Thursday, February 12, 2009

Samolot mysliwsko-bombowy Su-22

Samolot mysliwsko-bombowy Su-22 Military Papercraft


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Like the Buccaneer, the SU22 was designed as a high speed, medium range, low level ground attack / recce aircraft. The main design difference between the two being that the SU22 was never intended for carrier operations and from the outset had a limited air-to-air capability. Although its origin can be traced back to the basic SU7 aircraft of the 1950’s, the design was continuously developed emerging as the variable geometry (Swing-wing 30:63) SU17 / 22, the most modern and powerful Warsaw Pact fighter bomber. The NATO code name for the type was “Fitter”.

The design exemplifies two key traits synonymous with Russian military equipment; the twin virtues of Simplicity & Robustness, both in the physical construction of the aircraft as well as its operation. The intent was to have trouble free use under the most demanding operating and environmental conditions combined with ease of maintenance. Both the airframe and the Lyulka AL-21 F-3 engine more than met this challenge!


The SU22M-4 is the final export version of the type and represents the pinnacle in the evolution of the design. It is still widely used in Europe and the Middle East, being broadly compatible to a Tornado GR1 although lacking the latter’s all-weather capability. Like the Tornado it is equipped with a laser range finder designator and terrain following radar and could be equipped with bombs, guided missiles & rockets in addition to the installed twin 30mm canon for the air to surface attack role. Air-to-air threats were countered via rockets, guided missiles and canon in addition to the extensive ECM and chaff / flare systems.

HHA operate one SU22M4, its supersonic capability and ten hardpoints enabling a variety of threat simulation profiles to be flown. Our aircraft is the only one of its type being operated by a civilian company and was acquired from the German Air Force.

Initially delivered on the 26-11-1986 as “629” of the NVA (East German Air Force), it served with 2/ MFG 28 (2nd Squadron, Naval wing 28) at Laage until it was prematurely retired on the 2-10-90 as a result of the collapse of the East German regime.

The German MoD had decided not to keep the SU22 on its inventory, and as a result the East German Squadrons were disbanded and the aircraft was placed in airworthy store under the new squadron code “25+29”. However, the aircraft was still very much a potent strike aircraft in use all over the world, so the German Test and Evaluation Centre (WTD –61) at Manching acquired seven of the type for technological evaluation purposes. Our SU was one of these and became “98+14” with its new owners on 23-9-1991. The aircraft were test flown and maintained by former NVA personnel, with major servicing being undertaken by the Polish aircraft facility WZL-2 at Bydgoszcz. West German pilots and ground crews were rapidly brought up to speed on the type and the evaluation of its systems lasted until September 1998.


After extensive negotiations HHA acquired the aircraft on the 14 January 1999 when it was flown to our maintenance facility at RAF Scampton. When delivered, the aircraft had accrued only 767 flight hours in 743 flights and became the youngest & lowest houred aircraft in our fleet.






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Radziecki czotg tywajacy T-38 M2

Radziecki czotg tywajacy T-38 M2 Military Papercraft



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M2 Light Tank


Type Light tank
Place of origin United States
Specifications
Weight 11.6 tonnes (25,600 lb)
Length 4.43 m (14.53 ft)
Width 2.47 m (8.1 ft)
Height 2.65 m (8.69 ft)
Crew 4 (Commander/gunner, loader, driver, co-driver)
Armor 6 - 25 mm (0.25 - 1.0 in)
Primary
armament 1x 37 mm Gun M5
103 rounds
Secondary
armament 5x .30-06 Browning M1919A4 machine guns
8,470 rounds
Engine Continental W-670-9A, 7 Cylinder
245/220 hp (183/164 kW)
Power/weight hp/tonne
Suspension Vertical Volute Spring Suspension (VVSS)
Operational
range 320 km (199 mi)
Speed 58 km/h (36 mi/h)

The Light Tank M2 was an American pre-World War II light tank that saw use in early battles of the Pacific War. Although only a few saw combat, it was an important development step in the line of US light tanks of World War II.

Development History

As the Light Tank T2E1, the M2 was developed in 1935 by Rock Island Arsenal for the infantry branch of the U.S. Army. The design coming from the earlier T1 and T2 was somewhat inspired by the famous Vickers 6-ton. Its main weapon was one .50 machine gun, installed in a small one-man turret. After only 10 units were delivered, the Infantry branch decided to switch to a twin turret configuration, with a .30 machine gun in the second turret. These early twin-turret tanks were given the nickname "Mae West" by the troops, after the popular movie star. The twin-turret layout was inefficient, but was a common feature of 1930s light tanks derived from the Vickers, such as the Soviet T-26 and Polish 7TP.

Following the Spanish Civil War, the U.S. Army understood it needed better arms and better armored vehicles. The Cavalry branch had already opted for a single, larger turret on its nearly identical M1 Combat Car. By 1940 the twin machine gun turrets were replaced by one larger turret with a 37 mm gun, and armor reached 25 mm. Other upgrades included improved suspension, improved transmission, and better engine cooling.

The Battle of France gave momentum to the US tank program, and in July 1940 work began on a new light tank based on the M2 series. By adding heavier armor and a slightly longer hull, the M3 was created. The early M3 closely resembled the M2A4 and indeed the two types occasionally served in the same units; the easiest recognition feature is the idler wheel. On the M2A4, the idler is raised; on the M3 it trails on the ground, increasing the flotation of the heavier vehicle. In March 1941 light tank production switched to the M3 series.

The M2's importance lies in the sound basis it provided for US M3-series light tanks early in WW2. The M3's high speed and mechanical reliability were legacies of the M2 program.[citation needed]


Employment

By December 1941, the M2A1, M2A2 and M2A3 were used for training only. A few M2A4 saw some combat in the Battle of Guadalcanal with the U.S. Marine Corps and remained in service in some areas of Pacific until 1943.

Britain ordered 100 M2A4s in early 1941. After 36 of them were delivered, the order was canceled in favor of an improved Light Tank M3.

M2A2 "Mae West" on display at Patton Cavalry and Armor Museum, Fort Knox, KY
  • M2A1 (1935).
    • .50 MG in a single turret. 10 units were produced.
  • M2A2 (1935).
    • Twin turrets. Dubbed "Mae West". 239 units produced.
  • M2A3 (1938).
    • Twin turrets, Thicker armor, improved suspension. 72 units produced.
  • M2A4 (1940).
    • Single turret with 37mm gun. Thicker armor. 375 units produced.


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Tuesday, February 10, 2009

SAMOLOT TOWARZYSZACY LUBLIN R-XIII D

SAMOLOT TOWARZYSZACY LUBLIN R-XIII D


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The Lublin R-XIII was the Polish army-cooperation plane (observation and liaison plane), designed in the early-1930s in the Plage i Laśkiewicz factory in Lublin. It was the main army cooperation plane in the Invasion of Poland. Its variant Lublin R-XIV was a military trainer aircraft.



Design and development

In 1927, the Polish aviation authorities announced a contest for an army-cooperation plane (in Polish: samolot towarzyszący, literally: acompanying plane. In Polish doctrine it was a close reconnaissance, observation and liaison aircraft, operating from casual airfields, providing big Army land units with information about the enemy). The PZL state factory proposed the PZL Ł-2, built in a series of 25 aircraft, while private factory Plage i Laśkiewicz in Lublin proposed the Lublin R-X, designed by Jerzy Rudlicki. It was flown on February 1, 1929. Five aircraft were built for the Air Force as R-Xa, and one was built as a long-distance sports plane. The third competitor was the PWS-5t2.

The contest was won by the R-Xa, having the shortest take-off and landing, and good performance, but the factory was ordered to develop design further. At that time, Rudlicki was working upon an unarmed trainer aircraft R-XIV and an observation aircraft R-XV. Both were new designs, basing upon the R-X construction (a trivia is, that number XIII was initially omitted in designations as "unlucky"). In February 1930, the Polish Air Force ordered 15 of R-XIV. The first serial plane was built in June 1930, without an earlier prototype, and all were delivered by July 1931. The R-XIV was a two-seater, parasol wing aircraft, with a 220hp radial engine and fixed landing gear. The crewman sat in open cabs in tandem. The R-XV was not ordered, but the Air Force demanded instead, that two R-XIV should be armed with an observer's machine gun, for testing. Such armed R-XIV, fitted also with other minor modifications, most notably a changed shape of a tail fin, became the first prototype of the army-cooperation plane, that received a designation Lublin R-XIII.

In July 21, 1931, 50 aircraft R-XIII were ordered. The first series of 30 were designated R-XIIIA, the next 20 were R-XIIIB. Both variants differed mostly in a type of a machine gun ring mounting. The first serial R-XIII was built on June 7, 1932. By March 11, 1933, all were given to the Air Force.

In 1932, next 170 aircraft were ordered. 48 were built in R-XIIIC variant with minor modifications, then 95 were built in a most numerous R-XIIID variant. It introduced visible changes, like a Townend ring on a radial engine, and a new engine cowling. It also had new type of a machine gun ring mounting. The first R-XIIID was tested in February, 1933. All aircraft were given to the Air Force by March 2, 1935. During repairs, older models A, B and C were modified to R-XIIID standard as well.

In 1933, Jerzy Rudlicki proposed a new design R-XXI, for a new contest for R-XIII successor, but it was not accepted (the contest was won by the RWD-14 Czapla). However, some of R-XXI features, like higher and rounded in cross-section fuselage and changed shape of a tail fin, were found in latest R-XIII variants. Single prototype of the R-XIIIE was built in 1934, fitted with a stronger 360hp engine Gnome-Rhone 7K Titan, but it was not produced. Another variant R-XIIIF introduced new, Polish-designed 340hp engine Skoda G-1620A Mors-I. It had no Townend ring on cylinders of the radial engine. After one prototype (no. 56.101), a series of 50 R-XIIIF were ordered in 1934. After 7 aircraft had been delivered, the Polish aviation authorities refused to buy nearly-completed further 18 aircraft, planning to nationalize all aviation industry in Poland. As a result, Plage i Laśkiewicz factory went bankrupt in late 1935, and it was next nationalized under a name LWS (Lubelska Wytwórnia Samolotów - Lublin Aircraft Works). Then, 18 R-XIIIF, bought by scrap price, were completed, and next series of 32 was built. All R-XIIIF were delivered to the Air Force by 1938. However, only 26 of them were completed with Mors engines (and mostly used for training or staff liaison), while 32 had standard 220hp Wright engines, lowering their performance to R-XIIID level.

In 1931, one R-XIV was tested on floats, as a seaplane. Since tests came out well, the Polish Navy designated it R-XIII bis/hydro and ordered the next three (nos. 700-703). In 1933, the Navy ordered 10 R-XIII ter/hydro, which was a seaplane variant of R-XIIID (nos. 704-713). Finally, in 1934 the Navy bought 6 R-XIIIG seaplanes, differing in details from a previous variant - among others, a metal propeller (nos. 714-720). They were delivered by April 1935. All variants could also be easily converted to wheeled landing gear.

In 1933, one R-XIIIB was converted to a long-distance sport plane R-XIIIDr, named Błękitny Ptak (the Blue Bird), meant for a flight to Australia, however it was crashed in 1935 in Siam by Stanisław Karpiński. Several aircraft were converted to civilian sport ones, used in aeroclubs.

12 R-XIII's were converted to blind flying trainers R-XIIIt in 1934, with higher closed trainee cab. Some were converted to simple liaison aircraft, removig armament and mounting a windscreen in the second cab. Several R-XIII were used to tow gliders, using a special frame with a hook, attached to a fuselage.

The R-XIII prototype was converted in 1932 to an experimental variant R-XIX, with V-tail of Rudlicki's design, but it was not accepted by the authorities, despite it had better field of machine gun fire.

In total, 15 R-XIV and 273 R-XIII were built, including 20 seaplanes.

Combat use

In the early 1930s the R-XIII was quite a successful plane for its purpose. It had a very short take-off (68 m for R-XIIIA) and landing, enabling it to operate from fields and meadows. However, only some of R-XIIIs were equipped with a radio and a camera, what lowered their usefulness. In 1932-1936 they were used in three-aircraft liaison platoons, being a basic Polish army-cooperation plane. In 1937 they were formed into army-cooperation escadres (eskadra towarzysząca), in 1939 reformed into observation escadres (eskadra obserwacyjna). Only in 1939, part of R-XIII were replaced by the RWD-14b Czapla, which was not much more modern. A planned replacement was a modern LWS-3 Mewa, but it was not introduced due to war outbreak.

In the Invasion of Poland in 1939, the Polish Air Force had about 150 R-XIII. Of them, 49 were in combat units, 30 in reserve, about 30 in training units and about 40 in repairs. In combat units, R-XIII were used in 7 observation escadres (out of 12): numbers 16, 26, 36, 43, 46, 56 and 66. Each escadre had 7 aircraft. The 16th Escadre was in C-in-C reserve, while the others were distributed among the field Armies. The R-XIII was no match for any of Luftwaffe fighters, bombers or even reconnaissance aircraft, being much slower, and armed with only one machine gun, but they were actively used for close reconnaissance and liaison tasks.

About 40 R-XIII of combat units were destroyed during the campaign, but only part of them were shot down by the German aircraft or flak. During the campaign, 9 aircraft were given to observation escadres as replenishment. Some planes were also used in a wartime improvised units in air bases. About 10 combat aircraft and 7 from other units were withdrawn to Romania. A number of aircraft were bombed by the Germans in air bases or burned by withdrawing Poles. None have survived to today.

In the Naval Air Squadron, 11 R-XIIIter and R-XIIIG floatplanes were used in 1939. One of them made a night bombing raid on Danzig on September 7, searching in vain for Schleswig-Holstein. On September 8 all planes were bombed, while stationed on the sea near Hel on Hel Peninsula.

