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BK 3,7
BK 3,7
BK 3,7
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The Bordkanone 3,7 (BK 3,7) ("on-board cannon 3.7") was a German 3.7 cm (1.46 in) anti-tank/bomber autocannon of World War II and based on the earlier 3.7 cm (1.46 in) 3.7 cm Flak 18 made by Rheinmetall.

Key Information

It was mounted on Luftwaffe aircraft such as the Junkers Ju 87 G-1 and G-2; Henschel Hs 129B-2/R3; Messerschmitt Bf 110G-2/R1-3; Junkers Ju 88P-2 or P-3 and others. The cannon could be attached under the wings or the fuselage of the aircraft as self-contained gun pods with 12-round magazines. It fired Armour Piercing Composite Rigid (APCR, Tungsten-cored) ammunition or high-explosive shells at 160 rounds per minute.

Service history

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BK 3,7 equipped ground attack aircraft were developed for tank hunting on the Eastern Front in an effort to blunt the massive numerical superiority of the Soviet T-34 tank as the war turned against Germany. The concept was rather rudimentary, suffered from poor accuracy, severe weight penalty making the craft vulnerable to fighters, and low ammunition capacity; but could be extremely effective when operated by a sufficiently skilled and practised ground-attack pilot, such as Hans-Ulrich Rudel in his BK 3,7 armed Junkers Ju 87G.

The heavy-calibre autocannon-armed series of Junkers Ju 88P twin-engined attack–bomber destroyer aircraft series used twin BK 3,7 cannon, mounted side-by-side in a conformal ventral fuselage gun pod, in its Ju 88P-2 and P-3 versions. The P-3 version differed only through the addition of extra defensive armour. As with other examples of the P-series, the Ju 88P-2 and P-3 were perceived as failures as anti-tank and bomber destroyer aircraft.

In contrast to the bombs delivered by dive bombing, when the BK 3,7 was used to attack the relatively thin armour of the top of the turret and the engine compartment armour of a tank, kills could be achieved with a relatively light and cheap armour-piercing projectile that could be carried in much greater quantities than bombs.

One of the two surviving Junkers Ju 87s is a G-2 model displayed at the Royal Air Force Museum Cosford; the wings have attachment points for BK 3,7 gun pods but it is not displayed with them fitted.

See also

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Weapons of comparable role, performance and era

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References

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Bibliography

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

BK 3,7

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The Bordkanone 3,7 (BK 3,7), meaning "on-board cannon 3.7" in German, was a 37 mm developed by Rheinmetall-Borsig during for aircraft, serving primarily as an anti-tank and ground-attack weapon. Adapted from the earlier 3.7 cm Flak 18 anti-aircraft gun, it fired 37×263 mm B ammunition and was typically mounted in under-wing pods to enable strikes against armored targets, such as Soviet tanks on the Eastern Front. Introduced in , the BK 3,7 featured a single-barrel with short , achieving a cyclic of 160 rounds per minute while weighing 295 kg and measuring 3.63 m in overall length, with a 2.106 m barrel. Its included armor-piercing composite rigid (APCR) rounds weighing 380 g at muzzle velocities up to 1,170 m/s for penetrating heavy armor, as well as high-explosive shells of 640 g at 780 m/s for softer targets; each pod-mounted magazine held 12 rounds, emphasizing precision over volume of fire. The cannon's prioritized power for top-attack profiles against weak points, though its bulk reduced maneuverability and limited operational endurance. The BK 3,7 equipped variants of several aircraft, including the Junkers Ju 87G-1/G-2 Stuka (nicknamed Kanonenvogel or "cannon bird"), Henschel Hs 129B-2/R3, Messerschmitt Bf 110G-2/R1-3, and Ju 88P-2/P-3, for (close air support) roles amid Germany's defensive campaigns from 1943 to 1945. It gained renown through pilots like , who flew the Ju 87G and destroyed over 100 tanks by late 1943, including 12 T-34s in one mission at the , by approaching low from the rear to exploit the cannon's tungsten-core shells. Despite successes in blunting Soviet armor superiority, the weapon's slow reload, vulnerability to anti-aircraft fire, and the obsolescence of propeller-driven platforms curtailed its wider impact as Allied air dominance grew.

