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Oscillating turret

An oscillating turret is a specialized design for the armament mounting on armored fighting vehicles, such as tanks and armored cars, comprising two distinct sections that articulate independently: an upper "roof" portion rigidly fixed to the main gun, which oscillates vertically for elevation and depression via pivot joints, and a lower "collar" section attached to the vehicle's turret ring for full 360-degree horizontal traverse.^[1] This configuration allows the gun to elevate without altering the turret's overall orientation, distinguishing it from conventional turrets where the entire structure moves for both traverse and elevation.^[1] The concept originated during World War I with a 1915 patent by British inventor Arnold H. S. Landor, but practical development occurred in the mid-20th century amid post-World War II innovations in tank automation.^[1] During World War II, prototypes like Germany's Flakpanzer IV Kugelblitz (1943) explored the design for anti-aircraft roles, though it remained experimental.^[1] The design peaked in popularity during the early Cold War, particularly in the 1950s, led by French engineers at Ateliers d'Issy-les-Moulineaux (APX), who integrated it with autoloaders to enhance firing rates; the United States also tested variants in prototypes like the T69 and T54E7 tanks.^[2]^[3] By the 1960s, however, adoption waned due to inherent limitations, limiting its use to light tanks and reconnaissance vehicles rather than main battle tanks.^[4] Oscillating turrets offered several advantages, including simplified integration with automatic loaders—enabling faster reloading without manual elevation adjustments—reduced turret ring size for a lower profile, and more efficient ammunition stowage in the fighting compartment with a fixed loading trajectory.^[1]^[4] These features contributed to higher rates of fire and a more compact ballistic shape, making them suitable for lightweight, mobile vehicles.^[2] However, significant disadvantages included restricted vertical firing angles (typically limited to about 10-12 degrees elevation due to hull-turret spacing), challenges in achieving full NBC (nuclear, biological, chemical) sealing because of the pivot joints, and weaker armor protection from the composite structure.^[1]^[4] These drawbacks, identified in U.S. and French testing, ultimately led to the abandonment of the concept for heavier armored vehicles by the late 1950s.^[2] Notable examples include the French AMX-13 light tank (introduced 1952), which featured a 75 mm or 90 mm gun in an oscillating turret with a 12-round autoloader, achieving a firing rate of up to 10 rounds per minute and seeing widespread export to over 30 countries.^[4]^[1] The Austrian SK-105 Kürassier (1960s) employed a similar 105 mm setup for fire support roles, while the U.S. M1128 Mobile Gun System (fielded 2005, retired 2022) represented a modern, albeit rare, iteration on a Stryker chassis.^[1]^[5] Experimental heavy designs, such as the French AMX-50 and U.S. T54E7 with its 105 mm T740E2 gun, demonstrated potential but were not produced due to the identified flaws.^[4]^[3] Today, oscillating turrets persist in niche applications, with legacy examples like upgraded AMX-13 remaining in limited service in some nations as of 2025, but have largely been supplanted by stabilized conventional designs with advanced autoloaders.^[1]^[6]