Variants

  • R-XIII prototype (conversion of R-XIV, no. 56.1)
  • R-XIIIA - army cooperation aircraft, 30 produced from 1931 (nos 56.2-56.31)
  • R-XIIIB - army cooperation aircraft, 20 produced from 1932 (nos 56.32-56.51)
  • R-XIIIC - army cooperation aircraft, 48 produced from 1933 (nos. 56.52-56.99)
  • R-XIIID - standard variant of army cooperation aircraft, 95 produced from 1933 (nos 56.102-56.196)
  • R-XIIIE - one prototype of 1934 with 360hp Gnome-Rhone 7K Titan engine (no. 56.100)
  • R-XIIIF - army cooperation aircraft with modified fuselage, part with 340hp Skoda G-1620A Mors-I engine, 58 produced from 1934 (nos. 56.101, 58.01-58.57)
  • R-XIII bis/hydro - seaplane, 4 produced from 1931 (nos. 700-703)
  • R-XIII ter/hydro - seaplane, 10 produced from 1934 (nos. 704-713)
  • R-XIIIG - seaplane, 6 produced from 1934 (nos. 714-720)
  • R-XIIIDr - long-distance sport conversion, 1 made (no. 56.51)
  • R-XIIIt - trainer conversion, at least 12 made
  • R-XIV - trainer, 15 produced from 1930 (nos. 54.1-54.15)
  • R-XV - army cooperation variant of R-XIV, not built
  • R-XIX - one prototype with V-tail of 1932 (no. 56.1)
  • R-XXIII - This was the original designation of the R-XIIIDr.

Description

Mixed construction (steel and wood) plane, conventional in layout, with braced high-wings, canvas and plywood covered (front part of a fuselage was metal covered). Conventional fixed landing gear, with a rear skid. Crew of two, sitting in tandem in an open cockpit, with twin controls. The observer had a 7.7 mm Vickers K or Lewis machine gun on a ring mounting (rarely 2 machine guns). The aircraft could be fitted with racks for small bombs 12–25 kg. A 9 cylinder air-cooled radial engine Wright Whirlwind J-5 (produced in Poland) with 162 kW (220 hp) nominal power and 176 kW (240 hp) take-off power (on 22 aircraft R-XIIIF, 250 kW (340 hp) engine Skoda G-1620A Mors-I). Two-blade wooden or metal propeller. Fuel tank 200 liters in the fuselage, could be dropped in case of fire emergency (R-XIV - 135 liter tank).

Operators

Specifications (R-XIIID)

General characteristics

  • Crew: 2 - Pilot and observer
  • Length: 8.5m ()
  • Wingspan: 13.2m ()
  • Height: 2.8m ()
  • Wing area: 24.50m2 ()
  • Empty weight: 956kg (2,108lb)
  • Loaded weight: 1332kg (2,930lb)
  • Powerplant:Wright Whirlwind J-5 9-cylinder radial engine, 162kW (220hp)

Performance



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Monday, February 9, 2009

Historyczny zaglowiec Mayflower

Historyczny zaglowiec Mayflower


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The Mayflower was the famous ship that transported the English Separatists, better known as the Pilgrims, from Southampton, England, to Plymouth, Massachusetts (which would become the capital of Plymouth Colony), in 1620.[1]

The vessel left England on September 6 (Old Style)/September 16 (New Style),[2] and after a gruelling 66-day journey marked by disease, which claimed two lives, the ship dropped anchor inside the hook tip of Cape Cod (Provincetown Harbor) on November 11/November 21.[1] The Mayflower was originally destined for the mouth of the Hudson River, near present-day New York City, at the northern edge of England's Virginia colony, which itself was established with the 1607 Jamestown Settlement.[3] However, the Mayflower went off course as the winter approached, and remained in Cape Cod Bay. On March 21/28, 1621, all surviving passengers, who had inhabited the ship during the winter, moved ashore at Plymouth, and on April 5/15, the Mayflower, a privately commissioned vessel, returned to England.[1] In 1623, a year after the death of captain Christopher Jones, the Mayflower was most likely dismantled for scrap lumber in Rotherhithe, London.[4]



The Mayflower has a famous place in American history as a symbol of early European colonization of the future US. With their religion oppressed by the English Church and government,[5] the small party of religious separatists who comprised about half of the passengers on the ship desired a life where they could practice their religion freely. This symbol of religious freedom resonates in US society and the story of the Mayflower is a staple of any American history textbook. Americans whose roots are traceable back to New England often believe themselves to be descended from Mayflower passengers.

The main record for the voyage of the Mayflower and the disposition of the Plymouth Colony comes from William Bradford who was a guiding force and later the governor of the colony.

Ship

The Mayflower was used primarily as a cargo ship, involved in active trade of goods (often wine) between England and other European countries,[6][7] (principally France, but also Norway, Germany, and Spain). At least between 1609 and 1622, it was mastered by Christopher Jones, who would command the ship on the famous transatlantic voyage, and based in Rotherhithe, London, England.[1] After the famous voyage of the Mayflower, the ship returned to England, likely dismantled for scrap lumber in Rotherhithe in 1623, only a year after Jones's death in March 1622. The Mayflower Barn, just outside the Quaker village of Jordans, in Buckinghamshire, England, is said to be built from these timbers, but this is likely apocryphal.[8]

Details of the ship's dimensions are unknown; but estimates based on its load weight and the typical size of 180-ton merchant ships of its day suggest an estimated length of 90–110 feet (27.4–33.5 m) and a width of about 25 feet (7.6 m).[6]

The ship probably had a crew of twenty-five to thirty,[7] along with other hired personnel; however, only the names of five are known, including John Alden.[7] William Bradford, who penned our only account of the Mayflower voyage, wrote that John Alden "was hired for a cooper [barrel-maker], at South-Hampton, where the ship victuled; and being a hopefull yong man, was much desired, but left to his owne liking to go or stay when he came here; but he stayed, and maryed here."[9]


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Sunday, February 8, 2009

DOWODCA LIBERATORA

DOWODCA LIBERATORA Military Papercraft


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"B-24" redirects here. For other meanings, see B24.
B-24 Liberator
U.S. Army Air Forces Consolidated B-24D Liberator over Maxwell Field, Alabama.
Role Heavy bomber
Manufacturer Consolidated Aircraft
Designed by Isaac M. Laddon
First flight 29 December 1939
Introduced 1941
Retired 1945
Primary users United States Army Air Forces
United States Navy
Royal Air Force
Royal Canadian Air Force
Produced 1940-1945
Number built 18,482
Unit cost $297,627[1]
Variants PB4Y Privateer
XB-41
C-87 Liberator Express
Consolidated R2Y
Consolidated Liberator I


The Consolidated B-24 Liberator was an American heavy bomber, built by Consolidated Aircraft. It was produced in greater numbers than any other American combat aircraft of World War II and still holds the record as the most produced U.S. military aircraft. It was used by many Allied air forces and every U.S. branch of service during the war, attaining a distinguished war record with its operations in the northern European, Pacific and Mediterranean theaters.

Often compared to the better known B-17 Flying Fortress, the B-24 was a more modern design with a higher top speed and greater range yet it had a similar bomb load and defensive armament. Nevertheless, popular opinion among aircrews and general staff tended to favor the B-17's rugged qualities above all other considerations.[2] The B-24 was notorious among American air crews for its tendency to catch fire. The placement of the B-24's fuel tanks throughout the upper fuselage and its lightweight construction, designed both to increase range and optimize assembly line production, made the aircraft vulnerable to battle damage.[3] The B-24 was more difficult to fly as well, with heavy control forces and poor formation flying characteristics. The B-24 nevertheless provided excellent service in a variety of roles thanks to its large payload and long range.

Development


XB-24 in flight

The Liberator originated from a United States Army Air Corps (USAAC) request in 1938 for Consolidated to produce the B-17 under license. This was part of "Project A", a program to expand American industrial capacity for production of the key components of air power.[4] After company executives including President Reuben Fleet visited the Boeing factory in Seattle, Consolidated decided instead to submit a more modern design of its own.[5] In January 1939, the USAAC, under Specification C-212, formally invited Consolidated [6] to submit a design study for a bomber with greater range, higher speed, and greater ceiling than the B-17.

The contract for a prototype was awarded in March 1939, with the requirement that a prototype be ready before the end of the year. The design was simple in concept but advanced for its time. Compared to the B-17, the proposed Model 32 was shorter and had 25% less wing area, but a six foot (1.8 m) greater wingspan and a substantially greater carrying capacity. Whereas the B-17 used 9-cylinder Wright R-1820 Cyclone engines, the Consolidated design used twin-row, 14-cylinder Pratt & Whitney R-1830 Twin Wasp radials of 1,000 hp (746 kW). The 70,547 lb (32,000 kg) maximum takeoff weight was one of the highest of the period. Consolidated also incorporated innovative features: the new design would be the first American bomber to use tricycle landing gear and it had long, thin wings with the efficient "Davis" high aspect ratio design (also used on the projected Model 31 flying boat)[7] promising to provide maximum fuel efficiency. The aircraft also had a distinctive twin tail and rudder assembly.
YB-24.

Wind tunnel testing and experimental programs using an existing Consolidated Model 31, a twin-engined commercial flying boat, provided extensive data on the flight characteristics of the Davis airfoil.[8]

Consolidated finished the prototype, by then known as the XB-24, and had it ready for its first flight two days before the end of 1939. Seven more YB-24 development aircraft flew in 1940 and Consolidated began preparing production tooling.[9] Early orders—placed before the XB-24 had flown—included 36 for the USAAC, 120 for the French Armée de l'Air and 164 for the Royal Air Force (RAF). Most of the first production B-24s went to Britain, including all those originally ordered by the Armée de l'Air after France collapsed in 1940. The name, "Liberator" was initially assigned by the RAF and subsequently was adopted by the USAAC as the official name for the type.[10]

Design

The B-24's spacious slab-sided fuselage (which earned the aircraft the nickname "Flying Boxcar")[11] was built around a central bomb bay that could accommodate up to 8,000 pounds of bombs. The bomb bay was divided into front and rear compartments and further divided by a central catwalk, which was also the fuselage keel beam. A universal complaint arose over the extremely narrow catwalk. The aircraft was sometimes disparaged as "The Flying Coffin" because the only entry and exit from the bomber was in the rear and it was almost impossible for the flight crew and nose gunner to get from the flight deck to the rear if they were wearing their parachutes. An unusual set of "roller-type" bomb bay doors retracted into the fuselage with a minimum of aerodynamic drag, keeping speed high over the target area.[12]

Like the B-17, the B-24 had an array of .50 caliber machine guns in the tail, belly, top, sides and nose to defend it from attacking enemy fighters. Unlike the B-17, the ball turret could be retracted into the fuselage when not in use.

Operational history

Initial deployment

Doomed B-24 over Europe

Liberator GR Is in British service were the first B-24s to be used operationally. The very first use of a Liberator I in March 1941 was as a long-range transport: it was used to bring U.S. ferry pilots back from the United Kingdom.

The most important role for the first batch of the Liberator GR Is was in service with RAF Coastal Command on anti-submarine patrols in the Battle of the Atlantic.

Later in 1941, the first Liberator IIs entered RAF service. This model introduced self-sealing fuel tanks and powered gun turrets. At the same time, Consolidated added a 2 ft 7 in (79 cm) plug in the forward fuselage to create more space for crew members. The Liberator IIs were divided between Coastal Command, Bomber Command, and BOAC. Two RAF squadrons with Liberators were deployed to the Middle East in early 1942, in the first use of the Liberator as a bomber.[13]

America enters the war


B-24s bomb Ploieşti oil fields in August 1943

The United States Army Air Forces (USAAF) took delivery of their first B-24As in 1941. Like the British, they used them as transports first. American B-24s entered combat in June 1942. On June 6, in the Pacific, four B-24s staging through Midway tried to attack Wake Island (they could not find the target).[14] On 12 June, thirteen B-24s flying from Egypt attacked the Axis-controlled oil fields and refineries around Ploieşti, Romania.

Over the next three years, B-24 squadrons deployed to all theaters of the war: Africa, Europe, India, the Atlantic, and the Pacific. In the Pacific, the B-24 was designated the standard heavy bomber to simplify logistics, replacing the shorter-range B-17.

[edit] Later development and production

Continued development work by Consolidated produced a handful of transitional B-24Cs with turbocharged instead of supercharged engines. The turbocharged engines led to the flattened oval nacelles that distinguished all subsequent Liberator models.

The first mass-produced model was the B-24D (or Liberator III in British service), in service in early 1943. It had turbocharged engines and increased fuel capacity. Three more 0.50 caliber (12.7 mm) machine guns brought the defensive armament up to ten machine guns. At 59,524 lb (27,000 kg) maximum takeoff weight, it was one of the heaviest aircraft in the world; comparable with the British "heavies" the Stirling, Lancaster and Halifax.
B-24s under construction at Ford's Willow Run plant

B-24 production increased at an astonishing rate through 1942 and 1943. Consolidated tripled the size of its plant in San Diego and built a large new plant outside Fort Worth, Texas. More B-24s were built by Douglas in Tulsa, Oklahoma. North American built a plant in Dallas, Texas, which produced B-24Gs and B-24Js. None of these were minor operations, but they were dwarfed by the vast new greenfield factory built by Ford at Willow Run near Detroit, which opened in August 1942 and began mass production in August 1943. This was the largest factory in the United States, and the largest anywhere outside the USSR. It had the largest assembly line in the world (330,000 m² or 3,500,000 ft²) at the time of completion. At its peak Willow Run produced 428 B-24s per month. Many pilots slept on cots at Willow Run while waiting for 'their' B-24s to roll off the assembly line.[15]

Each of the B-24 factories was identified with a production code: Consolidated/San Diego, CO; Consolidated/Fort Worth, CF; Ford/Willow Run, FO; North American, NT; and Douglas/Tulsa, DT.

In 1943, the model of Liberator considered by many the "definitive" version was introduced. The B-24H was 10 inches (25 cm) longer, had a powered gun turret in the nose to reduce vulnerability to head-on attack and was fitted with an improved bomb sight, autopilot and fuel transfer system. Consolidated, Douglas and Ford all manufactured the B-24H, while North American made the slightly different B-24G. All five plants switched over to the almost identical B-24J in August 1943. The later B-24L and B-24M were lighter weight versions and differed mainly in defensive weaponry.
WASP pilots (left to right) Eloise Huffines Bailey, Millie Davidson Dalrymple, Elizabeth McKethan Magid, Clara Jo Marsh Stember. In the background, a B-24.

As the war continued, the complexity of servicing the B-24 grew greater and greater. The B-24s made by the different companies were slightly different, so repair depots had to stock many different parts to support various B-24 models. Fortunately, this problem was eased in the summer of 1944, when North American, Douglas, and Consolidated/Fort Worth stopped making B-24s, leaving only the Consolidated plant in San Diego and the Ford plant in Willow Run.