Development

Origins and requirements

During the early stages of in 1941, the German 's ground-attack aircraft, such as the Ju 87 Stuka, encountered formidable resistance from Soviet medium tanks on the Eastern Front, whose sloped armor rendered conventional 20 mm cannons and light bombs largely ineffective against frontal and side aspects. By 1942, as Soviet armored forces proliferated and inflicted heavy casualties on German panzer divisions, the identified a critical requirement for a heavier-caliber airborne anti-tank weapon capable of exploiting the thinner top armor of tanks during low-level runs. This urgency stemmed from tactical reports highlighting the 's superior protection, which outmatched existing ordnance and necessitated a shift toward precision, high-impact fire from aircraft to support ground operations. To address this gap, Rheinmetall-Borsig initiated the adaptation of the proven 3.7 cm Flak 18 anti-aircraft gun—a ground-based system originally designed for air defense—into an airborne configuration known as the Bordkanone BK 3,7. The project, spurred by advocacy from prominent pilots like who had achieved limited success with 20 mm weapons, aimed to retain the Flak 18's high-velocity while reconfiguring it for integration. Development formally began in November 1942 following discussions within the Reich Air Ministry on enhancing capabilities, with the core objective of creating a 37 mm that could reliably penetrate T-34 roof armor from above at ranges under 400 yards, all while being mountable on production ground-attack platforms like the Ju 87 and Hs 129 without extensive airframe modifications. A primary hurdle was drastically reducing the Flak 18's overall weight of 1,815 kg—predominantly from its heavy barrel, recoil mechanism, and mount—to a compact 295 kg unit suitable for underwing pods, ensuring the host retained adequate maneuverability and capacity for frontline operations. This lightweighting effort involved stripping non-essential components and optimizing the feed system for limited loads, allowing initial prototypes to undergo flight tests by on a modified Ju 87 D-1. The resulting BK 3,7 thus represented a pragmatic evolution from anti-aircraft to anti-armor roles, directly tailored to the Luftwaffe's evolving demands amid escalating tank warfare on the Eastern Front.

Production timeline

The BK 3,7 autocannon's development was authorized in late by Rheinmetall-Borsig, with initial prototypes undergoing ground and flight trials in early 1943 to ensure compatibility with aircraft mounting systems before wider deployment. Production occurred primarily during 1943 and 1944, constrained by severe material shortages, labor constraints, and intensified Allied strategic bombing of German industrial facilities. Rheinmetall-Borsig's factories, targeted repeatedly in campaigns like the , struggled to maintain output, resulting in sporadic delivery schedules to the . Despite these challenges and the lack of well-documented total production figures, the cannon's specialized role justified continued allocation of resources amid broader wartime production priorities. The BK 3,7 entered operational service with units in 1943, coinciding with escalating demands for effective anti-tank weaponry on the Eastern Front. Retrofitting kits were promptly distributed to frontline squadrons equipped with suitable dive bombers, enabling rapid field modifications without requiring full aircraft overhauls. This approach facilitated quicker integration into combat operations, though logistical hurdles delayed full-scale adoption. Following initial deployment, post-1943 modifications focused on enhancing reliability, particularly through simplified mounting systems that reduced installation time and improved stability during flight. These updates addressed early feedback on and issues, incorporating lighter components and refined mechanisms derived from Flak 18 adaptations. Such improvements extended the cannon's into 1945, despite diminishing production capacity.

Design

Mechanism and components

The BK 3,7 is a short recoil-operated autocannon, adapted from the mechanism of the 3.7 cm Flak 18 anti-aircraft gun for automatic firing in aircraft applications. The operating principle relies on the rearward movement of the barrel upon firing, which travels a short distance to unlock the breech block, allowing the ejection of the spent cartridge and loading of the next round via recoil energy, before the barrel returns forward under spring tension. This design ensures reliable cycling under the high-recoil conditions of 37 mm projectiles while minimizing overall system length for airborne use. Key components include the monobloc 37 mm barrel, with a length of 2,106 mm and an integrated to mitigate forces; a breech block that locks into the barrel extension; a recoil buffer to dampen the backward motion and protect the mounting; and firing triggers that enable activation from the cockpit. The barrel and breech assembly are housed in a reinforced cradle that absorbs vibrational stresses during flight, with electrical leads integrated for remote firing. The complete gun measures 3.63 m in overall length and weighs 295 kg, optimized for modular pod-mounted configurations that require minimal modifications to the host aircraft's structure. Internally, the feeding system supports clip feed, with aircraft installations typically employing external magazine pods with a capacity of 12 rounds (or two 6-round clips) to balance weight and aerodynamics.

