PZL P.11


The PZL P.11 was a Polish fighter aircraft, designed and constructed during the early 1930s by Warsaw-based aircraft manufacturer PZL. Possessing an all-metal structure, metal-covering, and high-mounted gull wing, the type held the distinction of being widely considered to have briefly been the most advanced fighter aircraft of its kind in the world.
The design of the P.11 commenced during the late 1920s, initially designated as the P.1. The primary individual responsible for its development was Polish aeronautical engineer Zygmunt Puławski, who has been attributed as having designed many of its innovative features. While the majority of the world's forces were still using biplanes, the P.1 used a high-mounted and aerodynamically clean gull wing, which provided the pilot with a superior field of view. During September 1929, the first prototype conducted its maiden flight. The design quickly drew international attention; the general layout became commonly known as the "Polish wing" or "Puławski wing".
The P.11 served as Poland's primary fighter defence throughout the 1930s, including during the Polish campaign of 1939 by neighbouring Nazi Germany. However, as a consequence of the rapid advances in aircraft design during the late 1930s, it was outclassed by its rivals at the onset of the war. The majority of the Polish Air Force's P.11s were destroyed during 1939; however, it is believed that as many as 36 were flown to Romania and were subsequently taken over by the Romanian Air Force.
The P.11 was a considerable export success. During October 1933, deliveries of Polish-built P.11bs to Romania commenced. From 1936, Romanian aircraft manufacturer Industria Aeronautică Română constructed a further 95 aircraft under the designation of IAR P.11f, powered by the Romanian-built IAR 9Krse engine. A dedicated export model of the P.11, which was designated as the PZL P.24, was developed during the late 1930s. Reportedly, Greece, Portugal, Yugoslavia, Turkey and Republican Spain were at one point interested in procuring the P.11; these eventually resulted in several nations, including Bulgaria, Greece and Turkey purchased the P.24 instead.

Development

Origins

The history of the PZL P.11 started in 1929, when Polish aeronautical engineer Zygmunt Puławski commenced work on designing an all-metal, metal-covered monoplane fighter aircraft. Prior to this, Polish aviation activity had been concentrated on the licensed production of foreign-designed aircraft, particularly French; additionally, these typically had wooden structures, thus Puławski's all-metal approach represented a considerable step-change for Polish industry.
According to aviation author Wiltold Liss, the initial design produced by Puławski, designated as the P.1, possessed multiple of the hallmarks present on contemporary French aviation designs of the era; these similarities can be attributed to Puławski himself, who had received a considerable portion of his technical education in France only a few years prior. Simultaneously, the P.1 also bore a number of original innovations, including its characteristic monoplane wing design. While the majority of the world's forces were still using biplanes, the P.1 used a high-mounted and aerodynamically clean gull wing, which provided the pilot with a superior field of view.
During September 1929, the first prototype conducted its maiden flight. The aircraft demonstrated its outstanding performance amongst its peers, including the British Bristol Bulldog and the French Dewoitine D.27, when it achieved first place at an international air competition held in Bucharest, Romania. The design generated interest around the world; attention was such that the general layout became commonly known as the "Polish wing" or "Puławski wing". This wing consisted of a two-spar duralumin structure, complete with rivetted ribs to both the spars and skin; the exterior of the wing was covered by finely corrugated duralumin sheet, while the slotted ailerons had a fabric covering.
The Polish War Ministry objected to the aircraft's use of the licence-built Hispano-Suiza V engine, citing insufficient practicality and poor economic grounds. Accordingly, a second prototype, which was designated as the P.6, was completed the next year. This revision featured several deviations from Puławski's original vision, including the adoption of a radial engine to power the type in place of the original in-line counterpart; during testing, the P.6's engine was plagued by overheating issues.