In all, 18,482 B-24s were built by September 1945. Twelve thousand saw service with the USAAF. The U.S. Navy operated about 1,000 PB4Y-1s and almost 800 PB4Y-2 Privateers, which were derived from the B-24. The Royal Air Force flew about 2,100 B-24s in 46 bomber groups and 41 squadrons, the Royal Canadian Air Force 1,200 B-24Js, and the Royal Australian Air Force (RAAF) 287 B-24Js, B-24Ls and B-24Ms. (Liberators were the only heavy bomber used by the RAAF in the Pacific.) Two squadrons of the South African Air Force deployed in the Mediterranean flew B-24s.

[edit] Strategic bombing

The B-24 was one of the workhorse bombers of the U.S. Eighth Air Force in the Combined Bomber Offensive against Germany. Thousands of B-24s, flying from bases in England, dropped hundreds of thousands of tons of bombs and incendiaries on German military, civilian and industrial targets.

B-24s of the Ninth Air Force, operating from Africa and Italy, and the Fifteenth Air Force, operating from Italy, also took a major role in strategic bombing. 13 of the Fifteenth AF's 18 bombardment groups flew B-24s.

The first B-24 lost over German territory occurred on 26 February 1943. By a cruel twist of fate there had been eleven men aboard the aircraft. For some time newspapers had been requesting permission for a reporter to go on one of the missions, and on this date Robert B. Post, and five other reporters of the The New York Times were granted permission. Mr Post was the only reporter assigned to a B-24 equipped group, the 44th Bomb Group, and flew in the B-24 41-23777 Maisey on Mission No. 37 to Bremen. Intercepted just short of the target the B-24 came under attack from JG 1s Messerschmitt Bf 109s. Leutnant Heinz Knoke (who finished the war with 31 kills) shot down the Liberator, only two of the 11 men survived. Neither was Post. Knoke reported:

The fire spread out along the right wing. The inboard propeller windmilled to a stop. And then, suddenly, the whole wing broke off. At an altitude of 900 metres there was a tremendous explosion. The bomber had disintegrated. The blazing wreckage landed just outside Bad Zwischenahn airfield[16]

A total of 178 B-24s carried out the famous second attack on Ploieşti, Operation Tidal Wave, on 1 August 1943.

RAF Bomber Command did not use B-24s as bombers over Europe. No. 223 Squadron RAF, one of Bomber Command’s 100 (Bomber Support) Group squadrons, used twenty Liberator VIs to carry electronic jamming equipment to counter German radar.

[edit] Other Roles

The B-24's long operating range made it suitable for other duties including maritime patrol, anti-submarine patrol, reconnaissance, tanker, cargo hauler, and personnel transport. Winston Churchill used a refurbished Liberator II as his personal transport aircraft.

[edit] Operation Carpetbagger

Between August 1943 until the end of the war in Europe, specially modified B-24Ds were used in classified missions. A joint venture between the Army Air Force and the Office of Strategic Services (OSS) code named "Operation Carpetbagger", pilots and crews flew the specially modified B-24Ds painted with a glossy black anti-searchlight paint to supply friendly underground forces throughout German occupied Europe. They also flew C-47s, A-26 Invaders, and British De Havilland Mosquitos. They flew spies called "Joes" and commando groups prior to the Allied invasion of Europe on D-Day and afterwards and retrieved over 5,000 officers and enlisted men who had escaped capture after being shot down. The low altitude, night-time operation was extremely dangerous and took its toll on these airmen. The first aircrews chosen for this operarion came from the anti-submarine bomb groups because of their special training in low altitude flying and pinpoint navigation skills. Also, because of their special skills, they were called upon to fly fuel to Patton when he outran his fuel supply. When this mission was completed, it was recorded that 822,791 gallons of 80 octane gasoline had been delivered to three different airfields in France and Belgium..[17]

[edit] Maritime Patrol
B-24 Very Long Range Liberators at the Consolidated-Vultee Plant, Fort Worth, Texas in the foreground with the dark green and white paint scheme. To the rear of this front line are C-87 "Liberator Express Transports" in various assembly stages.

The B-24 made a massive contribution to Allied victory in the Battle of the Atlantic against German U-boats. The decision to allocate some Liberator Is to Coastal Command in 1941 produced immediate results. The Very Long Range (VLR) Liberators "almost doubled the reach of Britain's maritime reconnaissance force". [18] This added range enabled Coastal Command patrols to cover the Mid-Atlantic gap, where U-boats had operated with near impunity. [19]

For twelve months, No. 120 Squadron RAF of Coastal Command, with its handful of much patched and modified early model Liberators, supplied the only air cover for convoys in the Atlantic Gap.

The Liberator was the only aircraft with the range for this. The VLR Liberators sacrificed some armor and often some gun turrets to save weight while adding extra fuel in bomb bay tanks. Liberator Is were equipped with ASV Mark II radar. Radar and the Leigh light gave them the ability to hunt U-boats by day and night.

They were operated from both sides of the Atlantic with the RCAF to the west and the RAF from the UK and Iceland. This role was dangerous, especially after many U-boats were armed with extra Flak guns and adopted a policy of staying on the surface to fight.

The sudden and decisive turning of the Battle of the Atlantic in the Allies' favor in May 1943 was the result of many factors. However, it was no accident that it coincided with the long delayed arrival of many more VLR Liberators for maritime patrol. Liberators were credited in full or part with 72 U-boat kills.

In addition to very long range patrols, the B-24 was vital for patrols of a radius less than 1,000 miles (1,600 km), in both the Atlantic and in the Pacific where B-24s and PB4Y-1s took a heavy toll of Japanese shipping. A total of 977 USN PB4Y-1s were used in the Pacific Theater in VB and VPB squadrons.

See also: PB4Y Privateer

[edit] Transport

Early model Liberators were used as unarmed long-range cargo carriers. They flew between Britain and Egypt (with an extensive detour around Spain over the Atlantic) and were used in the evacuation of Java. Liberator IIs were converted for this role and used by the British Overseas Airways Corporation (BOAC) for trans-Atlantic service and other assorted long-range transport duties. This variant was designated LB-30A by the USAAF.[10]

In early 1942, a B-24 Liberator damaged in an accident was converted into a cargo transport aircraft by elimination of the transparent nose and installation of a flat cargo floor. In April 1942, the C-87 Liberator Express transport version entered production at Fort Worth. The C-87 had a large cargo door, less powerful supercharged engines, no gun turrets, a floor in the bomb bay for freight and side windows. The navigator's position was relocated behind the pilot. Early versions were fitted with a single .50 Browning machine gun in the tail, and a few C-87s were also equipped with two .50 fixed machine guns in the nose, operable by the pilot, though these were also eventually eliminated. A more elaborate VIP transport, the C-87A, was also built in small numbers.

The C-87 was also designated the RY-2 or Liberator Cargo VII. The U.S. only made about 300 C-87s but they were nevertheless the backbone of the Army Air Force’s heavy transport operation. The C-87 flew in many theaters, including much hazardous duty in flights from Labrador to Greenland and Iceland in the North Atlantic. The aircraft proved extremely vulnerable to icing conditions, and was prone to fall into a spin with even small amounts of ice collected on the Davis wing.

In the China Burma India Theater (CBI), the C-87 was used to transport cargo and fuel over the Hump from India to China. The C-87 was not popular with either the military or the civilian transport crews assigned to fly them. The aircraft had a distressing habit of losing all cockpit electrical power on takeoff and landings, while engine power and reliability with the less-powerful superchargers often left much to be desired. The plane was designed as a bomber that dropped its loads while airborne. So the C-87's nose gear was not designed for landing with heavy loads, and frequently collapsed from the strain. Fuel leaks from the transport's hastily-modified fuel system were a common occurrence. In his autobiography, Fate is the Hunter, author Ernest K. Gann reported, while flying cargo in India, he barely avoided crashing a severely overloaded C-87 into the Taj Mahal. As Douglas C-54 transports became available, the C-87 was rapidly phased out of service.

The USAAF also converted 218 B-24Ds and B-24Es into C-109 tankers. These tankers were used in all theaters but they were most heavily employed transporting fuel in the CBI theater. C-109s flew from India to B-29 bases in China. With all armor and military equipment removed to save weight, a C-109 could carry almost 2,905 gal (11,000 L) of fuel, over 22,000 lb (10,000 kg). However, while a combat-loaded B-24 could safely take off with room to spare from a 6,000-foot (1,800 m) runway, a loaded C-109 required every foot of such a runway to break ground, and crashes were not uncommon. With its forward fuel tank filled to capacity, the C-109 tanker version proved to be longitudinally unstable while airborne as well.

The B-24 was also used heavily in the Pacific after the war to transport cargo and supplies during the rebuilding of Japan, China, and the Philippines.

In addition, a large number of unmodified B-24s were pressed into transport duties. Qantas Empire Airways used Liberators on the Perth-Colombo route, at the time the longest non-stop route in the world at 3,580 miles, until they were replaced by Avro Lancastrians.

[edit] Variants and conversions

[edit] U.S. Army Air Force Variants

XB-24 (Consolidated Model 32)
Designed in 1938 as an improvement on the B-17 Flying Fortress, at the request of the Army Air Corps. It had a wing specially designed for a high aspect ratio, tricycle landing gear, and twin vertical stabilizers. The XB-24 was ordered in 1939 March, and first flew on 29 December 1939. (Total: one)
YB-24/LB-30A Preproduction prototypes
Six examples were sent to Great Britain under lend-lease, under the designation LB-30A.
B-24
Service test version of the XB-24, ordered on 27 April 1939, less than 30 days after the XB-24 was ordered, before the XB-24 design was complete. A number of minor modifications were made: elimination of leading edge slots, addition of de-icing boots. (Total: seven; only one used for actual testing)

B-24 ex-"Diamond Lil" from the Commemorative Air Force collection. Airframe returned to B-24A configuration and renamed "Ol 927".[20]

B-24A/LB-30B
Ordered in 1939, the B-24A was the first production model. Due to the need for heavy bombers, the B-24A was ordered before any version of the B-24 flew. The main improvement over the XB-24 was improved aerodynamics, which led to better performance. Some sent to Great Britain under Lend Lease as LB-30B. (Total: 38,20 LB-30Bs, nine B-24Cs)
XB-24B
When the XB-24 failed to reach its projected top speed, the Pratt & Whitney R-1830-33 radials rated at 1,000 hp (746 kW) it carried were replaced with R-1830-41 turbo-supercharged radials rated at 1,200 hp (895 kW), increasing its top speed by 37 mph (59 km/h). The addition of the turbo-superchargers made the engine cowlings elliptical. The XB-24B version also lacked the engine slots of the original. (Total: one converted XB-24)
B-24C
Conversion of the B-24A using turbo-supercharged R-1830-41 engines. To hold the supercharger and the intercooler intake, the cowlings were made elliptical and the new items added on the sides. The tail air gunner position was improved by adding an Emerson A-6 power turret with twin .50-caliber (12.7 mm) machine guns; a Martin power turret was added to the forward fuselage. (Total: nine converted B-24As)

B-24D Liberator flight in formation.

B-24D
First model produced on a large scale; ordered from 1940 to 1942, as a B-24C with better engines (R-1830-43 supercharged engines). During the production run, the tunnel gun in the belly was replaced by a remote-sited Bendix belly turret; this was later replaced by a Sperry ball turret. In late B-24Ds, 'cheek' guns were added. (Total: 2696, 2381 Consolidated, San Diego; 305 Consolidated, Fort Worth, ten Douglas, Tulsa, Oklahoma). One famous B-24D was the Lady Be Good which was a basis for the TV movie Sole Survivor (1970 film).
B-24E
A slight alteration of the B-24D built by Ford, using R-1830-65 engines. Unlike the B-24D, the B-24E retained the tunnel gun in the belly. The USAAF used the B-24Es primarily as training aircraft since this model was not current in armaments and other technology as the aircraft being produced by Consolidated / San Diego (CO). Ford also built sub-assemblies for Douglas; these sub-assemblies were identical to Ford-built B-24Es, except that they used the same engines as the B-24D (R-1830-43 radials). These sub-assemblies were called PK ships and were shipped by truck from Willow Run to the final assembly in Tulsa, Oklahoma. (Total: 801)
XB-24F
A prototype made to test thermal de-icers, instead of the standard inflatable rubber "boots." (Total: one converted B-24D)
B-24G
Sperry ball turret, three .50 caliber- (12.7 mm) machine guns in nose. All B-24Gs were built by North American Aviation, which was contracted in 1942. (Total: 25)
B-24G-1
Modified Emerson A-6 tail turret in nose instead of two- three .50 caliber (12.7 mm) machine guns in earlier models. The B-24G-1 was based on the design of the B-24H (Total: 405)
B-24H
Because of obvious vulnerability of the B-24 to head-on attack, the B-24H design made by Ford used a nose turret, generally a modified Emerson A-6 tail turret. The entire aircraft was redesigned to better fit the turret; 50 airframe changes were made, including a redesigned bombardier compartment. The tail turret was given larger windows for better visibility, the top turret a higher bubble, and the waist gunner positions were offset, to reduce their interference during battle. (Total: 3100)

Consolidated B-24J-55-CO Liberator, Serial number 42-99949 belonged to 93rd BG, 328th BS; lost 21 September 1944 over Belgium.