Design and Principles

Mechanism of Operation

An oscillating turret functions by tilting the entire upper portion of the turret vertically relative to the hull, enabling gun elevation and depression without independent movement of the gun barrel within the turret. This oscillation occurs on trunnions—pivot points mounted to a base ring fixed to the hull—causing the upper turret mass, including the rigidly attached gun, to pivot as a single unit. Elevation ranges vary by design but are typically limited to -8° to +12° in production light tanks like the AMX-13, with some prototypes achieving up to +20°, providing adequate vertical aiming capability for most combat scenarios.^[7]^[8]^[9] The key structural components include an upper turret half housing the gun and a lower half or base ring connected via trunnion pins and bearings, often secured by a breech ring or pivot assembly to maintain alignment. The gun is fixed rigidly to the upper half, eliminating relative motion between the barrel and turret interior. Elevation and depression are achieved through hydraulic or mechanical actuators applied to the trunnions, with manual backups for redundancy; these systems power the pivot motion while stabilizers, such as gyroscopic controllers, counteract hull vibrations to maintain aim.^[7]^[4] Recoil from firing is absorbed by the entire oscillating turret mass rather than localized internal buffers, as the gun's recoil path is confined to a fixed space within the crew compartment, leveraging the turret's structural integrity and hydrospring mechanisms for energy dissipation. This design pivot point at the trunnions distributes forces across the hull mounting, reducing stress on individual components.^[10]^[7] The fixed gun position relative to the upper turret facilitates integration with autoloaders, as the loading mechanism can be mounted directly at the breech without accommodating gun recoil travel or elevation-induced shifts, allowing a rigid shell trajectory from magazine to chamber. Automated loaders, such as rotating drum systems, cycle rounds efficiently in this confined space.^[7]^[4] Technical details include a reduced turret ring diameter—approximately 1.85 meters in medium tank prototypes—to minimize the opening in the hull roof and enhance protection, though light tank designs achieved even smaller rings around 1.2-1.5 meters for compactness. Sealing mechanisms, such as gaskets or skirting rings around the trunnion gaps, prevent gas leakage from firing and ingress of debris, though challenges like clearance between oscillating parts required robust materials to maintain hermeticity during operation.^[7]^[10]^[11] This mechanism originated in post-World War II French designs, marking an innovative approach to turret engineering for lighter armored vehicles.^[4]

Comparison to Conventional Turrets

In conventional turrets, the main gun elevates and depresses independently within a fixed-orientation turret structure, mounted on internal trunnions that allow vertical movement while the turret itself rotates horizontally on a hull-mounted ring; this setup necessitates substantial internal space to accommodate the gun's recoil stroke, breech swing, and loader operations.^[12]^[4] Oscillating turrets differ structurally by dividing the turret into a lower collar for 360° horizontal traverse on the same hull ring and an upper dome rigidly fixed to the gun, which elevates and depresses by pivoting on trunnions at the collar's sides; this eliminates the need for internal gun movement space, resulting in a smaller overall turret volume and a lower profile compared to conventional designs of equivalent gun caliber, as the gun can be mounted directly against the roof without clearance for vertical travel.^[12]^[4]^[13] While both turret types achieve full 360° traverse via the hull ring, oscillating designs often limit maximum gun elevation to +12° to +15° in light tank designs due to the constrained pivot arc of the upper dome, though some prototypes reached higher; however, oscillating turrets benefit from high gun mounting, which enhances effectiveness in hull-down positions despite moderate depression angles of -8° to -10°, allowing the muzzle to align better with terrain contours.^[8] Optics and sighting systems in oscillating turrets must account for the entire upper dome's movement during elevation, typically employing stabilized periscopes or integrated sights that pivot with the gun to maintain alignment; conventional turrets, by contrast, permit fixed internal optics with mechanical linkages to track the gun's independent motion, simplifying stabilization but adding mechanical complexity.^[13]^[12] In terms of recoil management, oscillating turrets distribute the gun's recoil energy across the mass of the upper dome and trunnions, which absorbs and transmits forces to the hull more evenly and reduces localized stress on internal components compared to conventional designs, where recoil is primarily handled by the gun's trunnion mounts and recuperators within a confined space.^[4]^[12]

