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The 2B11 is a 120 mm mortar developed by the Soviet Union in 1981 and subsequently fielded in the Soviet Army. The basic design for the 2B11 was taken from the classic Model 1943 120 mm mortar, and incorporated changes to make the mortar less heavy.[2] It is a part of the 2S12 Sani. It is being supplemented in Russia by the new 2B24 82 mm mortar.[3][4][5][6][7]

Key Information

The 2B11 has proliferated to other countries primarily as result of the collapse of the Soviet Union.

Ammunition

[edit]
Shells specifications[8][9]
Shot index Shell index Shell weight, kg Mass of explosive, kg Area of manpower destruction, m² Area of damage to equipment, m² Maximum firing range, km
HE/FRAG
3VOF68 3OF34 16,1 3,43 2250 1200 7,1
3VOF69 3OF36 16,1 3,16 1700 700 7,1
3VOF79 53-OF-843B 16 1,4 1200 200 7,1
Guided
KM-8 Gran 27 5,1 9
Smoke
3VD17 3D14 16,1 6,8

Operators

[edit]
Map with 2B11 operators in blue and former operators in red (No longer existing states diagonally striped)

Current operators

[edit]

Former operators

[edit]

Variants

[edit]
  • 2B11A – A modernized version with an improved base plate.[19][20]

Some countries have developed self-propelled versions of the 2B11:

See also

[edit]

Notes

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

2B11

View on Grokipedia
from Grokipedia

The 2B11 is a 120 mm heavy mortar developed by the and adopted for service with the in 1981.
Designed as the primary barrel element of the 2S12 "Sani" towed mortar complex—meaning "Sleigh" in Russian—the 2B11 provides long-range support, succeeding World War II-era systems like the PM-43 through enhancements in durability, accuracy, and deployment speed.
Weighing 210 kg in the firing position and manned by a crew of five, it achieves a maximum range of 7,180 meters with a of 325 m/s and a cyclic up to 15 rounds per minute, utilizing high-explosive, incendiary, smoke, and illumination munitions compatible with standard 120 mm mortar .
Produced at the since 1981 with over 1,500 units manufactured, the 2B11 features a two-wheeled for , elevation from +45° to +80°, and limited traverse of ±5°, enabling rapid setup and relocation in field conditions.
Variants include the standalone 2B11 and integrated systems like the 2S12A with modernized truck ; it continues in active service with and has been exported to operators such as , , , , Georgia, , , and , demonstrating its enduring reliability across diverse militaries.

Development

Soviet origins and design inception

The 120 mm mortar originated in the during the late 1970s, when engineers at the Central Research Institute "Petrel" initiated its development to modernize regimental capabilities. This effort targeted the replacement of obsolescent II-era systems, particularly the 120-PM-43 (PM-43) and M-120 mortars, which suffered from limitations in mobility, weight, and sustained firing endurance for operations in mechanized divisions. The design process emphasized practical enhancements derived from operational feedback in exercises, prioritizing a balance of firepower projection and logistical feasibility over complex guidance systems, in line with Soviet doctrine for massed area suppression in scenarios. Core engineering decisions retained the muzzle-loading smoothbore architecture of the PM-43 for inherent simplicity and rapid reloading under field conditions, while introducing a reinforced barrel capable of withstanding elevated chamber pressures to achieve extended effective ranges beyond the predecessor's 5700-meter limit. The mount adopted a compact, sled-inspired configuration—earning the nickname "Sani" (Russian for "")—with integrated wheels for vehicle towing and manual repositioning, reducing overall weight to approximately 290 kilograms from the PM-43's heavier frame and improving stability on uneven terrain without sacrificing traverse angles of 200–240 degrees. These choices reflected a focus on durability for high-volume fire missions, enabling crews of four to five personnel to emplace and fire within minutes, tailored to the demands of rapid Soviet offensive maneuvers against peer adversaries. The system's inception aligned with broader late artillery rationales, favoring weapons optimized for high-explosive effects across dispersed targets rather than pinpoint accuracy, as ballistic trajectories in mortars inherently suited probabilistic coverage in fluid battlespaces. Formal adoption occurred in 1981 following state trials that validated these improvements, marking a incremental evolution rather than radical innovation to ensure reliability in at .