B-24J
The B-24J was very similar to the B-24H, although the defensive improvements made in the B-24H were not incorporated in the B-24J. The B-24J featured an improved autopilot (type C-1) and a bombsight of the M-1 series. B-24H sub-assemblies made by Ford and constructed by other companies and any model with a C-1 or M-1 retrofit, were all designated B-24Js. (Total: 6678)
XB-24K
An experimental aircraft, made by Ford by splicing a B-23 Dragon tail empennage onto a B-24D airframe. The aircraft was more stable and had better handling than other models, but changing the B-24 design was too expensive to do at the time. However, the XB-24K was the ancestor of the Navy's PB4Y-1. (Total: one converted B-24D)
B-24L
Because of the immense weight of the B-24J, the Army pushed for a lighter version. In the B-24L, the ball turret was replaced by a floor ring mount with two .50 caliber (12.7 mm) machine guns, and the A-6B tail turret by an M-6A. In later aircraft, no tail armament was installed, and when it arrived at its airfield, either an A-6B, an M-6A, or a dual-mount manual .50-caliber (12.7 mm) gun was field-installed. (Total: 1667)
B-24M
An enhancement of the B-24L with further weight-saving devices. The B-24M used a more lightweight version of the A-6B tail turret; the waist gunner positions were left open. For better visibility, the windshield was replaced by a "knife-edge" dual pane versions. The B-24M became the last production model of the B-24; a number of the B-24s built flew only the course between the factory and the scrap heap. (Total: 2593)
XB-24N
A redesign of the B-24J, made to accommodate a single tail. It also featured improved nose and tail turrets. While 5168 B-24Ns were ordered, World War II ended and there was no longer any need for them. (Total: one)
YB-24N
Pre-production service test version of the XB-24N. (Total: seven)
XB-24P
A modified B-24D, made by Sperry Gyroscope Company to test airborne fire control systems. (Total: one converted B-24D)
XB-24Q
A General Electric conversion of the B-24L, using radar-controlled tail turrets. (Total: one converted B-24L).
XB-41
Because there were no fighters capable of escorting bomber formations on deep strike missions early in World War II, the Army authorized tests for heavily armed bombers to act as escorts for bombing missions. It was completed in 1942. The results of 1943 testing were very negative and the project was quickly cancelled. Performance changed drastically with the addition of more turrets. The escorts were also unable to keep up with bomber formations once the bombs had been dropped.
The XB-41 had 14, .50-caliber (12.7 mm) machine guns, through the addition of a Bendix chin turret and a dorsal Martin power turret on the mid-fuselage. (Total: one converted B-24D)
AT-22 or TB-24
C-87 used for flight engineer training.

* ;RB-24L: Developed for training B-29 gunners on an identical remote gun system installed on a B-24L.
* ;TB-24L: As with the RB-24L, but with additional radar equipment.

Experimental B-24J with B-17 nose section, containing chin turret, grafted on; modification not adopted for production.

C-87 Liberator Express
Passenger transports with accommodation for 20 passengers.

* ;C-87A: VIP transports with R-1830-45 instead of -43 engines and sleep accommodations for 16 passengers.
* ;C-87B: Projected armed transport variant with nose guns, dorsal turret, and ventral tunnel gun; never produced.
* ;C-87C: U.S. Army Air Force/Air Force designation for the RY-3.

XC-109/C-109
Tankers with specialized equipment to help prevent explosions, used to ferry fuel from India to China to support initial B-29 raids against Japan.
XF-7
Photographic reconnaissance variant developed from the B-24D.
F-7
Photographic reconnaissance variant developed from the B-24H; -FO block.
F-7A
Photographic reconnaissance variant developed from the B-24J; three cameras in the nose and three in the bomb bay.
F-7B
Photographic reconnaissance variant developed from the B-24J; six cameras in the bomb bay.

[edit] U.S. Navy nomenclature and sub-variants

PB4Y-1
B-24D with different nose turret for U.S. Navy. Designation later applied to all G, J, L and M models received by the U.S. Navy.[21]

* ;PB4Y-1P: Photographic reconnaissance variant developed from the PB4Y-1.

PB4Y-2 Privateer
See Main Article
RY-1
U.S. Navy designation for the C-87A.
RY-2
U.S. Navy designation for the C-87.
RY-3
Transport variant of the PB4Y-2.

[edit] British nomenclature and sub-variants
Rare color photograph of an LB-30A (YB-24) in RAF service

Liberator B Mk I
B-24A (Total: 20), direct purchase aircraft for the RAF. Consider unsuitable for combat, some rebuilt as the GR.1 and used in British anti-submarine patrol squadrons.
Liberator B Mk II
The first combat ready B-24. The modifications included a three foot nose extension as well as a deeper aft fuselage and wider tailplane–there was no direct B-24 equivalent but similar to the B-24C - built to meet British specifications with British equipment and armament. A small series of B Mk IIs were reconstructed as unarmed transports, designated the LB-30 with the USAAF. (Total production: 165)
Liberator B Mk III
B-24D variant with single .303 Browning machine gun in the nose, two in each beam position, and four in a Boulton Paul tail turret - similar to that on contemporay British heavy bombers such as the Lancaster - as well as other British equipment. The Martin dorsal turret was retained. (Total: 156)

* ;Liberator B Mk IIIA: Lend-Lease B-24Ds with American equipment and weapons.

Liberator B Mk IV
Reserved for the B-24E, but there is no record of the RAF actually receiving any.
Liberator B Mk V
B-24D modified for extra fuel capacity at the cost or armor, with the same armament fit as the Liberator Mk III.
Liberator B Mk VI
B-24Hs in RAF service fitted with Boulton Paul tail turrets, but retaining the rest of their armament.
Liberator B Mk VIII
RAF designation for B-24Js.
Liberator GR Mk V
B-24D modified by RAF Coastal Command for the anti-submarine role with search radar and Leigh Light. Some were fitted with eight zero-length rocket launchers, four on each wing.
Liberator GR Mk VI
B-24G/H/J type used as a long-range general reconnaissance aircraft by RAF Coastal Command.
Liberator GR Mk VIII
B-24J modified by RAF Coastal Command for the anti-submarine role.
Liberator C Mk VI
Liberator B Mk VIII converted for use as a transport.
Liberator C Mk VII
British designation for C-87.
Liberator C Mk VIII
Liberator G Mk VIII converted for use as a transport.
Liberator C Mk IX
RAF designation for the RY-3/C-87C



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RADZIECKI SAMOLOT BOMBOVY IL-4

Military Papercraft

RADZIECKI SAMOLOT BOMBOVY IL-4


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typu KRONSZTAD

typu KRONSZTAD Paper Model


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Samolot akrobacyjny RWD-10

Samolot akrobacyjny RWD-10 Paper Model


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Samolot akrobacyjny
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Skocz do: nawigacji, szukaj

Samolot akrobacyjny - samolot, który dzięki swoim cechom konstrukcyjno-pilotażowym może wykonywać akrobację lotniczą i jest dopuszczony do wykonywania bądź tylko określonych figur akrobacji bądź do akrobacji pełnej (wszystkie figury akrobacji).

Samolot przeznaczony do wykonywania akrobacji z figurami generującymi jedynie przeciążenia dodatnie są zwane czasem samolotami półakrobacyjnymi, zaś te, które dopuszczają zakres przeciążeń od -10g do +12g - samolotami akrobacji pełnej (wyczynowej).

Zasadnicze cechy konstrukcyjne to:

* zwarta konstrukcja (małe momenty bezwładności)
* konstrukcja wytrzymała na przeciążenia zarówno dodatnie jak i ujemne
* duże powierzchnie sterowe warunkujące doskonałą sterowność
* stosunkowo małe obciążenie mocy (silnik o dość wysokiej mocy)

Zasadnicze cechy pilotażowe to:

* duża czułość sterów, szybka reakcja na sterowanie
* małe siły na sterach (znaczne odciążenie sterów)
* stosunkowo mała stateczność


The RWD-10 was a Polish aerobatics sports plane, single-seat parasol wing monoplane, used from 1933 to 1939 by the Polish aviation, constructed by the RWD team.

Development

The aircraft was designed as a single-seater aerobatic sports plane, that could also be used as a trainer for fighter aircraft pilots. The main designer was Jerzy Drzewiecki of the RWD construction team in the DWL (Doświadczalne Warsztaty Lotnicze) workshops. Its silhouette was similar to the RWD-8. The first prototype (registration SP-ALC), was flown in July 1933 by Drzewiecki. Its stability was not satisfactory, but after modifications, including lengthening a fuselage, it appeared a successful design and it completed state trials in 1935. In a mock dogfight with the PZL P.11c fighter, the RWD-10 kept on the P.11's tail. The first public aerobatics show of the RWD-10 took place during a Gordon Bennett Cup in ballooning in September 14-15, 1935 in Warsaw.

In 1936, a series of 20 aircraft was ordered by the LOPP paramilitary organization, funded by a public collection for aviation development. They were built in 1937 and then distributed among the Polish regional aero clubs - most (5) for Warsaw Aero Club. In 1938, another two were built. In total, approximately 22 serial RWD-10s were produced.

Three aircraft were crashed before the war, the rest were probably destroyed during the Invasion of Poland in 1939.

[edit] Description

Mixed construction single-engine single-seat braced high-wing (parasol wing) monoplane, conventional in layout. Fuselage of a steel frame, covered with canvas on a wooden frame, in aluminum in engine section. Straight double-trapezoid two-part wing, of wooden construction, covered with canvas and plywood in front, two-spar. The wing was supported by a central pyramid and twin struts. Wooden construction cantilever empennage, covered with plywood (stabilizers) and canvas (rudder and elevators). A pilot in an open cockpit, had a windshield. Conventional fixed landing gear, with a rear skid. Four-cylinder air-cooled inverted straight engine PZInż. Junior (licence built Walter Junior) with 82 kW (110 hp) nominal power and 90 kW (120 hp) take-off power. Two-blade wooden propeller Szomański, of a fixed pitch. Fuel tank in the fuselage: 54 l (fuel consumption 25 l/h).

[edit] Specifications (RWD-10)

Data from Glass, A. (1977)

General characteristics

* Crew: One, pilot
* Length: 6.2 m (20 ft 4 in)
* Wingspan: 7.5 m (24 ft 7 in)
* Height: 1.9 m (6 ft 3 in)
* Wing area: 9 m² (96.65 ft²)
* Empty weight: 350 kg (770 lb)
* Loaded weight: 475 kg (1,050 lb)
* Useful load: 125 kg (lb)
* Powerplant: 1× PZInż. Junior 4-cylinder air-cooled inverted straight engine, 120 hp (90 kW)

Performance

* Maximum speed: 218 km/h (135 mph)
* Cruise speed: 180 km/h (mph)
* Stall speed: 95 km/h (mph)
* Range: 360 km (224 mi)
* Service ceiling 6,000 m (19,680 ft)
* Rate of climb: 6.2 m/s, 372 m/min (1,220 ft/min)
* Wing loading: 53 kg/m² (10.9 lb/ft²)
* Take-off: 70 m
* Landing: 100 m

[edit] See also

Comparable aircraft

* Focke-Wulf Fw 56

[edit] References

* Glass, Andrzej: "Polskie konstrukcje lotnicze 1893-1939" (Polish aviation constructions 1893-1939), WKiŁ, Warsaw 1977, p. 308-311 (Polish)



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Friday, February 6, 2009

HARVARD MK-IIB

HARVARD MK-IIB Paper Model


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This article is about the first T-6 Texan. For the newer Beech aircraft, see T-6 Texan II.
T-6 Texan/SNJ/Harvard
Role Trainer aircraft
Manufacturer North American Aviation
First flight 1 April 1935
Number built 15,495
Variants CAC Wirraway

The T-6 Texan was a single-engine advanced trainer aircraft designed by North American Aviation, used to train fighter pilots of the United States Army Air Forces, United States Navy, Royal Air Force and other air forces of the British Commonwealth during World War II. The T-6 is known by a variety of designations depending on the model and operating air force. The USAAC called it the "AT-6", the US Navy, the "SNJ", and British Commonwealth air forces, the Harvard. It remains a popular warbird aircraft.



Development
Harvard under restoration exposing internal structure
WAVES washing a SNJ at NAS Jacksonville.
A SNJ-5 variant flying in an airshow in 2004.
RNZAF North American Harvards at Onerahi Aerodrome, near Whangarei, New Zealand in 1961.

The T-6 originated from the North American NA-16 prototype (first flown on April 1, 1935) which, modified as the NA-26, was submitted as an entry for a USAAC "Basic Combat" aircraft competition in March, 1937. The first model went in to production and 180 were supplied to the USAAC as the BC-1 and 400 to the RAF as the Harvard I. The US Navy received 16 modified aircraft, designated the SNJ-1, and a further 61 as the SNJ-2 with a different engine.

A further 92 BC-1A and three BC-2 aircraft were built before the shift to the "advanced trainer" designation, AT-6, which was equivalent to the BC-1A. The differences between the AT-6 and the BC-1 were new outer wing panels with a swept forward trailing edge, squared-off wingtips and a triangular rudder, producing the definitive Texan appearance. After a change to the rear of the canopy, the AT-6 was designated the Harvard II for RAF/RCAF orders and 1,173 were supplied by purchase or Lend Lease, mostly operating in Canada as part of the Empire Air Training Scheme.







Next came the AT-6A which was based on the NA-77 design and was powered by the Pratt & Whitney R-1340-49 Wasp radial engine. The USAAF received 1,549 and the US Navy 270 (as the SNJ-3). The AT-6B was built for gunnery training and could mount a .30 in machine gun on the forward fuselage. It utilised the R-1340-AN-1 engine which was to become the standard for the remaining T-6 production. Canada's Noorduyn Aviation built a R-1340-AN-1 powered version of the AT-6A which was supplied to the USAAF as the AT-16 (1,500 aircraft) and the RAF/RCAF as the Harvard IIB (2,485 aircraft), some of which also served with the Fleet Air Arm and Royal Canadian Navy.

In late 1937 Mitsubushi purchased two NA-16's as technology demonstrators and possibly a licence to build more. However the aircraft developed by Watanabe/Kyushu as the K10W1 (Allied code name Oak) bore no more than a superficial resemblance to the North American design. It featured a full monocoque fuselage as opposed to the steel tube fuselage of the T-6 and NA-16 family of aircraft, as well as being of smaller dimensions overall and had no design details in common with the T-6. It was used in very small numbers by the Imperial Japanese Navy from 1942 onwards. The IJA did not operate any, as they had other aircraft that they used for training. After the war the Japanese Air Self Defense Force operated Texans.

The NA-88 design resulted in 2,970 AT-6C Texans and 2,400 as the SNJ-4. The RAF received 726 of the AT-6C as the Harvard IIA. Modifications to the electrical system produced the AT-6D (3,713 produced) and SNJ-5 (1,357 produced). The AT-6D, redesignated the Harvard III, was supplied to the RAF (351 aircraft) and Fleet Air Arm (564 aircraft). Subsequently the NA-121 design with a completely clear rearmost section on the canopy, gave rise to 25 AT-6F Texans for the USAAF and 931, as the SNJ-6 for the US Navy. The ultimate version, the Harvard 4, was produced by Canada Car and Foundry during the 1950s, and supplied to the RCAF, USAF and Bundeswehr.

A total of 15,495 T-6s of all variants were built.