Advantages and Disadvantages

Advantages

Oscillating turrets provide significant engineering benefits through their compact design, featuring a smaller turret ring and reduced overall height compared to conventional turrets equipped with the same armament. This results in better integration with the vehicle hull and a lower silhouette, enhancing concealment and tactical mobility in combat environments.^[12] The reduced swept volume inside the turret further contributes to this compactness by minimizing the space required for gun movement.^[12] A key advantage lies in the facilitation of autoloaders, as the fixed alignment between the gun breech and the loading mechanism eliminates the need for complex systems that adjust for gun elevation. This simplifies mechanical loading and enables high rates of fire, such as up to 10-12 rounds per minute in designs like the AMX-13, without relying on elevation-linked feeders.^[10] The design's inherent compatibility with automatic loading was particularly beneficial in French light tanks, where it supported rapid fire capabilities.^[12] The elevated gun mounting in oscillating turrets allows for improved depression angles, typically -8° to -10°, without interference from the hull, which is advantageous for engaging targets from hull-down positions. Additionally, the lighter turret mass—stemming from the smaller size and fewer internal components—improves weight distribution, vehicle balance, and overall mobility, especially in lighter armored platforms.^[1] From a production standpoint, the oscillating turret incorporates fewer moving parts internally relative to traditional designs, potentially reducing manufacturing complexity and costs for the turret assembly.^[10]

Disadvantages

The split upper and lower turret design in oscillating turrets introduces seams and joints that compromise overall armor integrity, creating potential weak points vulnerable to penetration compared to the monolithic construction of conventional turrets.^[1] This configuration often results in reduced effective armor thickness in critical areas due to the necessity of flexible connections between the oscillating parts.^[13] The high mounting of the gun to accommodate oscillation further exacerbates this by increasing the turret's silhouette, making it more susceptible to detection and targeting.^[1] Mechanical constraints inherent to the oscillating mechanism limit the gun's elevation range to approximately +12-15 degrees, significantly less than the +20 degrees achievable in many conventional turret designs.^[1] This restriction arises from the limited clearance between the turret bustle and the vehicle's hull deck, preventing higher angles and thereby hindering indirect fire capabilities or engagements over high obstacles or uphill targets.^[1] Sealing the oscillating turret against environmental hazards proves challenging due to the dynamic movement between the upper and lower sections, often relying on imperfect canvas or rubber bellows that allow dust ingress and prevent airtight closure.^[1] Achieving nuclear, biological, and chemical (NBC) protection is particularly problematic, as gross leakage at the joints and turret ring renders collective overpressure systems ineffective, exposing crews to contaminants.^[13] Recoil-induced vibrations further accelerate wear on these gaskets and seals, compounding reliability issues in dusty or contaminated environments.^[1] The full-turret oscillation complicates optics and stabilization systems, as the entire upper assembly must be precisely controlled rather than just the gun barrel, leading to difficulties in maintaining accurate sight alignment during movement.^[15] This often necessitates bulkier external rangefinders and stabilizers to compensate for the erratic motion, increasing overall system complexity and vulnerability to misalignment under fire.^[15] Maintenance demands are heightened by the stresses placed on trunnions and actuators from the full-mass oscillation of the upper turret, which bears the weight of the gun, armor, and sometimes autoloader components, resulting in elevated failure rates under field conditions.^[13] The design's complexity, including the need for external ammunition replenishment in many configurations, further burdens logistics and exposes crews to risks during resupply.^[13] These factors contributed to the declining adoption of oscillating turrets after the 1960s as conventional designs proved more reliable.^[1]