Adoption into service

The 2B11 120 mm mortar was formally adopted into service in 1981 as both an independent weapon system and a component of the towed mortar complex, following development initiated in 1979 by the Burevestnik Central Research Institute. Trials preceding adoption demonstrated a maximum range of 7.1 km and a peak of 15 rounds per minute—surpassing the 5.7 km range and 9 rounds per minute of its World War II-era predecessor, the —while maintaining compatibility with existing 120 mm ammunition stocks. This performance enabled its selection as a lightweight, towed heavy mortar for divisional and regimental-level , emphasizing reliability over radical innovation. Initial production occurred in Soviet state defense enterprises during the early , leveraging established designs to facilitate scalable output without requiring extensive retooling. The system's baseplate and bipod configuration allowed for rapid deployment by a five-man crew, supporting Soviet priorities for equipment that could be produced in volume to equip mass motorized formations. In , the 2B11 was primarily allocated to motorized rifle , with each incorporating three 120 mm mortar batteries—one per —each consisting of six tubes for organic support at and regimental echelons. This integration reflected the emphasis on decentralized, high-volume suppressive fires to enable rapid advances by , prioritizing sheer firepower density and logistical simplicity in large-scale offensive operations over precision-guided alternatives.

Design and components

Barrel and firing system

The 2B11 mortar utilizes a smoothbore barrel constructed from high-strength steel, measuring 1,740 mm in length with a caliber of 120 mm. This design enables the barrel to accommodate elevated chamber pressures necessary for achieving extended ranges, while the absence of rifling minimizes wear and simplifies manufacturing compared to rifled alternatives. The muzzle incorporates a double-row baffle to mitigate gas blowback during firing, enhancing operational safety and efficiency. The firing features a mechanical striker mechanism affixed to the removable breech, which is activated via a or pull after the round is muzzle-loaded and seated. This configuration allows for controlled ignition, reducing the risk of accidental discharge inherent in purely gravity-based drop-fire systems with fixed pins. The setup supports rapid round insertion and firing, requiring minimal crew intervention beyond loading and aiming adjustments.

Mount and ancillary equipment

The 2B11 mortar employs a lightweight two-wheeled carriage designated 2L81 for transport and deployment, weighing 87 kg and designed for towing behind light vehicles or short-distance manhandling by infantry. This sled-like structure, integral to the 2S12 "Sani" system, enables rapid repositioning in combat, with the mortar secured in an assembled state during transit. Towing is typically performed by four-wheel-drive trucks such as the Ural-4320 or its variants like the Ural-43206, allowing integration with mechanized units for enhanced battlefield mobility over distances up to 1,000 km on equipped vehicles. Ancillary equipment includes the MPM-44M , mounted on the bipod for precise adjustment via and scales. The sight supports panoramic attachments for all-around observation and targeting, facilitating setup without extensive position preparation. For dismounted or operations, the 2B11 disassembles into four primary man-portable loads: the barrel tube, circular baseplate, bipod assembly, and sights package, each manageable by a two- to four-man crew despite the overall system weight exceeding 200 kg when assembled. This permits rapid breakdown and reassembly, typically within minutes, supporting deployment in rugged inaccessible to vehicles.

Specifications

Physical characteristics

The 2B11 mortar features a 120 mm smoothbore barrel measuring 1,740 mm in length, designed for high-angle fire. The system in firing position, comprising the barrel, bipod mount, and baseplate, weighs 210 kg, enabling transport and setup by a small crew. When mounted on the 2L81 two-wheeled carriage for towing, the total weight increases to 297 kg. The bipod mount provides an elevation range of 45° to 80°, with traverse limited to 6° left and right for fine adjustments. The baseplate is a large circular design for stability on various terrains, while the barrel and mount are constructed from high-strength alloys to withstand and field conditions, incorporating improvements over earlier Soviet mortars like the PM-43. This configuration prioritizes portability, with the disassembled components balanced for handling by 4-5 personnel.