Operational history

During the Korean War and to a lesser extent, the Vietnam war, T-6s were pressed into service as forward air control aircraft. These aircraft were designated T-6 "Mosquito"s.[1] The RAF used the Harvard in Kenya against the Mau Mau in the 1950s where they operated with 20 lb bombs and machine guns against the gangs. Some operations took place at altitudes around 20,000 ft asl. A Harvard was the longest-serving RAF aeroplane, with an example, taken on strength in 1945, still serving in the 1990s (as a chase plane for helicopter test flights - a role the Shorts Tucano's high stall speed was ill-suited for). The T-6G was also used in a light attack or counter insurgency role by France during the Algerian war in special Escadrilles d'Aviation Légère d'Appui (EALA), armed with machine guns, bombs and rockets. At its peak there were 38 EALA's active. The largest unit was the Groupe d'Aviation Légère d'Appui 72, which consisted of up to 21 EALAs. Portugal also used ex-French aircraft during the Portuguese Colonial War.

Since the Second World War, the T-6 has been a regular participant at air shows, and was used in many movies. For example, in Tora! Tora! Tora! and The Final Countdown, converted single-seat T-6s painted in Japanese markings represent Mitsubishi Zeroes. The New Zealand Warbirds "Roaring 40s" aerobatic team use ex-Royal New Zealand Air Force Harvards. The Reno National Air Races also has a class specifically for the T-6 during the National Air Races each year.


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HMS DIDO

HMS DIDO Paper Model


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HMS Dido was the name ship of her class of light cruisers for the Royal Navy. She was built by Cammell Laird Shipyard (Birkenhead, UK), with the keel being laid down on 26 October 1937. She was launched on 18 July 1939 and commissioned 30 September 1940.



History

After working up was completed early November 1940, Dido became a member of the 15th cruiser squadron deployed in blockading the approaches to the Bay of Biscay. This duty was designed to prevent raids by the German heavy cruiser Admiral Scheer. In March 1941 she provided cover for the successful commando raid on the Lofoten Islands (Operation Claymore).


A 20 mm Oerlikon gunner on board HMS Dido getting a light from a pal between bombing attacks in the eastern Mediterranean

Mediterranean

In April 1941, Dido was transferred to the Mediterranean, to reinforce the fleet based at Alexandria. During May she was involved in escorting convoys from Alexandria to Malta. On the 29th of that month, Dido and the cruiser HMS Orion were both badly damaged by German bombs after embarking troops from Sphakia and Heraklian in Crete. In June, she was a member of Rear Admiral Halifax's force. Halifax was Senior Officer Red Sea Force, tasked to capture the port of Asseb, and his fleet consisted of a transport ship, an armed merchant cruiser, and two Indian sloops. On the morning of 11 June, whilst still under cover of darkness, two motor boats, each carrying 30 men of the Punjab Regiment, went into the harbour under an umbrella of air bombardment, and the broadside from Dido.
A 20 mm Oerlikon gunner on board HMS Dido getting a light from a pal between bombing attacks in the eastern Mediterranean

The troops landed without a shot being fired at them, in fact two Italian Generals were captured in their pyjamas, by 0600 the Task Force entered Asseb, this was the last Italian occupied harbour in the Red Sea. In July 1941, the cruiser entered the Simonstown dockyard in South Africa for repairs, and was docked in the Selborne dry dock. After this she retired to Durban for more extensive repairs. On 15 August 1941 she set sail for the USA, and was refitted at the Brooklyn Navy Yard. By December 1941, the cruiser was back in the Mediterranean, where she was involved in escorting convoys from Alexandria to Malta.

During January-February 1942, Dido was escorting, and also used as a covering force for the Malta bound convoys. In March, Dido and her sister HMS Euryalus and six destroyers shelled the Island of Rhodes, on the 20th, Dido was employed as convoy escort to the commissioned auxiliary supply ship HMS Breconshire loaded with 5,000 tons of precious fuel, the SS Clan Campbell, the bomb damaged ship of the previous convoy, the Pampas and the Norwegian ship Talabot, fully loaded with ammunition. Getting this convoy through to Malta was afterwards referred to as the Second Battle of Sirte. Admiral Vian was in command of the operation. Of the total of 26,000 tons of stores carried by the four ships only 5,000 tons finally reached Malta.


Photograph taken from the destroyer USS MacKenzie during the successful bombardment of enemy batteries, dumps, and roads to the west of Gaeta, Italy carried out by HMS Dido in support of the army.


On 19 July 1942, Dido along with her sister ship HMS Euryalus and the destroyers HMS Jervis, HMS Javelin, HMS Pakenham and HMS Paladin shelled Mersa Matruh.

18 August 1942 Captain H. W. U. McCall brought Dido to Massawa for major repairs to a bomb-damaged stern. Because Dido was at that time one-quarter of British surface power in the Eastern Mediterranean it was critical that she be repaired as quickly as possible. The only working drydock in Massawa wasn't large enough to lift Dido entirely so she was partially floated up to clear the stern, leaving the bow low in the water. Six days later Dido was undocked to return to battle alongside her three sister ships, Euryalus, Cleopatra and Sirius. [2]

On 19 September, HMS Dido and once again the destroyers HMS Jervis, HMS Javelin, HMS Pakenham and HMS Paladin bombarded the Daba area in Egypt. In November 1942, HMS Dido, HMS Arethusa, HMS Euryalus and ten destroyers, proceeded from Alexandria to Malta with a supply convoy, despite many heavy German air attacks, the convoy of four supply ships reached Malta. With this the Island was regarded as relieved.
Photograph taken from the destroyer USS MacKenzie during the successful bombardment of enemy batteries, dumps, and roads to the west of Gaeta, Italy carried out by HMS Dido in support of the army.

In April 1943, Dido was based at Algiers but she left later for the UK for a much needed refit. In July she was back in the Mediterranean where she was part of the Reserve Covering Force for the Allied invasion of Sicily. During August she carried out the shelling of bridges in the Gulf of Eufemia in Calabria, in support of the 8th Army in Sicily. In September she was involved in the landing of the 1st British Airborne Division in Taranto.

[edit] Arctic

During January-March 1944, Dido was tasked in providing the support for the troops being landed at Anzio. During May-June, she bombarded targets in the Gulf of Gaeta, in support of the army. In August 1944, she supplied the fire support to the Allied landings on the French Mediterranean coast, between Cannes and Toulon. In October, she was sent up to the Arctic Ocean area to escort the convoys to Russia. During November, off Norway, Dido provided carrier escort for HMS Implacable which attacked a southbound German convoy in the Mosjoen area, north of the island of Namsos. In May 1945 Europe, Dido set sail for Copenhagen, where the German cruisers Prinz Eugen and Nürnberg lay surrendered, she escorted them to Wilhelmshaven.

During March-August 1946, Dido retained her fifth 5,25 inch turret in Q position while undergoing her refit. Although modern, this class of cruiser was regarded as being too cramped and insufficiently stable to receive new equipment. In September 1946, she joined the 2nd Cruiser Squadron. In October 1947, the cruiser was placed in reserve in the Gareloch. In 1951 Dido was moved to the Portsmouth Reserve Fleet. In November 1956 Dido and her sister ship HMS Cleopatra, which formed the Reserve Fleet flagship group, were replaced by the battleship HMS Vanguard. On 16 July 1958 Dido was broken up by Thomas W. Ward Ltd. at Barrow-in-Furness, Cumbria, England.

Dido’s badge can be seen displayed on the Selborne dry dock wall at Simonstown, South Africa.



Career (UK) Royal Navy Ensign
Class and type: Dido-class light cruiser
Name: HMS Dido
Builder: Cammell Laird Shipyard (Birkenhead, UK)
Laid down: 26 October 1937
Launched: 18 July 1939
Commissioned: 30 September 1940
Out of service: October 1947
Reclassified: In reserve at Gareloch between 1947 to 1951) and at Portsmouth between 1951 to 1958
Fate: Scrapped, Arrived at Thomas W Ward Ltd, Barrow-in-Furness UK on 18 July 1957.
General characteristics
Displacement: 5,600 tons standard
6,850 tons full load
Length: 485 ft (148 m) pp
512 ft (156 m) oa
Beam: 50.5 ft (15.4 m)
Draught: 14 ft (4.3 m)
Propulsion: Parsons geared turbines
Four shafts
Four Admiralty 3-drum boilers
62,000 shp (46 MW)
Speed: 32.25 knots (60 km/h)
Range: 2,414 km (1,500 miles) at 30 knots
6,824 km (4,240 miles) at 16 knots
1,100 tons fuel oil
Complement: 480
Sensors and
processing systems: Type 281 RADAR from September 1940[1]
Armament: Original configuration:
8x 5.25 in (133 mm) dual guns,
1x 4.0 in (102 mm) gun,
2x 0.5 in MG quadruple guns,
3x 2 pdr (37 mm/40 mm) pom-poms quad guns,
2x 21 in (533 mm) triple Torpedo Tubes. 1941 - 1943 configuration:
10x 5.25 in (133 mm) dual guns,
5x 20 mm (0.8 in) single guns,
3x 2 pdr (37 mm/40 mm) pom-poms quad guns,
2x 21 in (533 mm) triple Torpedo Tubes. 1943 - 1945 configuration:
10x 5.25 in (133 mm) dual guns,
2x 20 mm (0.8 in) single guns,
4x 20 mm (0.8 in) dual guns,
3x 2 pdr (37 mm/40 mm) pom-poms quad guns,
2x 21 in (533 mm) triple Torpedo Tubes.
Armor: Original configuration:
Belt: 3inch,
Deck: 1inch,
Magazines: 2inch,
Bulkheads: 1inch.
Notes: Pennant number 37



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PZL-130 ORLIK

PZL-130 ORLIK Paper Model


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The PZL 130 Orlik (Spotted Eagle) is a Polish turboprop, single engine, two seat trainer.

Development
PZL-130 Orlik TC-I of Orlik Aerobatic Team


The Orlik was designed by PZL Warszawa-Okecie as a trainer for the Polish Air Force. It was also designed to meet the American FAR 23 standard. The project was under the supervision of Andrzej Frydrychewicz, head engineer of PZL Warszawa-Okecie. The aircraft was originally designed with the Russian Vedeneyev M-14Pm piston engine but, since PZL-130 was thought to have some attributes of a jet plane, it was replaced by a turboprop engine. The first prototype Orlik flew on the 24 October 1984. In 1986 the Turbo Orlik, with a Pratt & Whitney PT6A-25P turboprop engine was flown for the first time. It was later equipped with the Czech-built Walter M-601E turboprop engine.


Variants
PZL 130TC-1 #049

PZL-130 Orlik
The original aircraft with one Vedeneyev M-14Pm piston engine
PZL-130T Turbo Orlik
Variant with a Pratt & Whitney Canada PT6A-25P turboprop engine
PZL-130TM Orlik
Variant with a Walter M601E turboprop engine
PZL-130TB Orlik
Variant with a Walter M601T turboprop engine
PZL-130TC I Orlik
Variant with added Martin-Baker Mk.11, 0-0 class ejection seats and modernized avionics
PZL-130TC II Orlik
Variant with Pratt & Whitney Canada PT6A-25C turboprop, added winglets, modernized avionics and changed tutor's seat position
PZL-130TC III Orlik
Variant with modernized avionics (for example: added Head-Up Display)

Operators

Poland

* Polish Air Force

[edit] Specifications (PZL-130TC II Orlik)

General characteristics

* Crew: 2: student, instructor
* Length: 9.30 m ()
* Wingspan: 10.00 m ()
* Height: 3.53 m ()
* Wing area: 14.56 m² ()
* Empty weight: 1,825 kg ()
* Loaded weight: 2,400 kg ()
* Max takeoff weight: 2,950 kg ()
* Powerplant: 1× Pratt & Whitney Canada PT6A-25C turboprop, 750 hp ()

Performance

* Maximum speed: 501 km/h
* Range: 2,200 km ()


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Niszczyciel ORP PIORUN

Niszczyciel ORP PIORUN Paper Model


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ORP Piorun - niszczyciel brytyjski typu N przekazany Polskiej Marynarce Wojennej w dniu 5 listopada 1940 w zamian za utracony pod Narwikiem niszczyciel ORP Grom. Zbudowany w stoczni John Brown w Clydebank w latach 1939-1940. Podczas wojny nosił oznaczenie taktyczne "G65". Wcześniej HMS Nerissa.

W maju 1941 brał udział w poszukiwaniach niemieckiego pancernika "Bismarck", podczas których wsławił się odnalezieniem "Bismarcka" i nawiązaniem z nim kontaktu bojowego w nocy 26 maja 1941. Około jednej godziny, od 22.37 do 23.50 polski okręt manewrował w zasięgu widzialności pancernika, który go niecelnie ostrzeliwał. "Piorun" oddał również trzy niecelne salwy, o znaczeniu raczej symbolicznym (nie mogły one wyrządzić poważniejszych szkód). Od września 1941 do początku 1943 brał udział w eskortowaniu konwojów na Oceanie Atlantyckim i Morzu Śródziemnym. Od lipca do listopada 1943 uczestniczył w wielu operacjach u brzegów Sycylii. W czerwcu 1944 brał udział w inwazji w Normandii oraz w bitwach morskich pod Ouessant (9 czerwca) i Jersey (14 czerwca).

Piorun został zwrócony Wielkiej Brytanii w dniu 28 września 1946 roku.

Dowódcy:

* komandor Eugeniusz Pławski
* komandor podporucznik Tadeusz Gorazdowski
* komandor porucznik Stanisław Dzienisiewicz
* komandor podporucznik Jan Tchórznicki
* komandor podporucznik Wszechwład Maracewicz

Załogę okrętu stanowiła w większości uratowana część załogi Groma. Od 12 lutego 1945 r. służył na okręcie por. Mar. Zbigniew Plezia, awansowany na tym okręcie do stopnia kapitana.