Refinement and production

Following the disappointing performance of the P.6, a further improved design, designated as the PZL P.7, was developed. According to Liss, this revision represented the most significant of the P.11's forerunners. The P.7 was placed into series production, having been ordered for the Polish Air Force, who ultimately opted to procure 150 of the type.
After designing the P.7, Puławski started further variants with larger engines, eventually cumulating in the P.11. During August 1931, the first P.11/I prototype conducted its maiden flight, powered by the British Bristol Jupiter radial engine; the first flight had occurred shortly after Puławski's death in an air crash. It was followed by a pair of refined prototypes, the P.11/II and the P.11/III, which used the Bristol Mercury engine instead. They were later joined by several more pre-production aircraft to test out various configurations of engines, propellers, and other features; these test examples led to the P.11/VI, a production-representative version of the design.
The first variant of the P.11 to be ordered by the Polish Air Force was the P.11a. From the onset, this was considered to be only an interim model of the type; accordingly, a series of 50 such fighters were constructed. Otherwise similar to the P.7, the P.11a mounted the 575 hp Bristol Mercury IV S2 radial engine, which was produced in Poland under licence. Upon the completion of the P.11a order, PZL immediately set about establishing the production of an improved model of the aircraft, which was designated as the P.11c.
The P.11c would be the principal variant of the type to be inducted into the Polish Air Force. First reaching fighter squadrons during late 1935, it featured the adoption of a new, refined fuselage, a major change of which being the relocation of the engine to be 13 cm lower down in the aircraft's nose, which had the advantage of providing the pilot with an improved exterior view. Besides, a new stronger engine Mercury V S2 had smaller diameter. Forward framework was longer, covering an enlarged and more comfortable cockpit, with pilot's seat moved 30 cm rearwards and raised by 5 cm. The central part of the wings was also modified. During 1934, production of the P.11c commenced, by 1936, the type was being produced at a rate of 25 fighters per month; in total, 150 aircraft were produced by the end of production in 1936. The first series of approximately 50 P.11c aircraft were fitted with Mercury V S2 of 600 hp, the rest with Mercury VI S2 of 630 hp.
Apart from Poland, Romania showed interest in the new design. Even before the P.11a entered service with the Polish Air Force, 50 aircraft, designated as the P.11b, were ordered for the Romanian Air Force, while an agreement for licence production was agreed. Deliveries of Polish-built P.11bs to Romania commenced in July 1934. They were fitted with Gnome-Rhone 9Krsd Mistral engines, otherwise they were similar to the P.11a. 49 were finally made, the 50th aircraft being P.11f prototype. After the P.11c had been developed, the Romanians decided to switch the licence production to the new model. As a result, from 1936 IAR built 95 aircraft as the IAR P.11f, powered by the Romanian-built IAR 9Krse engine, which was a licensed version of the Gnome-Rhone 9Krse giving. The Romanians then produced another Polish fighter, the PZL P.24, developed from the P.11 exclusively for export. Greece, Portugal, Yugoslavia, Turkey and Republican Spain were interested in buying the P.11, but finally Bulgaria, Greece and Turkey bought the P.24 instead.

Further development and successors

During 1934, the year in which the P.11 entered operational service, it was a contemporary of the British Gloster Gauntlet and German Heinkel He 51 and was arguably the most advanced fighter then in service in the world. However, due to a series of rapid advances and technological development in the field of aviation, the P.11 was considered to have been rendered obsolete by 1939. It had been overtaken in terms of performance by a new generation of fighter aircraft that commonly benefitted from features such as cantilever wings and retractable landing gear; such fighters included the British Supermarine Spitfire and German Messerschmitt Bf 109.
Together with the older P.7, both remained the only Polish fighters in service, however, with about 185 P.11s available, distributed within six air regiments and the aviation school in Deblin. Being aware that the P.11 was now outdated, the Polish Air Force had pinned their hopes on the in-development PZL.50 Jastrząb, which suffered from several delays. When it became apparent that the PZL.50 would not be in widespread service in time for a major conflict that was clearly looming, consideration was given to producing an updated version of the P.11; this was to have been powered by the 840 hp Mercury VIII and have been furnished with an enclosed cockpit, known as the P.11g Kobuz. Only the prototype of the P.11g with a maximum speed increase to a still-slow 390 km/h was flown before the war, in August 1939.
In light of the unavailability of PZL.50, the only hope of replacing the obsolete P.11 lay in acquiring modern fighters from abroad. In 1939, after receiving the necessary credits, Poland ordered from France 120 Morane-Saulnier M.S.406s, and from Britain, 14 Hawker Hurricane Is, plus a single Supermarine Spitfire I for testing, in addition to 100 Fairey Battle light bombers. However, none of these aircraft were delivered to Poland before September 1939.