Performance parameters

The 2B11 mortar achieves a maximum firing range of 7,100 meters when employing standard high-explosive fragmentation rounds, with a minimum range of 480 meters determined by charge increments and adjustments. Effective spans 45 to 80 degrees, enabling high-angle trajectories suitable for over obstacles. Sustained rate of fire reaches 10 rounds per minute, while burst rates can attain 15 rounds per minute for short durations, emphasizing volumes over precision targeting. Traverse capability is limited to ±5 degrees without bipod repositioning, which expands to approximately 26 degrees upon manual adjustment, prioritizing stability during rapid engagements. Reloading involves drop-loading propellant-charged rounds into the muzzle, achieving cycle times under 10 seconds per round in trained crews, which supports the system's doctrinal role in delivering concentrated, area-denial barrages. Barrel replacement for or can be completed in minutes using quick-disconnect mechanisms, minimizing in field conditions. These parameters derive from Soviet-era ballistic testing and operational evaluations, reflecting trade-offs for lightweight mobility in infantry support roles.

Ammunition

Compatible rounds

The 2B11 employs standard 120 mm mortar , including legacy rounds from the PM-43 (Model ) system, which ensures interoperability with earlier Soviet-era stockpiles and simplifies supply chains in field operations. The principal round is the OF-843 (or OF-843B variant) high-explosive fragmentation (HE-FRAG) bomb, featuring a cast-iron body filled with approximately 3.5 kg of TNT or equivalent for blast and shrapnel effects against personnel, unfortified positions, and light vehicles in area-denial roles. Supporting variants include the D-657 smoke round, which disperses a (HC) mixture weighing about 2.4 kg to obscure vision and screen movements over a 40-meter by 400-meter area for up to 3 minutes. Illuminating rounds such as the S-843 provide overhead white or light coverage for nighttime , while incendiary types like the Z-843 or 3-Z-2 deliver or magnesium-based payloads—totaling around 1.8 kg of incendiary material—to ignite flammable targets and deny area through fire. Propulsion for these rounds incorporates a fixed primary cartridge in the tail unit augmented by up to six removable silk-bag increments of nitrocellulose propellant, allowing precise range adjustment from 480 meters (charge 0) to a maximum of 7,100 meters (full charge) while managing muzzle velocity up to 300 m/s.

Firing capabilities

The 2B11 mortar system integrates ammunition through muzzle-loading and drop-fire ignition, propelling rounds to a muzzle velocity of 325 m/s to achieve indirect fire trajectories optimized for high-angle bombardment. This velocity supports tactical effects including suppression and neutralization of exposed infantry and unarmored vehicles via explosive fragmentation, with effective radii typically spanning 20-30 meters depending on round charge and environmental factors. Operational doctrine emphasizes coordination, where forward observers relay target data via radio or wire links, enabling crews to compute elevations and charges using pre-established ballistic tables that incorporate corrections for , , and . The system's elevation range of 45-80 degrees facilitates over obstacles, with traverse limited to ±5 degrees absent bipod shifts, necessitating repositioning for wider sectors. Safety protocols include a mechanical interlock preventing double-loading during high-rate fire sequences, alongside a mandated minimum engagement distance of 460 to ensure safe ballistic arcs and avert hazards from low-velocity trajectories or inconsistencies. Sustained firing adheres to 7-10 rounds per minute to manage barrel heat, preserving accuracy and barrel life under prolonged use.

