Report from the Fronts #41: the Airplane I

The tank was developed specifically to deal with the problems of trench warfare (see Report #37), and while it did have some impact, at least on the Allied side, its real strategic value would not be demonstrated until the next war.  Better design and more powerful and reliable engines would allow the tank to come of age, and the Germans (ironically, given their lack of interest during the Great War) would perfect its use in mass formations as an offensive spearhead.  One of the elements in this new armored warfare would be close coordination between the tank and a weapon that did come of age, at least tactically, during the Great War: the airplane.

This new heavier-than-air flying technology was still relatively primitive when the war began, and at first it was used as balloons had been for a half century, for observation of the enemy.  Especially important was photographic reconnaissance and spotting for the artillery (though proper coordination took some time to be worked out), and the airplane provided a much more flexible platform than a tethered balloon.  And this was certainly a much more pleasant activity than living in a trench and going over the top.

The Taube

The Etrich-Rumpler Taube, one of the first observation aircraft

Allied observation balloon

German observation balloon

But this was after all a war and the fliers were combatants, and almost immediately they began to greet one another with more than friendly waves.  Observers started carrying pistols and grenades, but hitting, let alone seriously damaging, another aircraft with such weapons was all but impossible.  In fact the first airplane brought down was by being rammed: on 8 September 1914 an Austrian plane was rammed by Pyotr Nesterov over Galicia, killing himself and the enemy fliers.  Frustrated, a French flier, Louis Quénault, equipped himself with a Hotchkiss M1901 light machine gun and on 5 October 1914 shot down a German plane (actually, with an incredibly lucky shot from a rifle after the machine gun’s ammunition was exhausted).  Now the race was on to create a real fighter plane.

The Hotchkiss M1909

Quénault’s plane, the Morane-Saulnier L

Pyotr Nesterov  †1914

Nesterov’s plane, the Morane-Saulnier G

The ramming

The major problem was where to mount the gun.  In two seater aircraft it was easy to mount a machine gun for the observer, but this only provided defensive fire and in any case lighter, faster single seat planes were the obvious candidates for an offensive aircraft.  With only a single flier the gun had to be mounted where the pilot could easily clear jams (which happened frequently) and reload and use the plane itself to aim his fire.  That required the gun to be placed immediately in front of the cockpit, which meant shooting through the arc of the propeller, a dangerous proposition.

The Bristol F.2 two seater with a rear Lewis gun

One way to avoid this was to put the engine with a “pusher” prop behind the pilot, but it was already known that in terms of performance this arrangement was far less effective than a front mounted “tractor” propeller.  Another approach, which was used initially by the British, was to mount the gun (usually a Lewis light machine gun) so that it fired above the propeller arc, which meant on the upper wind of a biplane or a special structure on a monoplane.  The Foster mount allowed the gun to be moved down to the pilot for service (and to shoot upward), but the protruding gun and mount added considerable drag and stressed the wing, which in turn scattered the fired rounds with its vibrations.

Double Lewis guns on a modified Sopwith Camel

The Foster mount on an Avro 504K

The Royal Aircraft Factory FE2D pusher with a (scary) nose-mounted Lewis gun

The Lewis gun

Clearly, the most effective place for the gun was immediately in front of the pilot, which left the problem of the propeller.  The French came up with the “deflector” prop, which sported metal plates on the propeller blades where the bullets would strike, certainly a frightening solution.  The deflected rounds were a significant threat to the pilot, and more dangerous, they placed a serious strain on the engine’s crankshaft as the propeller was repeatedly buffeted.   Nevertheless, from 1-18 April 1915 Roland Garros, flying a Morane-Saulnier L with a deflector prop, shot down three German planes, but on the 18th he was forced to land in enemy territory, perhaps because of engine problems caused by the pounding on the propeller.

The Morane-Saulnier L

Roland Garros  †1918

The armored propeller

Anthony Fokker is rightly known for perfecting the synchronization mechanism, but work on this had been going on in a number of places, and Franz Schneider had in fact patented a device in July 1913 and Raymond Saulnier in 1914.  The problem was that these early mechanisms were still crude, and the frequent – and often disastrous – failures hardly convinced inert and inherently conservative high commands to support the new technology.  Garros’ prop and the planes he downed convinced the Germans.

From the Saunier patent

Raymond Saulnier

From the Schneider patent

Franz Schneider

Severed propeller

Anthony Fokker

The basic idea was to connect the gun and the propeller such that the gun was fired only when the blade was out of the way or was prevented from firing when it was.  Generally this meant some sort of cam on the propeller or crank shaft that would push a rod enabling or disabling the gun at the proper moment.  In a way this was easier for the Germans inasmuch as their machine guns – the Parabellum and the Spandau – had a closed bolt cycle, which could be precisely timed, whereas the favored Allied gun, the Lewis, had an open bolt cycle (look it up), which could not (although the Vickers was a closed bolt).