Specifications

The BK 3,7 is a 37 mm chambered for the 37×263 mm B cartridge. It employs a practical of 160 rounds per minute. varies from 800 to 1,140 m/s based on the ammunition type employed. The effective firing range is 500 meters against ground targets. The feed system supports up to 12 rounds per pod magazine. These parameters reflect the cannon's design as a self-contained pod-mounted optimized for aircraft anti-tank roles, utilizing short .

Ammunition and performance

Projectile types

The BK 3,7 was chambered for 37×263 mm B cartridge cases, which were filled with propellants formulated to deliver high muzzle velocities from the gun's relatively short barrel length. Among the primary projectile types was the armor-piercing composite rigid (APCR) round, featuring a 405 g tungsten-cored designed specifically for anti-tank roles, capable of penetrating up to 50 mm of armor at 500 m against perpendicular surfaces or 40 mm at 60-degree angles. This ammunition, known as the H-Pzgr.Patr., emphasized velocity over mass to exploit vulnerabilities in enemy armored vehicles from low-altitude attacks. High-explosive (HE) shells, weighing 640 g, served as the versatile option for engaging soft ground targets, , and light vehicles, providing fragmentation and blast effects upon . For broader anti-armor applications, armor-piercing (AP) rounds weighing 685 g were developed, optimized to defeat armor when fired from aerial diving angles where effective thickness was reduced. variations across these projectiles ranged from 780 to 1,170 m/s, influencing their terminal performance.

Ballistic characteristics

The BK 3,7 autocannon's ballistic performance was optimized for anti-tank engagements from low-altitude dives or glides, with a of 860 m/s for standard AP rounds when mounted on the Ju 87G, though ground trials indicated values around 800 m/s depending on type. In aerial conditions, factors such as motion and firing angle reduced the effective range to approximately 500 m, prioritizing close-range accuracy over long-distance precision. The cannon's short-recoil operation delivered a of 160 rounds per minute, but practical limitations like 12-round magazines per restricted bursts to only a few effective shots before reloading. Penetration capability varied by ammunition, with APCR rounds featuring cores achieving up to 58 mm of armor at 100 m under 60-degree obliquity, enabling defeats of upper armor (up to 45 mm thick) at practical combat ranges of 300-500 m. Beyond 1,000 m, penetration dropped sharply due to velocity loss, limiting the weapon's utility against heavily armored targets at extended distances and emphasizing attacks on vulnerable top or engine areas. Standard AP rounds offered around 40 mm penetration at similar angles and ranges, sufficient for softer vehicle components but less reliable against medium tanks. Accuracy was a notable limitation, hampered by severe recoil forces and aircraft vibrations during firing, which degraded precision in dynamic flight conditions. These issues confined effective hits to short-dive or shallow-glide approaches, often requiring exceptional pilot skill, as exemplified by , who achieved multiple kills by targeting weak points like tracks and rear armor. The pneumatic sighting system aided aiming, but the overall hit probability remained low without steady platforms, underscoring trade-offs in the design for high-impact, low-volume fire.

Installations

Aircraft integrations

The BK 3,7 cannon was adapted for underwing pod installations on the G-1 and G-2 variants, featuring one 37 mm gun per wing in self-contained external containers to enable anti-tank roles without major airframe modifications. These pods were attached via reinforced pylons to accommodate the cannon's recoil and weight, preserving the aircraft's existing armament. Similarly, the B-2/R3 incorporated the BK 3,7 in an under-fuselage pod, with the forward fuselage s removed, while retaining the wing cannons and utilizing the aircraft's armored structure for protection. Fuselage-mounted configurations expanded the cannon's versatility on other platforms. The G-2/R1 through R3 variants featured the BK 3,7 in a conformal ventral gun pod beneath the fuselage, often paired with additional nose-mounted cannons for bomber interception duties. The P-2 employed a twin BK 3,7 setup in a large ventral pod, housing both guns side-by-side for enhanced firepower against armored targets. Integration posed significant engineering challenges due to the cannon's mass and dimensions. Each underwing pod pair added approximately 600 kg to the , necessitating structural reinforcements and resulting in a speed reduction of 20-30 km/h along with diminished maneuverability, which increased vulnerability to enemy fighters. For dual-gun installations like the Ju 88 P-3 variant,