Variants and upgrades

Towed configurations

The standard towed configuration of the 2B11 mortar consists of the 120 mm smoothbore barrel mounted on a lightweight two-wheeled carriage designated 2L81, enabling manual towing by infantry crews over short distances or attachment to light vehicles for longer transport. This setup forms the core of the 2S12 "Sani" system, adopted by the Soviet Army in 1981, which emphasizes rapid deployment in infantry support roles without reliance on mechanized platforms. The 2L81 carriage allows disassembly into man-portable components, with the barrel weighing approximately 145 kg, facilitating emplacement in low-tech environments where vehicular support is limited. Ancillary equipment in the towed 2S12 configuration includes a single set of spare parts, tools, and accessories (SPTA) kit for field maintenance, along with provisions for truck towing using vehicles like the GAZ-66 or Ural-4320 series, though the system retains a focus on dismounted operations to maintain mobility in rugged terrain. The design prioritizes simplicity and endurance, with the mortar's base plate and bipod enabling direct fire or indirect support up to 7,100 meters, while the wheeled chassis supports towing speeds of up to 60 km/h on roads. Production and fielding of this baseline towed variant continued post-Soviet era, with deliveries of upgraded 2S12 kits reported as recently as 2024, incorporating no fundamental changes to the towing mechanism. Minor adaptations for export markets have preserved the towed infantry-centric profile, such as compatibility enhancements for integration with non-Soviet , but without altering the core manual towing emphasis suited to austere conditions. This configuration's retention underscores its suitability for forces lacking advanced mechanization, allowing crews to emplace and fire within minutes using basic aiming devices and fire control tools.

Integrated and modernized systems

The 2S12A "Sani" complex integrates the 2B11 mortar onto a wheeled chassis, such as the Ural-4320 truck, enabling rapid deployment and repositioning compared to towed variants. This setup supports "roving" fire tactics by allowing the mortar to be unloaded via electric winch and fired from improved circular plates for all-around coverage, with an effective range exceeding 7 kilometers. Modernized deliveries of the 2S12A to Russian forces occurred as recently as July 2024, incorporating enhanced mobility for battalion-level support. In August 2025, introduced a robotic variant mounting the 2B11 on the unmanned ground vehicle platform, marking an advancement toward autonomous . The system achieves speeds up to 30 km/h with an operational range of 800 km, facilitating remote operation to extend unmanned engagement distances while retaining the mortar's core . Russian developers claim this configuration improves survivability by minimizing crew exposure during missions up to 7 km. Upgrades to the 2B11 in integrated systems emphasize digital integration, such as linkage to Russia's Unified Tactical for faster targeting data exchange, though independent verification of precision enhancements remains limited to state-reported improvements in firing efficiency. No verified deployments of GPS-guided munitions specific to the 2B11 have been documented, with accuracy gains primarily attributed to refined base plates and fire control rather than smart ordnance.

Operational history

Soviet and post-Soviet Russian use

The 2B11 mortar was adopted by the in 1981 as a successor to older 120 mm systems, with development beginning in 1979 to provide enhanced mobility for motorized rifle, airborne, and mountain units. It underwent initial evaluations and integration into training exercises, where its lightweight design and wheeled carriage facilitated rapid deployment and repositioning during simulated maneuvers. In the Soviet-Afghan War (1979–1989), the 2B11 saw limited but targeted combat employment, primarily by mountain infantry formations for indirect fire support in high-altitude operations against insurgent forces. Its portability allowed Soviet troops to emplace and fire from elevated positions, contributing to suppressive barrages in challenging terrain. Following the Soviet Union's dissolution in 1991, the retained the 2B11 as standard divisional artillery, deploying it extensively in the (1994–1996) and (1999–2009) for close support in urban and foothill engagements. Russian units valued its compatibility with existing ammunition stocks and ease of transport by truck or helicopter. As of the 2020s, the 2B11 remains in active Russian service, with over 1,500 systems reported in the inventory, including reserves, supplemented by ongoing modernization and production at facilities like those under . Deliveries of updated variants continued into 2024, maintaining operational readiness amid external constraints.

Export and foreign deployments

The 2B11 mortar system has been supplied to numerous former states and Soviet client nations since its adoption in 1981, with proliferation accelerating after the Soviet Union's dissolution in 1991, enabling transfers to over a dozen countries in , the , and through military aid, licensing, or surplus sales. Recipients include , , , and , where the system's compatibility with standard 120 mm ammunition facilitated integration into existing inventories without major overhauls. In foreign military applications, the 2B11 has supported in regional conflicts, notably during the starting in 2011, where Syrian Arab Army units deployed it alongside the 2L81 wheeled carriage for rapid repositioning during urban sieges and assaults on fortified positions in areas like and . The mortar's 7,100-meter range with high-explosive rounds proved effective for suppressing insurgent defenses from standoff distances, often towed by trucks adapted for rough Middle Eastern terrain. Export variants have undergone logistical modifications for diverse environments, such as reinforced baseplates for sandy soils in North African operations and integration with local transport vehicles in Eastern European armies, enhancing mobility over the original sledge-mounted design. While no verified instances of full-scale localized production exist, some recipients have reverse-engineered compatibility to sustain operations amid supply disruptions.