Historical Development

Origins and Early Experiments

The concept of the oscillating turret originated earlier than commonly associated with postwar French designs. In 1915, British inventor Arnold H. S. Landor, living in Italy, patented a design for an armored car featuring what is possibly the first oscillating turret, armed with a 65 mm or 75 mm gun mounted on the vehicle's roof.^[1] During World War II, Germany developed experimental prototypes incorporating the design, notably the Flakpanzer IV Kugelblitz in 1943, an anti-aircraft vehicle with a fully enclosed oscillating turret armed with twin 30 mm MK 103 cannons, though only prototypes were built and it never entered production.^[1]^[16] Practical development accelerated in France during the late stages of World War II and the immediate postwar period, primarily as an innovative solution for equipping lightweight, high-mobility armored vehicles with powerful armament while minimizing crew requirements and hull space constraints. Influenced by wartime manpower shortages and the need for automated loading systems to sustain high rates of fire in compact designs, French engineers sought to overcome the limitations of traditional turret mechanisms, which often required larger structures to accommodate gun elevation in cramped light tank hulls. This approach allowed for a more streamlined turret profile by mounting the gun on trunnions between two articulated sections that oscillated together for elevation, facilitating integration with early autoloader concepts.^[1] Early experiments began with the Panhard 201 armored car prototype in the early 1940s, developed by Panhard et Levassor, which featured a manually operated oscillating turret armed with a 25 mm SA35 anti-tank gun; the design was partially completed but evacuated to North Africa following the 1940 German invasion, marking one of the first practical tests of the mechanism. Postwar efforts accelerated under the Atelier de Construction d'Issy-les-Moulineaux (AMX), where in November 1946, engineers proposed a 12-ton airborne tank concept incorporating an oscillating turret with a semi-automatic loader using two revolver-type drums holding six 75 mm rounds each, achieving a theoretical rate of fire of 12 rounds per minute. By 1947, AMX developed detailed plans for an oscillating 75 mm turret on mockup models, focusing on high-velocity guns with muzzle velocities around 850 m/s, while initial patents for the oscillating mechanism were filed by French engineers to protect the design's novel trunnion-based elevation system. These prototypes emphasized feasibility in lightweight vehicles, with wooden mockups demonstrating basic functionality by 1948.^[1]^[17]^[18] British interest in the 1940s was limited but notable, with early postwar evaluations of French-inspired designs through the Armoured Fighting Vehicle (AFV) research programs, though most ARL-related concepts were abandoned in favor of conventional turrets due to reliability concerns. In March 1949, French development progressed with the AMX M4 prototype, incorporating an oscillating turret powered by a separate 55 hp Maybach engine for rotation, tested on static rigs to validate hydraulic elevation systems. A key technical milestone came in 1950 with proof-of-concept demonstrations using wooden models fitted with hydraulic actuators, successfully elevating 90 mm armaments while maintaining a low silhouette suitable for light tanks.^[17] Global early interest extended to the United States, where the Army initiated evaluations of oscillating turret concepts in 1949 under early medium battle tank (MBT) projects, examining French designs for potential adaptation to 90 mm guns amid Cold War modernization efforts, though full prototyping occurred later in the 1950s. These pre-1952 experiments laid the groundwork for later refinements, prioritizing conceptual validation over operational deployment.^[1]

Peak Adoption in the 1950s-1960s

France led the development and adoption of oscillating turrets during the early Cold War, introducing the design in AMX-13 light tank prototypes in 1952, which entered production in 1954 and became a cornerstone of French armored doctrine focused on mobile, export-oriented reconnaissance vehicles.^[19] The AMX-13's FL-10 turret, featuring an autoloader for its 75 mm gun (later upgraded to 90 mm and 105 mm variants), enabled a high rate of fire in a compact package, aligning with France's emphasis on lightweight, versatile tanks for rapid deployment and colonial operations.^[20] This innovation proliferated internationally, with the United States conducting trials on projects like the T54E1 medium tank prototype (armed with a 105 mm gun) and the T58 heavy tank (with a 155 mm gun) between 1954 and 1957 to evaluate oscillating designs for enhanced firepower and autoloading efficiency.^[1] Experimental heavy tank programs, such as the French AMX-50, incorporated oscillating turrets in prototypes tested from 1954 to 1956, aiming to mount 120 mm autoloaded guns on heavier platforms.^[21] By 1960, over 3,000 AMX-13 units equipped with oscillating turrets had been produced, representing the design's largest-scale implementation and underscoring its appeal for quick-firing roles in reconnaissance amid escalating fears of atomic warfare on the European battlefield.^[22] NATO evaluations in 1962 further highlighted the autoloader's potential in oscillating systems for reducing crew size and boosting sustained fire rates, influencing allied interest in similar technologies.^[1] However, emerging field tests revealed sealing issues that complicated protection against nuclear, biological, and chemical threats.^[1] The onset of decline began by 1965, as advances in composite armor and conventional autoloaders diminished the relative advantages of oscillating designs, with the last major trials concluding in 1968.^[1]

