 hp Wright R-1820E Cyclone engine, this variant served primarily as a personal transport for the Assistant Secretary of the Navy, replacing a Curtiss XO2C, and remained in active use for approximately two years before entering storage.[15] No military exports of the Altair occurred, with all units delivered to foreign operators—such as those in Japan for survey work—retaining civilian configurations without armament or military-specific modifications.[2]Technical Specifications
General Dimensions
The Lockheed Altair, as the baseline civilian model, featured compact dimensions suited to its role as a high-performance sport and transport aircraft, with an overall length of 28 ft 11 in (8.82 m), a wingspan of 42 ft 9 in (13.03 m), and a height of 9 ft 3 in (2.82 m).[3] These measurements reflected its streamlined monoplane design, constructed primarily from wood to achieve a balance of lightness and strength.[1] The wings incorporated an area of 294 sq ft (27.3 m²), an aspect ratio of 6.2, and NACA 2212 airfoil sections, providing efficient lift for its intended speeds and loads while maintaining structural integrity.[3] In terms of capacities, the Altair accommodated a normal fuel load of 114 US gal (432 L) with a maximum of 175 US gal (662 L), and 5 US gal (19 L) of oil, supporting extended flights for its era, with provisions for a pilot and one passenger in the baseline two-seat cockpit arrangement.[3][1] Key weights for the civilian models included an empty weight of 3,550 lb (1,610 kg) and a maximum gross weight of 5,800 lb (2,630 kg), allowing for a useful load that balanced performance and payload flexibility.[3]| Parameter | Value (Imperial) | Value (Metric) |
|---|---|---|
| Length | 28 ft 11 in | 8.82 m |
| Wingspan | 42 ft 9 in | 13.03 m |
| Height | 9 ft 3 in | 2.82 m |
| Wing Area | 294 sq ft | 27.3 m² |
| Aspect Ratio | 6.2 | 6.2 |
| Fuel Capacity (normal) | 114 US gal | 432 L |
| Fuel Capacity (max) | 175 US gal | 662 L |
| Oil Capacity | 5 US gal | 19 L |
| Empty Weight | 3,550 lb | 1,610 kg |
| Max Gross Weight | 5,800 lb | 2,630 kg |
Performance Characteristics
The Lockheed Altair 8D, powered by a 450-horsepower Pratt & Whitney R-1340 Wasp radial engine, demonstrated strong flight performance suited to sport aviation and record-setting endeavors in the early 1930s. Its aerodynamic design, featuring a low-wing monoplane configuration with retractable landing gear, contributed to efficient high-speed operation and good climb characteristics relative to contemporaries. Key metrics were established through manufacturer testing and contemporary flight trials, emphasizing balanced speed, range, and altitude capabilities for both short-haul and extended missions. Note that performance varied by variant and powerplant; values below are for the 8D configuration.| Metric | Value | Notes/Source |
|---|---|---|
| Maximum speed | 207 mph (333 km/h) at 7,000 ft (2,100 m) | Achieved at full power; fiddlersgreen.net |
| Cruising speed | 175 mph (282 km/h) | Normal operating speed at 75% power; fiddlersgreen.net |
| Never exceed speed | 225 mph (362 km/h) | Structural limit for the airframe; electronicsandbooks.com (Flying Aces, March 1936) |
| Range at cruise | 580 mi (934 km) | With standard fuel load; fiddlersgreen.net |
| Service ceiling | 23,800 ft (7,300 m) | Maximum operational altitude; fiddlersgreen.net |
| Rate of climb | 1,200 ft/min (6.1 m/s) at sea level | Initial climb performance; derived from flight trials to 7,000 ft in approximately 6 minutes fiddlersgreen.net |
| Stall speed | 65 mph (105 km/h) | Minimum controllable speed with flaps; aerofiles.com |
| Takeoff/landing distance | 500 ft (152 m) on grass | Short-field capability on unprepared surfaces; aerofiles.com (DL-2A variant, similar powerplant) |