Pod configurations

The BK 3,7 was typically housed in self-contained external pods, designed as streamlined cylindrical units to minimize aerodynamic drag while accommodating the weapon's length and recoil. These pods included a fixed 12-round loaded with such as armor-piercing or high-explosive rounds, and were secured to the via quick-release pylons for rapid attachment and detachment during maintenance. The complete pod assembly, including the and empty , weighed approximately 295 kg, increasing to around 300-310 kg when fully loaded with . Pod configurations varied to suit different mission profiles, with options for a single pod mounted under the in bomber variants like the Ju 88 P-2, or paired pods under the wings in ground-attack setups such as the Ju 87 G and Hs 129. Armored variants were developed for enhanced protection in high-threat environments, as seen in the Ju 88 P-3 models, where reinforced plating shielded the and from ground fire. These designs allowed flexibility in armament while maintaining structural integrity under combat stresses. Internally, the pods featured hydraulic absorbers to dampen the intense backward force generated by the 37 mm rounds, ensuring no transmission of excessive vibration or damage to the aircraft's . Cooling vents along the pod's exterior facilitated air circulation to prevent overheating of the barrel during sustained firing sequences. The feed mechanism employed a robust clip-loading system integrated with the magazine, enabling reliable chambering despite the weapon's powerful operation and environmental factors like high-altitude conditions. The 12-round magazine capacity per pod necessitated short-burst firing tactics, typically limited to 3-6 rounds per engagement to conserve and maintain accuracy against moving targets. Reloading was performed manually on the ground, often requiring specialized equipment and crew, which constrained operational tempo in prolonged missions. This design prioritized precision over volume of fire, aligning with the cannon's role in anti-tank strikes.

Operational history

Eastern Front deployment

The BK 3,7 cannon, mounted in underwing pods on the Ju 87G Stuka, entered combat on the Eastern Front in as a dedicated anti-tank weapon against Soviet armored formations. Initial deployments focused on countering and KV-1 tanks during major offensives, with the first production Ju 87G-1 variants assigned to specialized ground-attack squadrons. These aircraft conducted low-level attacks, exploiting the cannon's ability to penetrate up to 100 mm of armor at close range with tungsten-core ammunition, though detailed ballistic performance is covered elsewhere. Schlachtgeschwader 2 (SG 2), particularly III. Gruppe under Major Hans-Ulrich Rudel, became the primary unit operating the BK 3,7-equipped Ju 87Gs, achieving notable success in battles such as Kursk in July 1943. Rudel's formation claimed over 500 tank destructions across the front, with Rudel personally credited for 519 tanks by war's end through precise, low-altitude dives—often at 15-30 meters—to target vulnerable rear and top armor. Tactics emphasized coordinated strikes, where escorting Ju 87Ds suppressed Soviet anti-aircraft defenses, allowing the "Kanonenvögel" (cannon birds) to deliver their limited salvos effectively. Note that Luftwaffe victory claims, including Rudel's, were often exaggerated and unverified post-war. Operational challenges plagued the BK 3,7's use, including its low ammunition capacity of 12 rounds per cannon (24 total per aircraft), which necessitated rapid hit-and-run missions to avoid prolonged exposure. These issues, combined with the Ju 87G's reduced maneuverability from the heavy armament, increased vulnerability to ground fire. Despite these limitations, the BK 3,7 reached peak effectiveness in 1943-1944, contributing to the blunting of Soviet advances in operations like Kirovograd. However, by late 1944, its impact waned as Soviet air superiority curtailed operations and upgraded tanks like the featured sloped armor exceeding the cannon's reliable penetration at combat ranges. SG 2 continued sporadic deployments until 1945, but fuel shortages and overwhelming enemy fighter presence largely grounded the formations.