ORP Piorun

ORP Piorun po powrocie do Plymouth
Historia
Oddanie do służby 5 listopada 1940
Wycofanie ze służby 1946
Status okrętu złomowany w 1955
Stocznia stocznia John Brown, Clydebank, Wielka Brytania
Wcześniejsza nazwa HMS Nerissa
Następna nazwa HMS Noble
Dane taktyczno-techniczne
Wyporność standardowa - 1773 t
pełna - 2384 t
Długość 112 m
Szerokość 10,7 m
Zanurzenie 3 m
Napęd moc: 40 000 KM
Prędkość 36 węzłów
Załoga 200 marynarzy i oficerów
Uzbrojenie 6 dział 120 mm,
1 działo plot 102 mm,
4 działka plot 40 mm,
2 działka plot 20 mm,
5 wyrzutni torped 533 mm,
4 miotacze bomb głębinowych,
2 wyrzutnie bomb głębinowych


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Tuesday, February 3, 2009

P-38 Lockheed LIGHTNING

P-38 Lockheed LIGHTNING Paper Model


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The Lockheed P-38 Lightning was a World War II American fighter aircraft. Developed to a United States Army Air Corps requirement, the P-38 had distinctive twin booms and a single, central nacelle containing the cockpit and armament. The aircraft was used in a number of different roles including dive bombing, level bombing, ground strafing, photo reconnaissance missions,[4] and extensively as a long-range escort fighter when equipped with drop tanks under its wings. The P-38 was used most successfully in the Pacific Theater of Operations and the China-Burma-India Theater of Operations where it enabled two airmen to achieve the highest-ever per pilot tally of American aerial victories. America's top ace Richard Bong earned 40 victories (in a Lightning he called Marge), and Thomas McGuire (in Pudgy) scored 38. In the South West Pacific theater, the P-38 was the primary long-range fighter of United States Army Air Forces until the appearance of large numbers of P-51D Mustangs toward the end of the war.[5][6]

The P-38 was the only American fighter aircraft in active production throughout the duration of American involvement in the war, from Pearl Harbor to VJ Day.



Design and development
Lockheed YP-38 (1943), one of 13 constructed.

Lockheed designed the P-38 in response to the 1937 United States Army Air Corps Circular Proposal X-608, a request for a high-altitude interceptor aircraft having "the tactical mission of interception and attack of hostile aircraft at high altitude." Specifications called for a maximum airspeed of at least 360 miles per hour (580 km/h) at altitude, and a climb to 20,000 feet (6100 m) within six minutes;[7] the toughest set of specifications USAAC had presented to that date. The Bell P-39 Airacobra and the Curtiss P-40 Warhawk were designed to the same requirement, as was the unbuilt Vultee XP1015.

The Lockheed design team, under the direction of Hall Hibbard and “Kelly” Johnson, considered a range of configurations.[8] All options considered by Lockheed were twin-engined, as it was judged that no single engine available at the time was powerful enough to meet the USAAC's requirements. (Engine development during World War II subsequently saw an approximate doubling of fighter engine horsepower, allowing many later single engine designs to achieve 400+ mph.)

The eventual design was relatively unique in comparison to existing fighter aircraft, with only the Fokker G.1 and later Northrop P-61 Black Widow having a similar planform. The Lockheed team chose twin booms to accommodate the tail assembly, engines, and turbo superchargers, with a central nacelle for the pilot and armament. The nose was designed to carry two Browning .50" (12.7 mm) machine guns, with 200 rounds per gun, two .30" (7.62 mm) Brownings, with 500 rounds per gun, and an Oldsmobile 37 mm cannon with 15 rounds. Clustering all the armament in the nose was unlike most other U.S. aircraft, which used wing-mounted guns, and the trajectories were set up to crisscross at one or more points in a "convergence zone." The nose-mounted guns did not suffer from having their useful ranges limited by pattern convergence, meaning good pilots could shoot much farther. A Lightning could reliably hit targets at any range up to 1,000 yards (910 m), whereas other fighters had to pick a single convergence range between 100 and 250 yards (230 m). The clustered weapons had a "buzz saw" effect on any target at the receiving end, making the aircraft effective for strafing as well.

The Lockheed design incorporated tricycle undercarriage and a bubble canopy, and featured two 1000 hp (746 kW) turbo-supercharged 12-cylinder Allison V-1710 engines fitted with counter-rotating propellers to eliminate the effect of engine torque, with the superchargers positioned behind the engines in the booms.[9] It was the first American fighter to make extensive use of stainless steel and smooth, flush-riveted butt-jointed aluminum skin panels. It was also the first fighter to fly faster than 400 mph (640 km/h).


Lockheed YP-38 (1943), one of 13 constructed.


Lockheed won the competition on 23 June 1937 with its Model 22, and was contracted to build a prototype XP-38[10] for US$163,000,[3] though Lockheed's own costs on the prototype would add up to US$761,000.[11] Construction began in July 1938 and the XP-38 first flew on 27 January 1939.[12] The 11 February 1939 flight to relocate the aircraft for testing at Wright Field was extended by General Henry "Hap" Arnold, commander of the USAAC, to demonstrate the performance of the aircraft. It set a cross-continent speed record by flying from California to New York in seven hours and two minutes,[9] but landed short of the Mitchel Field runway in Hempstead, New York, and was wrecked. However, on the basis of the record flight, the Air Corps ordered 13 YP-38s on 27 April 1939 for US$134,284 apiece.[13][2] (The initial "Y" in "YP" was the USAAC's designation for a "prototype" while the "X" in "XP" was for "experimental".)
Mechanized P-38 conveyor lines.

Manufacture of the YP-38s fell behind schedule, at least partly due to the need for mass-production suitability making them substantially different in construction than the prototype. Another factor was the sudden required facility expansion of Lockheed in Burbank, taking it from a specialized civilian firm dealing with small orders to a large government defense contractor making Venturas, Harpoons, Lodestars, Hudsons, and designing the Constellation airliner for TWA. The first YP-38 was not completed until September 1940, with its maiden flight on 17 September.[14] The 13th and final YP-38 was delivered to the Air Corps in June 1941; 12 aircraft were retained for flight testing and one for destructive stress testing. The YPs were substantially redesigned and differed greatly in detail from the hand-built XP-38. They were lighter, included changes in engine fit, and the propeller rotation was reversed, with the blades rotating outwards (away) from the cockpit at the top of their arc rather than inwards as before. This improved the aircraft's stability as a gunnery platform.[12]
Cockpit view of a P-38G. Note the yoke, rather than the more-usual stick.

Test flights revealed problems initially believed to be tail flutter. During high-speed flight approaching Mach 0.68, especially during dives, the aircraft's tail would begin to shake violently and the nose would tuck under, steepening the dive. Once caught in this dive, the fighter would enter a high-speed compressibility stall and the controls would lock up, leaving the pilot no option but to bail out (if possible) or remain with the aircraft until it got down to denser air, where he might have a chance to pull out. During a test flight in May 1941, USAAC Major Signa Gilkey managed to stay with a YP-38 in a compressibility lockup, riding it out until he recovered gradually using elevator trim.[9] Lockheed engineers were very concerned at this limitation, but first they had to concentrate on filling the current order of aircraft. Sixty-five Lightnings were finished by September 1941, and more were on the way.

By November 1941, many of the initial assembly line challenges had been met and there was some breathing room for the engineering team to tackle the problem of frozen controls in a dive. Lockheed had a few ideas for tests that would help them find an answer. The first solution tried was the fitting of spring-loaded servo tabs on the elevator trailing edge; tabs that were designed to aid the pilot when control yoke forces rose over 30 pounds, as would be expected in a high-speed dive. At that point, the tabs would begin to multiply the effort of the pilot's actions. The expert test pilot, 43-year-old[15] Ralph Virden, was given a specific high-altitude test sequence to follow, and was told to restrict his speed and fast maneuvering in denser air at low altitudes since the new mechanism could exert tremendous leverage under those conditions. A note was taped to the instrument panel of the prototype, underscoring this instruction. On 4 November 1941, Virden climbed into YP-38 #1 and completed the test sequence successfully, but 15 minutes later was seen in a steep dive followed by a high-G pullout. The tail unit of the aircraft failed at about 3,000 ft (910 m) during the high-speed dive recovery; Virden was killed in the subsequent crash. The Lockheed design office was justifiably upset, but their design engineers could only conclude that servo tabs were not the solution for loss of control in a dive. Lockheed still had to find the problem; the Army Air Corps was sure it was flutter, and ordered Lockheed to look more closely at the tail.


P-38 at sunset.

Although the P-38's empennage was completely skinned in aluminum (not fabric) and was quite rigid, in 1941, flutter was a familiar engineering problem related to a too-flexible tail. At no time did the P-38 suffer from true flutter.[16] To prove a point, one elevator and its vertical stabilizers were skinned with metal 63% thicker than standard, but the increase in rigidity made no difference in vibration. Army Lt. Colonel Kenneth B. Wolfe (head of Army Production Engineering) asked Lockheed to try external mass balances above and below the elevator, though the P-38 already had large mass balances elegantly placed within each vertical stabilizer. Various configurations of external mass balances were equipped and dangerously steep test flights flown to document their performance. Explaining to Wolfe in Report No. 2414, Kelly Johnson wrote " ... the violence of the vibration was unchanged and the diving tendency was naturally the same for all conditions."[17] The external mass balances did not help at all. Nonetheless, at Wolfe's insistence, the additional external balances were a feature of every P-38 built from then on.[18]
P-38 pilot training manual compressibility chart shows speed limit vs. altitude.

After months of pushing NACA to provide Mach 0.75 wind tunnel speeds (and finally succeeding), the compressibility problem was revealed to be the center of lift moving back toward the tail when in high-speed airflow. The compressibility problem was solved by changing the geometry of the wing's underside when diving so as to keep lift within bounds of the top of the wing. In February 1943, quick-acting dive flaps were tried and proven by Lockheed test pilots. The dive flaps were installed outboard of the engine nacelles and in action they extended downward 35° in 1½ seconds. The flaps did not act as a speed brake, they affected the center of pressure distribution so that the wing would not lose its lift.[19] Late in 1943, a few hundred dive flap field modification kits were assembled to give North African, European and Pacific P-38s a chance to withstand compressibility and expand their combat tactics. Unfortunately, these crucial flaps did not always reach their destination. In March 1944, 200 dive flap kits intended for European Theater of Operations (ETO) P-38Js were destroyed in a mistaken identification incident in which an RAF fighter shot down the Douglas C-54 Skymaster bringing the shipment to England. Back in Burbank, P-38Js coming off the assembly line in spring 1944 were towed out to the tarmac and modified in the open air. The flaps were finally incorporated into the production line in June 1944 on the last 210 P-38Js. The delay in bringing the dive flap and its freedom of tactical maneuver to the fighting pilot was far too lengthy. Of all Lightnings built, only the final 50% would have the dive flaps installed as an assembly line sequence.


Cockpit view of a P-38G. Note the yoke, rather than the more-usual stick.



Johnson later recalled:
“ I broke an ulcer over compressibility on the P-38 because we flew into a speed range where no one had ever been before, and we had difficulty convincing people that it wasn't the funny-looking airplane itself, but a fundamental physical problem. We found out what happened when the Lightning shed its tail and we worked during the whole war to get 15 more knots [28 km/h] of speed out of the P-38. We saw compressibility as a brick wall for a long time. Then we learned how to get through it.[20] ”

Buffeting was another early aerodynamic problem, difficult to sort out from compressibility as both were reported by test pilots as "tail shake". Buffeting came about from airflow disturbances ahead of the tail; the airplane would shake at high speed. Leading edge wing slots were tried as were combinations of filleting between the wing, cockpit and engine nacelles. Air tunnel test number 15 solved the buffeting completely and its fillet solution was fitted to every subsequent P-38 airframe. Fillet kits were sent out to every squadron flying Lightnings. The problem was traced to a 40% increase in air speed at the wing-fuselage junction where the chord/thickness ratio was highest. An airspeed of 500 mph (800 km/h) at 25,000 ft (7,600 m) could push airflow at the wing-fuselage junction close to the speed of sound. Filleting forever solved the buffeting problem for the P-38E and later models.[16]

Another issue with the P-38 arose from its unique design feature of outwardly rotating counter-rotating propellers. Losing one of two engines in any twin engine non-centerline thrust aircraft on takeoff creates sudden drag, yawing the nose toward the dead engine and rolling the wingtip down on the side of the dead engine. Normal training in flying twin-engine aircraft when losing an engine on takeoff would be to push the remaining engine to full throttle; if a pilot did that in the P-38, regardless of which engine had failed, the resulting engine torque and p-factor force produced a sudden uncontrollable yawing roll and the aircraft would flip over and slam into the ground. Eventually, procedures were taught to allow a pilot to deal with the situation by reducing power on the running engine, feathering the prop on the dead engine, and then increasing power gradually until the aircraft was in stable flight. Single-engine takeoffs were possible, though not with a maximum combat load.[21]

The engine sounds were a unique, rather quiet "whuffle", because the exhausts were muffled by the General Electric turbosuperchargers on the twin Allison V12s. There were early problems with cockpit temperature regulation; pilots were often too hot in the tropic sun as the canopy could not be fully opened without severe buffeting, and were often too cold in northern Europe and at high altitude, as the distance of the engines from the cockpit prevented easy heat transfer. Later variants received modifications (such as electrically-heated flight suits) to solve these problems.
P-38 at sunset.

On 20 September 1939, before the YP-38s had been built and flight tested, the USAAF ordered 66 initial production P-38 Lightnings, 30 of which were delivered to the USAAF in mid-1941, but not all these aircraft were armed. The unarmed aircraft were subsequently fitted with four .50s (instead of the two .50 and two .30 of their predecessors) and a 37 mm cannon. They also had armor glass, cockpit armor and fluorescent cockpit controls.[22] One was completed with a pressurized cabin on an experimental basis and designated XP-38A.[23] Due to reports the USAAF was receiving from Europe, the remaining 36 in the batch were upgraded with small improvements such as self-sealing fuel tanks and enhanced armor protection to make them combat-capable. The USAAF specified that these 36 aircraft were to be designated P-38D. As a result, there never were any P-38Bs or P-38Cs. The P-38D's main role was to work out bugs and give the USAAF experience with handling the type.[24]

In March 1940, the French and the British ordered a total of 667 P-38s, designated Model 322F for the French and Model 322B for the British. The aircraft would be a variant of the P-38E, without turbo-supercharging (due to a U.S. government export prohibition), and twin right-handed engines instead of counter-rotating, for commonality with the large numbers of Curtiss P-40 Tomahawks both nations had on order. After the fall of France in June 1940, the British took over the entire order and re-christened the plane Lightning I. Three were delivered in March 1942 and, after discovering, without superchargers, at low altitude and when using lower-octane British aircraft fuel, they had a maximum speed of 300 miles per hour (480 km/h) and poor handling characteristics, the entire order was canceled. The remaining 140 Lightning I's were completed for the USAAF with counter-rotating engines but still minus turbo-superchargers. Most were relegated to United States Army Air Forces training units under the designation RP-322.[25] These aircraft helped the USAAF train new pilots to fly a powerful and complex new fighter. A few Model 322 aircraft were later used as test modification platforms such as for smoke-laying canisters and dual air-dropped torpedoes. The RP-322 was a fairly fast aircraft (some of the fastest post-war racing P-38s were virtually identical in layout to the P-322-II)[26] at low altitude and well suited as a trainer. The other positive result of the failed British/French order was to give the aircraft its name. Lockheed had originally dubbed the aircraft Atalanta in the company tradition of naming planes after mythological and celestial figures, but the RAF name won out.