Role in contemporary conflicts

The 2B11 mortar has been extensively utilized by Russian forces in the since the full-scale invasion in February 2022, primarily for delivering high-volume in support of assaults and to suppress Ukrainian defensive positions. Wheeled variants were supplied to Russian troops in July 2022, facilitating rapid transitions from transport to firing positions and enabling sustained barrages at frontline sectors such as and oblasts. These systems fire 120 mm rounds at rates up to 15 per minute, targeting fortifications, troop concentrations, and light vehicles within a maximum range of approximately 7.1 km using standard high-explosive ammunition. Despite vulnerabilities to Ukrainian drone strikes and , the 2B11 has demonstrated operational resilience through tactical adaptations, including shortened exposure times via mobile configurations and integration onto unmanned ground vehicles introduced in August 2024. This unmanned mounting allows remote operation to neutralize enemy personnel and hardened targets while minimizing crew risk from reconnaissance and loitering munitions. Open-source analyses indicate that such mortar fire has remained a staple of Russian tactical , contributing to incremental advances in attritional engagements by providing responsive, area-denial effects at level. Empirical evidence from battlefield footage and equipment loss tallies underscores the 2B11's persistence amid evolving threats, with Russian deliveries of mobile mortar systems continuing into 2024 to sustain fire superiority. While exact casualty figures attributable solely to the 2B11 are not publicly disaggregated, its role in preparatory barrages has been linked to degrading Ukrainian maneuver elements prior to mechanized pushes, as evidenced by reports of effective strikes on sheltered and . This usage counters assertions of technological , highlighting the system's cost-effective in high-intensity, fire-dominated conflicts through sheer and logistical compatibility with mass-produced Soviet-era shells.

Operators

Current operators

The remain the primary operator of the 2B11 mortar, maintaining an inventory exceeding 1,500 units that undergo ongoing modernization and supplementation through active production. Deliveries of upgraded 2B11 towed mortars to the Russian Ministry of Defence continued into 2024, supporting deployments in active conflicts and reserves replenishment. Belarus operates the 2B11 as part of its 2S12 systems, with approximately 61 units reported in inventory. Several other retain limited stocks of the 2B11 for artillery support, including , , (around 6 units), and (at least 5 units), primarily as legacy systems from Soviet stockpiles with sporadic modernizations. These holdings reflect continued reliance on the design amid slower transitions to newer mortar variants, though exact active counts vary due to limited public disclosures and potential attrition.

Former operators

Lithuania maintained an inventory of 20 Soviet-era 2B11 120 mm mortars inherited from its post-independence military stocks but transferred the entire stock to as in 2022. This divestment aligned with member states' broader modernization initiatives to replace Warsaw Pact-origin systems with interoperable Western alternatives, such as the 120 mm or other NATO-standard mortars, amid logistical challenges including compatibility and maintenance for aging Soviet equipment. Other former Soviet republics experienced partial or total attrition of 2B11 systems through combat losses or decommissioning, though comprehensive data on complete phase-outs remains limited outside of aid transfers. In the , similar pressures from integration prompted evaluations of Soviet , with towed mortars like the 2B11 prioritized for replacement due to their (approximately 245 kg for the barrel assembly) and reliance on non-standardized supply chains.