Design

The PZL P.11 was an innovative fighter aircraft of the early 1930s, possessing high-mounted gull wings, as well as an all-metal, metal-covered structure. It also possessed several relatively conventional features for the era, such as its use of a fixed undercarriage arrangement. In terms of armament, the P.11 was equipped with a pair of 7.92 mm machine guns mounted upon the sides of the fuselage; reportedly, around a third of all P.11c-model fighters were provisioned with two additional machine guns fixed onto the wings. The fuselage-mounted guns were synchronised, but all others were not; a gun camera could also be installed. In terms of bombs, the P.11c could carry up to four small 12.5 kg bombs, while the earlier P.11a model was not provisioned to carry any.
The P.11 was powered by a number of different radial engines, these included the Bristol Mercury IV S2 of the P.11a, the Gnome-Rhone 9Krsd of the P.11b, the Bristol Mercury V S2 or alternatively the Mercury VI S2 of the P.11c: and finally the Gnome-Rhone 9Krse of the P.11f, the ultimate version of the aircraft. Regardless of the engine used, the unit would be mounted upon rubber vibration absorbers inside a forward-mounted engine bay and was used to drive a wooden two-bladed fixed-pitch propeller manufactured by Polish company Szomanski.
The P.11 had an open cockpit, provisioned with a windshield composed of Plexiglas. Instrumentation included a suite of navigation and engine control gauges, while many of these components originated within Poland, one notable exception was the German-built compass. The safety equipment included an arrangement of several flame dampers, a flare gun, and oxygen tanks for the pilot. Only a few P.11s were furnished with radio sets, leading to pilots being typically reliant upon hand signals and pre-arranged manoeuvres to communicate with one another.
The all-metal fuselage of the P.11 was matched to a twin-spar shoulder-mounted wing via bearers set upon the upper portion of the first and second fuselage frames. The wing and the tail employed similar construction techniques, making use of Daude-type rivets, a corrugated duralumin sheet exterior and solid duralumin struts and plates for strengthening. The undercarriage comprised V-shape streamlined struts, furnished with Avia-type oleo pneumatic shock absorbers and were braced with steel wire.
The P.11 featured an internal fuel tank positioned inside the fuselage that could be jettisoned in case of fire or other emergency. A high-profile flaw was present in the construction of early-built examples in the form of its fuel tanks. Originally manufactured by an independent sub-contractor, the tanks were rivetted and covered with a resin sealing agent; however, this technique would result in joints that would rapidly degrade in the presence of vibration. An initial effort to switch to welded joints was catastrophic, having been determined to have been responsible for failures early on in the P.11's service life. Following a decision by some customers to refuse acceptance of completed aircraft using this type of joint due to these failures, extensive testing to evaluate alternative techniques was conducted by PZL, resulting in the problem being entirely eliminated.

Operational history

At the outbreak of the Second World War, on 1 September 1939, the Polish Air Force had 109 PZL P.11cs, 20 P.11as and 30 P.7as in combat units. A further 43 P.11c aircraft were in reserve or undergoing repairs. Only a third of P.11c were armed with four machine guns, the rest had only two, and even fewer had a radio. The P.11 were used in twelve escadrilles, each with ten aircraft. Two squadrons—four escadrilles—were in the Pursuit Brigade deployed around Warsaw, with the rest assigned to various armies. All of them took part in the 1939 defense of Poland. Apart from combat units, several P.11 aircraft, including a prototype P.11g, were used in improvised units at air bases.
By 1 September 1939, the fighter squadrons had been deployed to remote improvised airfields and were therefore protected from German air attack on the ground. The P.11 would be up against more modern German bombers and fighters—not only were the German Messerschmitt Bf 109 and Bf 110 faster and better armed, but most German bombers were also faster. Since the P.11 fighters had seen years of intensive use before the war, their maximum speed was even lower than the theoretical 375 km/h. The P.11a's were in even worse condition. In addition, their small total number meant that missions of groups larger than twenty aircraft were rarely undertaken, and reserve machines were almost non-existent.
On the other hand, the Polish fighter aircraft featured better maneuverability than their German counterparts and, as a benefit of their design, much better vision from the cockpit. The P.11 also had a durable construction and a good rate of climb, and could take off from short airfields, even of the rough and improvised variety. It could also dive at up to 600 km/h without risk of the wings breaking off. Theoretically the only limit in maneuvers was the pilot's ability to sustain high g forces. Despite the German superiority, the P.11 managed to shoot down a considerable number of German aircraft, including fighters, but suffered heavy losses as well. The exact numbers are not fully verified. A total of 285 German aircraft were lost according to Luftwaffe records, with at least 110 victories credited to the P.11 for the loss of about 100 of their own. Some of the German aircraft shot down were later recovered and put back into service. This allowed German propaganda to claim smaller combat losses.
At dawn on 1 September, Capt. Mieczysław Medwecki flying a PZL P.11c was shot down by :de:Rotte |Rottenführer Leutnant Frank Neubert of I./StG 2, having the dubious honour of becoming the first aircraft shot down in the Second World War. The first Allied air victory, the shooting down of a Junkers Ju 87, was achieved 20 minutes later by Medwecki's wingman, Władysław Gnyś, who went on to shoot down a pair of Dornier Do 17s with his P.11c. The P.11c was also the first aircraft to successfully ram an enemy aircraft in the Second World War. The first large air battle of the war took place in the early morning of 1 September over the village of Nieporęt just north of Warsaw, when a German bomber group of about seventy Heinkel He 111 and Dornier Do 17 was intercepted by some twenty P.11 and ten P.7 fighters, and had to abandon their mission to Warsaw.
The following day, nine PZL P-11s of No. 142 Squadron, led by Major Lesnievski, intercepted two formations of Dornier Do 17 on river Vistula. A pair of P.11s were captured by the Red Army and used for testing. One landed in Hungary and was used as a glider tow plane by the University of Technology in Budapest.

Variants

;P.11/I
;P.11/II
;P.11/III
;P.11a
;P.11b
;P.11c
;P.11f
;P.11g Kobuz

Operators

The sole surviving P.11c aircraft is on display in the Polish Aviation Museum in Kraków.

Specifications (PZL P.11c with Mercury VI.S2 engine)

Citations