[edit] Operational service
P-38s deck-loaded on CVE, ready for shipment, cocooned against salt, at New York.

The first unit to receive P-38s was the 1st Fighter Group. After the attack on Pearl Harbor, the unit joined the 14th Pursuit Group in San Diego to provide West Coast defense.[27]

[edit] Entry to the war

The first Lightning to see active service was the F-4 version, a P-38E in which the guns were replaced by four K17 cameras.[28] They joined the 8th Photographic Squadron out of Australia on 4 April 1942.[12] Three F-4s were operated by the Royal Australian Air Force in this theater for a short period beginning in September 1942.

On 29 May 1942, 25 P-38s began operating in the Aleutian Islands in Alaska. The fighter's long range made it well-suited to the campaign over the almost 1,200 mile (2,000 km)–long island chain, and it would be flown there for the rest of the war. The Aleutians were one of the most rugged environments available for testing the new aircraft under combat conditions. More Lightnings were lost due to severe weather and other conditions than enemy action, and there were cases where Lightning pilots, mesmerized by flying for hours over gray seas under gray skies, simply flew into the water. On 9 August 1942, two P-38Es of the 343rd Fighter Group, Eleventh Air Force, at the end of a 1,000 mile (1,600 km) long-range patrol, happened upon a pair of Japanese Kawanishi H6K "Mavis" flying boats and destroyed them,[12] making them the first Japanese aircraft to be shot down by Lightnings.

[edit] European theater
P-38 participating in the Normandy campaign as evidenced by the D-Day invasion stripes.

After the Battle of Midway, the USAAF began redeploying fighter groups to Britain as part of Operation Bolero, and Lightnings of the 1st Fighter Group were flown across the Atlantic via Iceland. On 14 August, 2nd Lieutenant Elza Shahan of the 27th Fighter Squadron, and 2nd Lieutenant Joseph Shaffer of the 33rd Squadron operating out of Iceland shot down a Focke-Wulf Fw 200 Condor over the Atlantic. Shahan in his P-38F downed the Condor; Shaffer, flying either a P-40C or a P-39, had already set an engine on fire.[29] This was the first Luftwaffe aircraft destroyed by the USAAF.[30]

P-38 Lightnings had a number of lucky escapes, exemplified by the arrival of the 71st fighter squadron at Goxhill (Lincolnshire, England) in July 1942. The official handover ceremony was scheduled for mid-August, but on the day before the ceremony, Goxhill experienced its only air raid of the war. A single German bomber flew overhead and dropped a very well aimed bomb right on the intersection between the two newly concreted runways, but it didn’t explode and the aircraft were able to continue their mission. (As it turned out, the bomb could not be removed and, for the duration of the war, aircraft had to pass over it every time they took off.)

After 347 sorties with no enemy contact, the 1st, 14th and 82nd Fighter Groups were transferred to the 12th Air Force in North Africa as part of the force being built up for Operation Torch. On 19 November 1942, Lightnings escorted B-17s on a raid over Tunis. On 5 April 1943, 26 P-38Fs of the 82nd destroyed 31 enemy aircraft, helping to establish air superiority in the area, and earning it the German nickname "der Gabelschwanzteufel" – the Fork-Tailed Devil.[27] The P-38 remained active in the Mediterranean for the rest of the war. It was in this theatre that the P-38 suffered its heaviest losses in the air. On 25 August 1943, 13 P-38s were shot down in a single sortie by Jagdgeschwader 53 Bf 109s without achieving a single kill.[31] On 2 September ten P-38s were shot down, in return for a single kill, the 67-victory ace Franz Schiess (who was also the leading "Lightning" killer in the Luftwaffe with 17 destroyed).[31]

Experiences over Germany had shown a need for long-range escort fighters to protect the Eighth Air Force's heavy bomber operations. The P-38Hs of the 55th Fighter Group were transferred to the Eighth in England in September 1943, and were joined by the 20th, 364th and 479th Fighter Groups soon after.
P-38s of the 370th Fighter Group

A little-known role of the P-38 in the European theater was that of fighter-bomber during the invasion of Normandy and the Allied advance across France into Germany. Assigned to the IX Tactical Air Command, the 370th Fighter Group and its P-38s initially flew missions from England, dive-bombing radar installations, enemy armor, troop concentrations, and flak towers.[32] The 370th's group commander Howard F. Nichols and a squadron of his P-38 Lightnings blasted Field Marshal von Kluge's headquarters in July 1944; the group commander himself skipped a 500-pound bomb right through the front door.[33] Later, the 370th operated from Cardonville France, flying ground attack missions hitting gun emplacements, troops, supply dumps, and tanks near St Lo in July and in the Falaise-Argentan area in August 1944.[34] The 370th participated in ground attack missions across Europe until February 1945, when the unit was transitioned to the P-51 Mustang.

In the Mediterranean Theater, Italian pilots started to face P-38s from late 1942 and considered the type a formidable foe even compared to other lethal fighters including the Supermarine Spitfire. A small number of P-38s fell into the hands of German and Italian units and were subsequently tested and used in combat. Regia Aeronautica chief test pilot Lieutenant Colonel Angelo Tondi used a P-38, possibly an "E" variant, that landed in Sardinia due to a navigational error. Tondi claimed at least one B-24, downed on 11 August 1943. The P-38 eventually was acquired by Italy for postwar service.

Overall, the P-38 performed well in the ETO, though the aircraft suffered regular engine failures in the first months of deployment due to overheating. Many of the aircraft's problems were resolved with the introduction of the P-38J; however, by September 1944, all but one of the Lightning groups in the Eighth Air Force had converted to the P-51. The Eighth AF continued to successfully conduct reconnaissance missions using the F-5 variant.[27]

[edit] Pacific theater
Col. MacDonald and Al Nelson in the Pacific with MacDonald's P-38J.

The P-38 was used most extensively and successfully in the Pacific theater, where it proved ideally suited, combining excellent performance with very long range. The P-38 was used in a variety of roles, especially escorting bombers at altitudes between 18-25,000ft. The P-38 was credited with destroying more Japanese aircraft than any other USAAF fighter.[2] Freezing cockpits were not a problem at low altitude in the tropics. In fact, since there was no way to open a window while in flight as it caused buffeting by setting up turbulence through the tailplane, it was often too hot; pilots taking low altitude assignments would often fly stripped down to shorts, tennis shoes, and parachute. While the P-38 could not out-maneuver the Mitsubishi Zero and most other Japanese fighters, its speed and rate of climb gave American pilots the option of choosing to fight or run, and its focused firepower was even more deadly to lightly-armored Japanese warplanes than to the Germans'. The concentrated, parallel stream of bullets allowed aerial victory at much longer distances than fighters carrying wing guns. It is therefore ironic that Dick Bong, the United States' highest scoring World War II air ace (40 victories solely in P-38s), would fly directly at his targets to make sure he hit them (as he himself acknowledged his poor shooting ability), in some cases flying through the debris of his target (and on one occasion colliding with an enemy aircraft which was claimed as a "probable" victory). The twin Allison engines performed admirably in the Pacific.

On 2-4 March 1943, P-38s flew top cover for Fifth Air Force and Australian bombers and attack-planes during the Battle of the Bismarck Sea, a crushing defeat for the Japanese. Two P-38 aces from the 39th Fighter Squadron were killed on the second day of the battle: Bob Faurot and Hoyt "Curley" Eason (a veteran with five victories who had trained hundreds of pilots, including Dick Bong).

General George C. Kenney, commander of the USAAF Fifth Air Force operating in New Guinea, could not get enough P-38s, though since they were replacing serviceable but inadequate P-39s and P-40s, this might seem like guarded praise. Lightning pilots began to compete in racking up scores against Japanese aircraft.

[edit] Isoroku Yamamoto

Main article: Death of Isoroku Yamamoto

The Lightning figured in one of the most significant operations in the Pacific theater: the interception, on 18 April 1943, of Admiral Isoroku Yamamoto, the architect of Japan's naval strategy in the Pacific including the attack on Pearl Harbor. When American codebreakers found out that he was flying to Bougainville Island to conduct a front-line inspection, 16 P-38G Lightnings were sent on a long-range fighter-intercept mission, flying 435 mi (700 km) from Guadalcanal at heights from 10-50 ft (3-15 m) above the ocean to avoid detection. The Lightnings met Yamamoto's two Mitsubishi G4M "Betty" fast bomber transports and six escorting Zeros just as they arrived. The first Betty crashed in the jungle and the second ditched near the coast. Two Zeros were also claimed by the American fighters with the loss of one P-38. Japanese searchers found Yamamoto's body at the jungle crash site the next day.[35]

[edit] Service record
Pilot and aircraft armorer inspect ammunition for the central 20 mm cannon

The P-38's service record shows mixed results, but usually because of misinformation. P-38s have been described as being harder to fly than single-engined planes, but this was because of inadequate training in the first few months of the war. The P-38's engine troubles at high altitudes only occurred with the Eighth Air Force. One reason for this was the inadequate cooling systems of the G and H models; the improved P-38 J and L had tremendous success flying out of Italy into Germany at all altitudes.[27] Up until the -J-25 variant, P-38s were easily avoided by German fighters because of the lack of dive flaps to counter compressibility in dives. German fighter pilots not wishing to fight would perform the first half of a Split S and continue into steep dives because they knew the Lightnings would be reluctant to follow.

On the positive side, having two engines was a built-in insurance policy. Many pilots made it safely back to base after having an engine fail en route or in combat. On March 3, 1944, the first Allied fighters reached Berlin on a frustrated escort mission. Lt. Col. Jack Jenkins of 55FG led the group of P-38H pilots, arriving with only half his force after flak damage and engine trouble took their toll. On the way in to Berlin, Jenkins reported one rough-running engine and one good one, causing him to wonder if he'd ever make it back. The B-17s he was supposed to escort never showed up, having turned back at Hamburg. Jenkins and his wingman were able to drop tanks and outrun enemy fighters to return home with three good engines between them.[36]
P-38J-10-LO, 42-68008, flying over Southern California.

In the ETO, P-38s made 130,000 sorties with a loss of 1.3% overall, comparing favorably with ETO P-51s which posted a 1.1% loss, considering that the P-38s were vastly outnumbered and suffered from poorly thought-out tactics. The majority of the P-38 sorties were made in the period prior to Allied air superiority in Europe when pilots fought against a very determined and skilled enemy.[37] Lt. Colonel Mark Hubbard, a vocal critic of the aircraft, rated it third best Allied fighter in Europe.[38] The Lightning's greatest virtues were long range, heavy payload, high speed, fast climb, and concentrated firepower. The P-38 was a formidable interceptor and attack aircraft and, in the hands of any pilot, dangerous in air-to-air combat.

In the Pacific theater, the P-38 downed over 1,800 Japanese aircraft, with more than 100 pilots becoming aces by downing five or more enemy.[35] American fuel supplies contributed to a better engine performance and maintenance record, and range was increased with leaner mixtures. In the second half of 1944, the P-38L pilots out of Dutch New Guinea were flying 950 miles (1,530 km), fighting for 15 minutes and returning to base.[39] Such long legs were invaluable until the P-47N and P-51D entered service.

[edit] Postwar operations

The end of the war left the USAAF with thousands of P-38s rendered obsolete by the jet age. One hundred late-model P-38L and F-5 Lightnings were acquired by Italy through an agreement dated April 1946. Delivered, after refurbishing, at the rate of one per month, they finally were all sent to the AMI by 1952. The Lightnings served in 4 Stormo and other units including 3 Stormo, flying reconnaissance over the Balkans, ground attack, naval cooperation and air superiority missions. Due to unfamiliarity in operating heavy fighters, old engines, and pilot errors, a large number of P-38s were lost in at least 30 accidents, many of them fatal. Despite this, many Italian pilots liked the P-38 because of its excellent visibility on the ground and stability at takeoff. The Italian P-38s were phased out in 1956; none survived the inevitable scrapyard.[40]

Surplus P-38s were also used by other foreign air forces with a dozen sold to Honduras and fifteen retained by China. Six F-5s and two unarmed black two-seater P-38s were operated by PRD forces based in Cuba in 1947. The majority of wartime Lightnings present in the continental U.S. at the end of the war were put up for sale for US$1,200 apiece; the rest were scrapped. P-38s in distant theaters of war were bulldozed into piles and abandoned or scrapped; very few avoided that fate.

Lockheed test pilot Tony LeVier was among those who bought a Lightning, choosing a P-38J model and painting it red to make it stand out as an air racer and stunt flyer. Lefty Gardner, former B-24 and B-17 pilot and associate of the Confederate Air Force, bought a mid-1944 P-38L-1-LO that had been modified into an F-5G. Gardner painted it white with red and blue trim and named it White Lightnin'; he reworked its turbo systems and intercoolers for optimum low-altitude performance and gave it P-38F style air intakes for better streamlining. P-38s were popular contenders in the air races from 1946 through 1949, with brightly colored Lightnings making screaming turns around the pylons at Reno and Cleveland.

F-5s were bought by aerial survey companies and employed for mapping. From the 1950s on, the use of the Lightning steadily declined, and only a little more than two dozen still exist, with few still flying. One example is a P-38L owned by the Lone Star Flight Museum in Galveston, Texas, painted in the colors of Charles MacDonald's Putt Putt Maru. Two other examples are F-5Gs which were owned and operated by Kargl Aerial Surveys in 1946, and are now located in Chino, California at Yanks Air Museum, and in McMinnville, Oregon at Evergreen Aviation Museum.