The Spandau IMG 08

The Parabellum

A Vickers mounted on a Nieuport 17

Fokker’s Stangensteuerung system, developed in the spring of 1915, followed Saulnier’s approach: it employed a cam and reciprocating rod connection that enabled the gun to fire at the proper time rather than interrupting it.  There were mechanical weaknesses, especially with the push rod, and the system could not be easily adapted to twin guns, and this led by late 1916 to the Zentralsteuerung, which eliminated the push rod altogether.  This improvement allowed for a twin gun configuration, vital in concentrating fire for the brief moments when shooting was possible (it is not that easy to shoot down a mechanically simple fabric covered aircraft), and was the system behind the later, more familiar aircraft like the Fokker D-VII.

The Stangensteuerung interrupter gear

The Stangensteuerung system

The Zentralsteuerung system with two guns

Synchronizing the gun and prop

The other warring powers would develop synchronization systems, but the Germans beat them and in May 1915 created the first purpose-built warplane, the Fokker E.I, by adding a Parabellum MG 14 to a modified Fokker scout.  This monoplane (Eindecker) was flimsy and difficult to fly and the synchronization gear still prone to malfunction, but it was a real fighter and the Allies had none.  On 1 July Kurt Witgens brought down a Morane-Saulnier, becoming the first pilot to down an enemy plane with a synchronized gun.  The “Fokker Scourge” had begun.

Kurt Witgens  †1916

Witgens’ Fokker E.I

The Fokker E.II

The Fokker E.III

The Fokker Eindecker gave the Germans control of the air, and Allied observation craft were soon raining from the skies.  This period produced the first real fighter aces, like Oswald Boelcke and Max Immelmann, men who worked out the basic moves and tactics of this completely new form of warfare.  Boelcke, who taught the future ace, Manfred von Richthofen, produced a set of formal rules for air combat, the Dicta Boelcke, and Immelmann is known for the tactical maneuver called the Immelmann Turn.

Oswald Boelcke  †1916

Max Immelmann  †1916

Immelmann and his Fokker

The Immelmann Turn

The Scourge would last until the beginning of 1916, when the Allies finally caught up in aircraft technology.  In January 1916 the French introduced the Nieuport 11, which still employed a wing-mounted Lewis gun with all its inherent difficulties, but the superior performance of the plane more than compensated. In February the British brought to France the Airco DH.2, a single-seat pusher fighter, which also easily outmatched the Fokker in performance.

The Nieuport 11

The Airco DH.2

These aircraft were soon bringing the Fokkers down, emphasizing that the half year of German superiority was due entirely to the synchronized gun, allowing an otherwise weak aircraft to dominate the skies.  The Allies would now rule the air until the Germans introduced their new generation of more powerful fighters in the fall.

 

 

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A World War I Christmas from the Winter War

SAMSUNG DIGIMAX A503

 

For those of you who might be into such things: this is a Model 1910 Maxim heavy machine gun used by the Russian Imperial Army and subsequently by the Red Army until it was replaced in 1943.  The gun is water cooled (hence the metal tube surrounding the barrel), takes the 7.62x54mmR rifle cartridge used in the Imperial/Soviet Mosin-Nagant service rifle and is affixed to a wheeled Sokolov mount.  The weapon generally also has a shield mounted between the barrel and the receiver, but I have been unable to get the damned thing on.  This example was probably manufactured in the twenties or thirties and was captured by the Finns during either the Winter War (1939-1940) or the Continuation War (1941-1944).  The Continuation War was of course the Finnish participation in the German invasion of the USSR in 1941; the Winter War is more obscure.

In 1939 the Soviets demanded territory from Finland, most importantly, the Karelian Peninsula and the eastern part of South Karelia, which they felt threatened Leningrad.  The Finns, who would lose their border defenses and a substantial chunk of their economy, refused, and in November 1939 the Red Army invaded, expecting an easy victory.  That was not to be.  The Red Army had been devastated by Stalin’s purge of the officer corps, and the Finns knew the terrain and fighting conditions.  I suspect the origins of the Olympic Biathelon are found in the  winter War: ski through the woods, shoot a Russian, ski through the woods, shoot another Russian.  The Soviets suffered huge casualties (convincing Hitler the Red Army was weaker than it actually was), but in the end overwhelmed the Finns with their superior manpower and got what they had demanded.  The costly resistance of Finland probably contributed to Stalin’s decision not to attempt to incorporate the country into the USSR after the defeat of Germany.

The Finns captured large amounts of Soviet equipment, including the Maxim pictured above, and thus this weapon has traveled from the snows of Karelia to the sands of New Mexico.

Finns with a captured Soviet Maxim

Finns with a captured Soviet Maxim