Applications in Armored Vehicles

Light and Reconnaissance Tanks

The French AMX-13 light tank, produced from 1952 to 1985, exemplifies the application of oscillating turrets in reconnaissance vehicles, featuring a 75mm CN-75-50 gun mounted in a compact FL-10 turret with a 1.4m ring diameter. Over 7,700 units were manufactured, with approximately 3,400 exported to more than 25 countries, including Argentina, India, Indonesia, Israel, and the Netherlands, making it one of the most widely disseminated light tanks of the Cold War era.^[23]^[24]^[25] Key operational features of the AMX-13 included a 12-round autoloader using twin six-round revolver magazines, enabling a high rate of fire up to 10 rounds per minute for rapid engagements in scouting roles. The turret's low profile, with a height of 0.9m, enhanced mobility in urban and reconnaissance environments by reducing the vehicle's silhouette. These tanks saw combat in Middle East conflicts, notably with Israeli units during the 1956 Suez Crisis and 1967 Six-Day War, where over 400 were employed effectively against Arab armored formations.^[26])^[27] Variants such as the AMX-13/105, introduced in the 1960s, upgraded the armament to a 105mm gun for improved anti-tank performance while retaining the oscillating turret design, though it was primarily an export model not adopted by the French Army. Local production occurred in the Netherlands, where around 200 AMX-13s were modified to the 105mm standard for reconnaissance battalions, and in Argentina, where licensed assembly supported regional exports and domestic needs.^[28]^[29]^[30] In tactical roles, the AMX-13 prioritized speed, achieving up to 65 km/h on roads, over heavy armor, allowing it to excel in flanking and scouting missions where quick repositioning was essential. The oscillating turret facilitated rapid adjustments for engagements from defilade positions, with its design providing notable gun depression for hull-down firing in varied terrain.^[23]^[24] By the 1990s, most AMX-13s had been phased out in favor of wheeled infantry fighting vehicles offering greater versatility, though upgraded examples remain in reserve with several operators as of 2025, particularly in Indonesia where over 130 are maintained for secondary roles.^[6]^[24] The Austrian SK-105 Kürassier light tank, introduced in 1965, also utilized an oscillating turret based on the AMX-13 design, armed with a 105 mm gun and an autoloader for a rate of fire up to 9 rounds per minute. Approximately 700 units were produced until 1978, with exports to countries including Brazil, Morocco, and Tunisia. It served primarily in fire support roles for infantry, emphasizing mobility with a top speed of 65 km/h, and remained in service with the Austrian Army until the 2000s.^[31]

Medium and Heavy Tank Prototypes

The French AMX-50 heavy tank prototype, developed between 1950 and 1958, represented a significant effort to counter Soviet heavy tanks through the integration of an oscillating turret design. This turret featured a 2-meter ring diameter and was armed with either a 100 mm or 120 mm gun, allowing for the incorporation of an autoloader that achieved a rate of fire up to 12 rounds per minute. Four variants were constructed and rigorously tested during this period, with the design emphasizing enhanced firepower and rapid reloading to address threats from contemporary Soviet armor like the IS series.^[17]^[32] In parallel, French medium tank initiatives explored oscillating turrets for balanced mobility and armament. The Lorraine 40t, prototyped from 1954 to 1957, mounted a 100 mm SA47 gun in an oscillating turret equipped with a bustle-mounted autoloader, enabling a high burst rate while maintaining a relatively compact profile. Similarly, the Batignolles-Châtillon Char 25t prototype from the 1950s incorporated a 90 mm gun in an oscillating configuration, targeted at breakthrough operations against fortified positions, though it remained experimental without advancing to production. These designs highlighted the French focus on autoloading mechanisms to boost tactical flexibility in medium-weight vehicles.^[33]^[34] United States developments in the mid-1950s also tested oscillating turrets for medium tanks, with the T69 prototype—derived from the M48 Patton chassis and active from 1954 to 1955—featuring a 90 mm gun in such a mount. This design prioritized rapid fire through an eight-round drum autoloader, aiming to enhance engagement speeds in dynamic battlefield scenarios, but trials revealed integration challenges that contributed to its cancellation in favor of the conventional M60 tank.^[1] Soviet experiments during the same era included prototypes exploring oscillating turrets for improved loading efficiency, though limitations in elevation and depression angles hindered adoption; the Object 430, developed from 1953 to 1955 as a precursor to the T-64, ultimately used a conventional turret with a 100 mm D-10T gun.^[35] By the early 1960s, most oscillating turret prototypes in medium and heavy categories were canceled, primarily owing to inherent armor vulnerabilities at the oscillating joint, which complicated effective sealing against chemical and nuclear threats while maintaining structural integrity. These designs indirectly influenced subsequent armored vehicle concepts by demonstrating the trade-offs between firepower speed and protective requirements, though none progressed beyond testing phases.^[1]