[edit] Variants
Version and total manufactured[41] Variant Produced Comment
XP-38 1 Prototype
YP-38 13 Evaluation planes
P-38 30 Initial production plane
XP-38A 1 Pressurized cockpit
P-38D 36 Fitted with self-sealing fuel tanks/armored windshield
P-38E 210 First combat-ready variant, revised armament
F-4 100+ reconnaissance planes based on P-38E
Model 322 3 RAF order: twin right-hand props and no turbo
RP-322 147 USAAF trainers
P-38F 527 First-fully combat-capable P-38 Fighter
F-4A 20 reconnaissance plane based on P-38F
P-38G 1,082 Improved P-38F fighter
F-5A 180 reconnaissance plane based on P-38G
XF-5D 1 a one-off converted F-5A
P-38H 601 Automatic cooling system; Improved P-38G fighter
F-5C 123 based on P-38H
P-38J 2,970 new cooling and electrical systems
F-5B 200 reconnaissance plane based on P-38J
F-5E 605 P-38J/L conversion
P-38K 1 paddle props; new engines
P-38L-LO 3,810 Improved P-38J new engines; new rocket pylons
P-38L-VN 113 P-38L built by Vultee
F-5F - reconnaissance plane based on P-38L
P-38M 75 night-fighter
F-5G -

Over 10,000 Lightnings were manufactured in all; becoming the only U.S. combat aircraft that remained in continuous production throughout the duration of American participation in World War II. The Lightning had a major effect on other aircraft; its wing, in a scaled-up form, was used on the L-049 Constellation.[42]

Lightning variants began with the D model. There were no Bs or Cs as the USAAF allocated the 'D' suffix to all aircraft with self-sealing fuel tanks and armor. The first combat-capable Lightning was the P-38E. The P-38E featured improved instruments, and electrical and hydraulic systems. Part-way through production, the older Hamilton Standard Hydromatic hollow steel propellers were replaced by new Curtiss Electric duraluminum propellers. The definitive armament configuration was settled upon, featuring four .50 caliber (12.7 mm) machine guns with 500 rounds per gun, and a Hispano 20 mm cannon with 150 rounds which replaced the unreliable Oldsmobile 37 mm cannon that had been tested on the P-38D.

While the machine guns had been arranged symmetrically in the nose on the P-38D, they were "staggered" in the P-38E and later versions, with the muzzles protruding from the nose in the relative lengths of roughly 1:4:6:2. This was done to ensure a straight ammunition-belt feed into the weapons, as the earlier arrangement led to jamming.

The first P-38E rolled out of the factory in October 1941. Over a hundred P-38Es were completed in the factory or converted in the field to a photo-reconnaissance variant, the F-4, in which the guns were replaced by four cameras. Most of these early reconnaissance Lightnings were retained stateside for training, but the F-4 was the first Lightning to be used in action in April 1942.
Ground crew members of the 459th Fighter Squadron, nicknamed the "Twin Dragon Squadron", working on a Lockheed P-38 at an air base in Chittagong, India - January 1945.

After 210 P-38Es were built, they were followed, starting in April 1942, by the P-38F, which incorporated racks inboard of the engines for fuel tanks or a total of 2,000 pounds (900 kg) of bombs. The P-38F was heavier, with more powerful engines that used more fuel. Without external fuel tanks, the range was reduced. General Spaatz, then commander of the Eighth Air Force in the UK, said of the P-38F: "I'd rather have an airplane that goes like hell and has a few things wrong with it, than one that won't go like hell and has a few things wrong with it."[43] A total of 527 P-38Fs were built.

The P-38F was followed in early 1943 by the P-38G, utilizing more powerful Allisons of 1,400 hp (1,040 kW) each and equipped with a better radio. The P-38G was followed in turn by the P-38H, with further uprated Allisons (1,425 hp [1,060 kW] each), an improved 20 mm cannon and a bomb capacity of 3,200 pounds (1,450 kg). These models were also field-modified into F-4A and F-5A reconnaissance aircraft. An F-5A was modified to an experimental two-seat reconnaissance configuration, with additional cameras in the tail booms. Both the P-38G and P-38H models' performance was restricted by an intercooler system integral to the wing's leading edge; one which had been designed for smaller engines. Most ground crews removed this in order to get more power at lower altitudes where the danger of oveheating was reasonably low.[citation needed] The new engines could heat up too much and were subject to explosive detonation in the carburetor if operated beyond recommended limits.

Early variants did not enjoy a high reputation for maneuverability, though they could be agile at low altitudes if flown by a capable pilot, using the P-38's forgiving stall characteristics to their best advantage. From the P-38F-15 model onwards, a "combat maneuver" setting was added to the P-38's Fowler flaps. When deployed at the eight-degree maneuver setting, the flaps allowed the P-38 to out-turn many contemporary single-engined fighters at the cost of some added drag. However, early variants were hampered by high aileron control forces and a low initial rate of roll.[44]

[edit] Lightning in maturity: P-38J, P-38L
Four P-38s flying in formation.

The definitive P-38J was introduced in August 1943. The turbocharger intercooler system on previous variants had been housed in the leading edges of the wings and had proven vulnerable to combat damage and could explode if the wrong series of controls were mistakenly activated. In the P-38J model, the streamlined engine nacelles of previous Lightnings were changed to fit the intercooler radiator between the oil coolers, forming a "chin" that visually distinguished the J model from its predecessors. While the P-38J used the same V-1710-89/91 engines as the H model, the new core-type intercooler more efficiently lowered intake manifold temperatures and permitted a substantial increase in rated power. The leading edge of the outer wing was fitted with 55-gallon fuel tanks, filling the space formerly occupied by intercooler tunnels.

The final 210 J models, designated P-38J-25-LO, alleviated the compressibility problem through the addition of a set of electrically-actuated dive recovery flaps just outboard of the engines on the bottom centerline of the wings. With these improvements, a USAAF pilot reported a dive speed of almost 600 miles per hour (970 km/h), although the indicated air speed was later corrected for compressibility error, and the actual dive speed was lower.[45]

The P-38J-25-LO production block also introduced hydraulically-boosted ailerons, one of the first times such a system was fitted to a fighter. This significantly improved the Lightning's rate of roll and reduced control forces for the pilot. With a truly satisfactory Lightning in place, Lockheed ramped up production, working with subcontractors across the country to produce hundreds of Lightnings each month.

There were two P-38Ks developed in 1942–1943, one official and one an internal Lockheed experiment. The first was a battered RP-38E test mule fitted with paddle-bladed "high activity" Hamilton Standard Hydromatic propellers similar to those used on the P-47. The new propellers required spinners of greater diameter, and the thrust line was slightly higher. New cowlings were fashioned to properly blend the spinners into the nacelles. The aircraft also received the chin intercoolers developed for the P-38J.

The first prototype's performance led to an official request for the second aircraft, a modified P-38G-10-LO (re-designated P-38K-1-LO) fitted with the aforementioned four-blade propellers and new Allison V-1710-75/77 (F15R/L) powerplants rated at 1,875 bhp (1,398 kW) at War Emergency Power. The AAF took delivery in September, 1943, at Eglin Field. In tests, the P-38K-1 achieved 432 mph (695 km/h) at military power and was predicted to exceed 450 mph (720 km/h) at War Emergency Power with a similar increase in load and range. The initial climb rate was 4,800 feet (1,500 m) per minute and the ceiling was 46,000 feet (14,000 m). It reached 20,000 feet (6,100 m) in five minutes flat; this with a coat of camouflage paint which added weight and drag. However, the War Production Board refused to authorize P-38K production due to the two- to three-week interruption in production necessary to implement cowling modifications for the revised spinners and higher thrust line.[46] Some doubted Allison's ability to deliver the F15 engine in quantity.[47] As promising as it had looked, the P-38K project came to a halt.

The P-38L was the most numerous variant of the Lightning, with 3,923 built, 113 by Consolidated-Vultee in their Nashville plant. It entered service with the USAAF in June 1944, in time to support the Allied invasion of France on D-Day. Lockheed production of the Lightning was distinguished by a suffix consisting of a production block number followed by "LO," for example "P-38L-1-LO", while Consolidated-Vultee production was distinguished by a block number followed by "VN," for example "P-38L-5-VN."

The P-38L was the first Lightning fitted with zero-length rocket launchers. Seven HVARs (high velocity aircraft rockets) on pylons beneath each wing, and later, ten rockets on each wing on "Christmas tree" launch racks. The P-38L also had strengthened stores pylons to allow carriage of 2,000 pound (900 kg) bombs or 300 US gallon (1,140 liter) drop tanks.
F-5A Lightning of the 7th Photo Group, 8th Army Air Force based at Mt. Farm. Note the national insignia is bordered in red with overall finish in synthetic haze.

Lockheed modified 200 P-38J airframes in production to become unarmed F-5B photo-reconnaissance aircraft, while hundreds of other P-38Js and P-38Ls were field-modified to become F-5Es, F-5Fs, and F-5Gs. A few P-38Ls were field-modified to become two-seat TP-38L familiarization trainers.

Late model Lightnings were delivered unpainted, as per USAAF policy established in 1944. At first, field units tried to paint them, since pilots worried about being too visible to the enemy, but it turned out the reduction in weight and drag was a minor advantage in combat.

The P-38L-5, the most common sub-variant of the P-38L, had a modified cockpit heating system which consisted of a plug-socket in the cockpit into which the pilot could plug his heat-suit wire for improved comfort. These Lightnings also received the uprated V-1710-111/113 (F30R/L) engines, and this dramatically lowered the amount of engine failure problems experienced at high altitude so commonly associated with European operations.

[edit] Pathfinders, Night Fighter and other variants

The Lightning was modified for other roles. In addition to the F-4 and F-5 reconnaissance variants, a number of P-38Js and P-38Ls were field-modified as formation bombing "pathfinders" or "droopsnoots", fitted with a glazed nose with a Norden bombsight, or a H2X radar "bombing through overcast" nose. A pathfinder would lead a formation of other P-38s, each overloaded with two 2,000 lb (907 kg) bombs; the entire formation releasing when the pathfinder did.
Lockheed Model 422 P-38M-6-LO Night Lightning (44-27234, c/n 422-8238).

A number of Lightnings were modified as night fighters. There were several field or experimental modifications with different equipment fits that finally led to the "formal" P-38M night fighter, or Night Lightning. Seventy-five P-38Ls were modified to the Night Lightning configuration, painted flat-black with conical flash hiders on the guns, an AN/APS-6 radar pod below the nose, and a second cockpit with a raised canopy behind the pilot's canopy for the radar operator. The headroom in the rear cockpit was limited, requiring radar operators who were preferably short in stature.

The additional external clutter imposed surprisingly little penalty on the P-38M's performance, and it remained faster than the purpose-built Northrop P-61 Black Widow night fighter. The Night Lightnings saw some combat duty in the Pacific towards the end of the war, but, verifiably, none engaged in combat.

One of the initial production P-38s had its turbochargers removed, with a secondary cockpit placed in one of the booms to examine how flightcrew would respond to such an "asymmetric" cockpit layout. One P-38E was fitted with an extended central nacelle to accommodate a tandem-seat cockpit with dual controls, and was later fitted with a laminar flow wing.
Proposed floatplane P-38E testbed, 41-1986, c/n 222-5204, shown with second version of upswept tail designed to keep tail out of water upon takeoff

Very early in the Pacific War, a scheme was proposed to fit Lightnings with floats to allow them to make long-range ferry flights. The floats would be removed before the aircraft went into combat. There were concerns that salt spray would corrode the tailplane, and so in March 1942, P-38E c/n 5204 was modified with a tailplane raised some 16-18 inches, booms lengthened by two feet and a rearward-facing second seat added for an observer to monitor the effectiveness of the new arrangement. A second version was crafted on the same airframe with the twin booms given greater sideplane area to augment the vertical rudders. This arrangement was removed and a final third version was fabricated that had the booms returned to normal length but the tail raised 33 inches. All three tail modifications were designed by George H. "Bert" Estabrook. The final version was used for a quick series of dive tests on December 7, 1942 in which Milo Burcham performed the test maneuvers and Kelly Johnson observed from the rear seat. Johnson concluded that the raised floatplane tail gave no advantage in solving the problem of compressibility. At no time was this P-38E testbed airframe actually fitted with floats, and the idea was quickly abandoned as the U.S. Navy proved to have enough sealift capacity to keep up with P-38 deliveries to the South Pacific.[11]

Still another P-38E was used in 1942 to tow a Waco troop glider as a demonstration. However, there proved to be plenty of other aircraft, such as C-47s, available to tow gliders, and the Lightning was spared this duty.

Standard Lightnings were even used as crew and cargo transports in the South Pacific. They were fitted with pods attached to the underwing pylons, replacing drop tanks or bombs, that could carry a single passenger in a lying-down position, or cargo. This was a very uncomfortable way to fly. Some of the pods weren't even fitted with a window to let the passenger see out or bring in light, and one fellow who hitched a lift on a P-38 in one of these pods later said that "whoever designed the damn thing should have been forced to ride in it."

Lockheed proposed a carrier-based Model 822 version of the Lightning for the United States Navy. The Model 822 would have featured folding wings, an arresting hook, and stronger undercarriage for carrier operations. The Navy was not interested, as they regarded the Lightning as too big for carrier operations and did not like liquid-cooled engines anyway, and the Model 822 never went beyond the paper stage. However, the Navy did operate four land-based F-5Bs in North Africa, inherited from the USAAF and redesignated FO-1.

A P-38J was used in experiments with an unusual scheme for mid-air refueling, in which the fighter snagged a drop tank trailed on a cable from a bomber. The USAAF managed to make this work, but decided it was not practical. A P-38J was also fitted with experimental retractable snow ski landing gear, but this idea never reached operational service either.

After the war, a P-38L was experimentally fitted with armament of three .60 in (15.2 mm) machine guns. The .60 caliber cartridge had been developed early in the war for an infantry "anti-tank rifle", a type of weapon developed by a number of nations in the 1930s when tanks were lighter but, by 1942, the idea of taking on a tank with a large-caliber rifle was considered to be somewhere between "outdated" and "suicidal".

The cartridge was not abandoned, with the Americans designing a derivative of the German MG 151 15 mm aircraft automatic cannon around it and designating the weapon the "T17", but though 300 of these guns were built and over six million .60 caliber rounds were manufactured, they never worked out all the bugs, and the T17 never saw operational service. The cartridge was "necked up" to fit 20 mm projectiles and became a standard U.S. ammunition after the war. The T17-armed P-38L did not go beyond unsuccessful trials.

Another P-38L was modified after the war as a "super strafer," with eight .50 in (12.7 mm) machine guns in the nose and a pod under each wing with two .50 in guns, for a total of 12 machine guns. Nothing came of this conversion, either.

A P-38L was modified by Hindustan Aeronautics in India as a fast VIP transport, with a comfortable seat in the nose, leather-lined walls, accommodations for refreshments and a glazed nose to give the passenger a spectacular view.

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