Assessment

Strengths and empirical effectiveness

The 2B11 mortar has demonstrated proven reliability over more than four decades of service, entering operational use with Soviet forces in 1981 and continuing in Russian and allied militaries through diverse environments including the Soviet-Afghan War and the ongoing Russo-Ukrainian conflict. Its simple barrel-and-breech design, derived from earlier World War II-era systems, minimizes mechanical complexity, contributing to low malfunction rates in field conditions such as mud, extreme cold, and rapid redeployment scenarios observed in since 2022. Sustained deployment by Russian forces, including recent deliveries of modernized variants in 2024, underscores this durability without reports of systemic failures impeding combat utility. Cost-effectiveness enhances its appeal for resource-constrained militaries, with the 2B11's straightforward construction enabling low production and sustainment expenses compared to more advanced systems. A single unit, weighing approximately 210 kg and requiring minimal crew training, provides battalion-level at a fraction of the lifecycle cost of self-propelled howitzers, allowing high-density deployment in developing armies. This economic advantage is evidenced by widespread export adoption across and further afield, where it delivers substantial firepower without prohibitive burdens. In tactical applications, the 2B11 excels in area denial and suppression, achieving a maximum range of 7.1 km with high-explosive rounds and a up to 15 rounds per minute, enabling rapid saturation of targets. Empirical performance in highlights its effectiveness against assaulting and light fortifications, where 120 mm projectiles produce fragmentation radii superior to 82 mm counterparts, inflicting casualties over wider zones as confirmed by analyses of Russian patterns. The system's compatibility with standard 120 mm , including precision-guided variants, further amplifies its utility in denying maneuver space to enemy forces.

Limitations and criticisms

The 2B11 mortar, weighing 210 kg in the firing position and up to 297 kg with its two-wheeled carriage, restricts rapid repositioning by or light vehicles, particularly over extended distances or rough terrain, in contrast to lighter Western systems like the U.S. M120 at approximately 145 kg. This heft demands a crew of five for efficient handling and often requires towing vehicles such as the truck, prolonging setup times to 2-3 minutes and exposing positions to detection and drone strikes in modern conflicts. Lacking inherent guidance systems, the 2B11 depends on unguided projectiles with a maximum range of 7.1 km and a of 325 m/s, compelling operators to employ area saturation tactics that elevate consumption—typically 10-15 rounds per minute sustained—for target neutralization, without the precision efficiencies of upgraded or Western equivalents incorporating GPS-assisted rounds. Towed configurations like the 2B11 face logistical strains in environments with or , where baseplate stability can degrade during repeated firing, necessitating frequent re-leveling and increasing downtime, though the smoothbore design's simplicity reduces complex mechanical failures compared to rifled alternatives. In operational theaters such as , reports highlight vulnerabilities to enemy counterfire due to static positioning, with effective rates of fire dropping to 1-2 rounds per adjustment cycle under fire correction demands.

Comparative analysis

The 2B11 120 mm mortar, with a total firing weight of approximately 282 kg, offers greater stability for sustained fire compared to the lighter U.S. M120 120 mm mortar at 145 kg, though this comes at the cost of slower manual setup times exceeding 3 minutes for the 2B11 versus under 2 minutes for the M120's modular components. Both achieve near-parity in maximum range at 7.1–7.2 km, but the 2B11's compatibility with heavier-charge variants of Soviet-era 120 mm projectiles—such as the OF-843 high-explosive round weighing up to 16 kg with enhanced fragmentation—provides marginally superior destructive radius in area suppression roles, as evidenced by blast effect modeling in comparative ordnance studies. Against modern guided mortar rounds like the U.S. M395 (derived from XM395), the unguided 2B11 suffers from inferior terminal accuracy, with a circular error probable (CEP) of 100–136 meters at extended ranges relying on ballistic computation alone, while the M395 achieves CEP below 10 meters via GPS/INS guidance for point targets. Empirical observations from the Russo-Ukrainian War, however, underscore the 2B11's advantages in massed-fire doctrines, where sustained rates of 10–15 rounds per minute enable suppressive barrages covering 1–2 km² sectors, outperforming precision systems in infantry denial and counter-battery scenarios amid ammunition shortages for guided munitions. The 2B11's persistence defies early 21st-century forecasts of irrelevance for unguided heavy mortars, bolstered by Russian adaptations including (UGV) mounts demonstrated at Army-2024 and fielded by August 2025, which enable remote fire missions at ranges over 7 km while reducing crew vulnerability—contrasting Western prioritization of expensive precision kits that limit volume under fiscal and supply constraints. This hybrid evolution sustains the 2B11's role in high-intensity peer conflicts, where sheer output often trumps single-shot precision.

References

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