Other AFVs and Legacy

The Panhard EBR, a French wheeled reconnaissance vehicle introduced in 1951, incorporated an oscillating turret derived from the AMX-13 design, mounting a 75 mm SA 49 gun in early models and later upgraded to a 90 mm F2 with an autoloader in the EBR-90 variant for enhanced firepower in rapid engagements.^[36] This configuration allowed a compact, low-profile setup suitable for reconnaissance roles, with the turret's two-part oscillation enabling efficient ammunition handling via a bustle-mounted autoloader while maintaining mobility on its 8x8 wheeled chassis.^[37] Produced until 1960 and serving in the French Army through the 1980s, the EBR demonstrated the oscillating turret's adaptability to non-tank AFVs, prioritizing speed and concealment over heavy armor.^[36] In the post-1960s era, oscillating turrets saw limited experimental revivals in specialized vehicles, such as the American M1128 Mobile Gun System developed in the early 2000s as part of the Stryker family.^[1] This wheeled AFV featured an unmanned, remote-controlled oscillating turret armed with a 105 mm M68A2 rifled gun and an 8-round autoloader, designed for direct fire support in expeditionary operations with a low silhouette for urban and mobile warfare.^[1] Introduced to service in 2005 and divested by the U.S. Army by fiscal year 2022 due to challenges with autoloader reliability and overall costs, the M1128 highlighted the design's potential for compact, automated systems.^[1]^[38] The legacy of oscillating turrets persists in modern armored vehicle concepts through their influence on autoloader integration, where the design's fixed gun-breech alignment simplified early automatic loading mechanisms, paving the way for more reliable systems in conventional turrets.^[1] Rare revivals appear in unmanned remote weapon stations, such as conceptual compact turrets for drones and light AFVs in the 2020s, leveraging oscillation for reduced size and faster elevation adjustments in confined spaces.^[1] However, broader adoption waned due to inherent drawbacks like poor sealing against nuclear, biological, and chemical threats from the turret's hinged sections, compounded by limited gun elevation and stabilization issues.^[1] By the 1970s, oscillating turrets fell into obsolescence as advancements in smoothbore guns offered greater ammunition versatility and penetration without the design's constraints, while digital fire control systems enabled precise stabilization in traditional turret layouts, eliminating the need for oscillation to achieve rapid aiming.^[1] As of 2025, no new production models incorporate oscillating turrets, though their principles continue to inform simulations for urban combat vehicles, emphasizing compact unmanned configurations for enhanced survivability in close-quarters environments.^[1]