Western and other uses

The BK 3,7 saw limited deployment on the Western Front and in other non-Eastern theaters during 1943-1944, primarily mounted on Bf 110 fighters of Zerstörergeschwader 1 (ZG 1) for anti-tank strikes in the Mediterranean and African fronts. An independent anti-tank staffel, Pz.Jg.St/ZG 1, operated 12 Bf 110s equipped with the BK 3,7 with little success against Allied armored targets. These aircraft operated from bases in and until August 1943, when the unit was withdrawn amid the . On the Western Front proper, Bf 110 variants were employed for bomber interception over the in by elements of ZG 1, targeting RAF bomber formations; the unit claimed three but suffered heavy losses, including nine and 17 killed. Ju 88 P-series , similarly equipped with the BK 3,7 for heavy firepower against four-engine bombers, saw sporadic use in defensive roles over and , though rarely for ground attack due to the weapon's weight and recoil limiting maneuverability. Anti-tank applications against Allied armor were uncommon in these theaters, as the cannon's primary adaptations focused on aerial roles rather than close support. Hs 129 B-2 ground-attack aircraft were deployed in the Mediterranean Theater of Operations (MTO) by 5./Schlachtgeschwader 1 (SchG 1) in from late 1942 to , engaging Allied armored columns including tanks during the final phases of the . Operations yielded mixed results, with some successes in destroying vehicles but frequent losses to Allied fighter escorts; the Staffel claimed limited tank kills before the theater's collapse. In following the Allied landings in , Hs 129 units provided sporadic ground support, though fighter threats and logistical issues curtailed effectiveness against advancing Sherman-equipped forces. By mid-1944 in , surviving Hs 129s were relegated to training roles with Schlachtgeschwader 101 in , seeing no significant deployment due to overwhelming Allied air dominance. Experimental adaptations of BK 3,7 pods appeared in the during 1944, where Ju 87 D-series aircraft used them for low-level in anti-partisan operations, providing against lightly armored resistance groups amid the German withdrawal. These configurations emphasized rapid magazine swaps for sustained suppression rather than precision anti-tank strikes, reflecting the cannon's versatility in secondary roles. As Allied advances accelerated in 1945, BK 3,7-equipped aircraft were largely abandoned due to mounting losses and fuel shortages, with remaining units in western and the grounded or destroyed. Captured examples, including Hs 129s and Ju 87s with the cannon, were tested by Soviet forces post-war to evaluate their anti-tank potential, influencing early assessments of German technology.

References

  1. https://www.warbirdsresourcegroup.org/LRG/luftwaffe_barrel_armaments_bk37.html
  2. https://donhollway.com/hans-ulrichrudel/
  3. https://cgsc.contentdm.oclc.org/digital/api/collection/p4013coll2/id/189/download
  4. https://www.thearmorylife.com/tank-busting-stuka-the-ju-87g-kanonenvogel/
  5. https://warhistory.org/%40msw/article/junkers-ju-87g-kanonenvogel
  6. https://military-history.fandom.com/wiki/BK_3%2C7
  7. https://www.imfdb.org/wiki/BK_3.7
  8. https://www.wehrmacht-history.com/luftwaffe/armaments/3-7-cm-bk.html
  9. https://www.rheinmetall.com/en/company/history/125-years-rheinmetall/years-1936-1945
  10. http://replica-weapons.com/replica-artillery-shells-and-projectiles/german_37x265b_sprgrpatr18_bk37_shell_replica.html
  11. http://airvectors.net/avstuka.html
  12. https://airpages.ru/eng/lw/bk37.shtml
  13. https://www.warbirdsresourcegroup.org/LRG/bk37.html
  14. https://flying-guns.com/flying-guns-gun-tables/
  15. http://discuss.ww2incolor.com/t/luftwaffe-cannons-machineguns/1953?page=6
  16. https://www.secretprojects.co.uk/threads/did-the-german-3-7-cm-flak-sk-c-36-exist.33650/page-2
  17. https://dokumen.pub/luftwaffe-special-weapons-194245-9781472839824-9781472839831-9781472839800-147283982x.html
  18. https://www.nevingtonwarmuseum.com/ju-87-g.html
  19. https://www.gruppofalchi.com/files/Profile-Publications-Aircraft-069---Henschel-Hs-129.pdf
  20. https://www.warbirdsresourcegroup.org/LRG/luftwaffe_messerschmitt_bf110_armament.html
  21. http://www.aeroflight.co.uk/aircraft/types/type-details/junkers-ju-88-fighter-variants
  22. https://old-wiki.warthunder.com/Ju_87_G-1
  23. https://military-history.fandom.com/wiki/BK_37
  24. https://warhistory.org/@msw/article/junkers-ju-87g-kanonenvogel
  25. https://warfarehistorynetwork.com/article/nazi-stuka-ace-hans-rudel/
  26. https://airwarpublications.com/late-war-ju-87-g-operations/
  27. https://asisbiz.com/Luftwaffe/Zerstorergeschwader-1.html
  28. https://www.venturapublications.com/news/publish/hs129intunisia.shtml
  29. https://www.ww2.dk/air/attack/sg101.html
  30. https://www.historyofwar.org/articles/weapons_henschel_hs_129.html
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