References

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May 4, 2018 · Oscillating turrets were one of the latest trends in tank design in the early years of the Cold War, in the 1950s. The original intention of ...
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construction of test bed vehicles brought out serious disadvantages. In consequence, the concept of tanks with oscillating turrets was not pursued beyond ...
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The T54E7 version used the T740E2 gun mounted in an oscillating turret with auto-loading. The T54 and. T54E2 were conventionally turreted. The turret assembly ...
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On various occasions, the press reported about tanks with armament enclosed in an oscillating turret (the French AMX-13 and. AMX-50), the placing of the ...
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The T42 tank hull, on which the T69 oscillating turret is mounted, is constructed in two sections. The forward of these, a homogeneous armor steel casting ...
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[PDF] AUTHORITY THIS PAGE IS UNCLASSIFIED - DTIC
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None
Below is a merged response that consolidates all the information from the provided summaries into a single, comprehensive overview. To maximize detail and clarity, I’ve organized the key information into tables where appropriate, while retaining narrative sections for context. The response covers the topic of "Oscillating Turret and Sealing Mechanisms for Gas Leakage" based on the document "Engineering Land Systems" (https://www.dso.org.sg/Media/Default/Publications/DTC50%20-%20Engineering%20Land%20Systems.pdf) and addresses content availability, relevance, and useful URLs.
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AMX-13 - GlobalSecurity.org
Apr 20, 2019 · The oscillating turret is a two-piece turret where the bottom half allows a 360 degree rotation on a conventional turret ring, but the upper ...
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Oscillating Turret - Army Guide
Nov 1, 2006 · The oscillating turret is a two-piece turret where the bottom half allows a 6400 mils (360 degrees) rotation on a conventional turret ring, ...<|separator|>
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[PDF] Human Factors Engineering Data Base Development for Armored ...
Jul 3, 1986 · AMX-13 Turret, Gunner's and Commander's Hatches. 1-4. 1-4. Six-Round ... The lower part is located on the turret ring and consists of two ...
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Jan 7, 2021 · The tank was equipped with an oscillating turret - a type of tank turret, in which the gun is fixedly mounted in the upper half of the ...
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Mar 5, 2016 · The unending quest for an ideal tank described in this article resulted in the longest lasting project in French tank design history. Longer ...
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It appears that general ideas of the tank's design had existed since about two years – we already know of schematics of a Batignolles-Châtillon 12t artillery ...
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Dec 20, 2021 · The Object 430 was a medium tank with a single turret, rear transmission and engine compartments, and more rational use of internal space compared to existing ...Missing: oscillating 1948
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[16]
French Light Tank AMX-13
### AMX-13 Summary
[17]
AMX-50 French Heavy Tank
The AMX-50 was a serie of innovative French postwar heavy tanks using the oscillating turret to mount 100 to 120 mm high velocity guns.
[18]
Inside the AMX-13: Part I by World of Tanks - War History Online
Jan 22, 2016 · Total production of the AMX-13 family is approximately 7,700 units, around 3,400 of which were exported. The tank was designed at the Atelier de ...
[19]
AMX-13 (Light tank) - Army Guide
It is estimated that total production of the AMX-13 family of light tracked vehicles, including the light tank, amounted to 7,700 units, of which around 3,400 ...
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Detailing the technical specifications, development, and operational history of the AMX-13 Light Tank (LT) including pictures.
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1946 - 1948. Developer. France - Atelier de Construction d'Issy-les-Moulineaux ... The oscillating turret is used since the autoloader with its twin 6 ...
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Forward view of an upgraded Dutch army AMX-13 Modèle 58 light tank armed with 105mm cannon. Source: www.defensie.nl - © copyright lies with original owner.
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AMX-13/105 NL (here “B16” from the 103rd reconnaissance batallion Cavalerie Verkenningseskadron in 1985). About 200 AMX-13s were in service with the Dutch Army.
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Sep 6, 2020 · The new variant of the AMX 13 did not see service in the French army, but was exported to other countries; the vehicle was produced in Argentina ...Missing: Dutch | Show results with:Dutch
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Dec 29, 2020 · It was a good tank destroyer when it appeared in 1955. It was used to good effect in the 1956 war by the Israelis and again in 1967. The CN-75– ...
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The turret would be essentially be made up of two distinct components - an upper half and a lower half. The upper section contained the main gun mounting and ...
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Panhard EBR armoured car (1951)
### Summary of Panhard EBR Oscillating Turret