Hubbry Logo
M1128 projectileM1128 projectileMain
Open search
M1128 projectile
Community hub
M1128 projectile
logo
8 pages, 0 posts
0 subscribers
Be the first to start a discussion here.
Be the first to start a discussion here.
M1128 projectile
M1128 projectile
M1128 projectile
View on Wikipedia
from Wikipedia
Cutaway view of M1128 round

The M1128 "Insensitive Munition High Explosive Base Burn Projectile" is a 155 mm boosted artillery round designed to achieve a maximum range of 30–40 kilometres (19–25 mi). It is used for fragmentation and blast effect against personnel and/or materiel. The development of this round follows testing of (and is based on aspects of) boosted M795-series test projectiles. The M1128 is not yet in production, but the first successful test firings have already taken place.[1]

The M1128 is expected to be compatible with a nose-mounted guidance system—specifically, the XM1156 Precision Guidance Kit, which fits the standard fuse threading common to several types of rounds.[2]

Development

[edit]

The design program for the M1128 was established in FY2011 with the stated purpose of addressing USMC requirements for artillery ammunition capable of 30–40 kilometres (19–25 mi) range. It is also designed for improved accuracy. It carries a larger payload than the aging M549 Extended Range Projectile or ERP, which is the previous boosted round the M1128 is designed to replace.[1] The M1128's range of 30 kilometres (19 mi) far exceeds conventional (non-boosted) artillery rounds such as the M107 projectile which has a 17 kilometres (11 mi) range.[citation needed]

The Army is currently in the process of adopting the USMC requirement for the M1128. Once approved, the plan for the M1128 is to enter the Engineering & Manufacturing Development Phase in the acquisition process as a fully funded program. Tooling and processes have been developed and the initial production batch has been delivered to the proving grounds for testing by USMC resources.[3]

Details

[edit]

The M1128 follows (and is based on) production and test articles from the boosted M795-series rounds—specifically the M795E1 and M795E2.[1]

The M1128 consists of a high fragmentation steel body with a streamlined ogive and a drag-reducing base burner. The projectile body is filled with insensitive explosive (IMX-101) and a supplementary charge. On gun launch propellant gases enter the base burner cavity and ignite dual tracer cups in the ignition assembly. The tracer cups then light a composite propellant to sustain the burning at muzzle exit. The roughly three pound base propellant charge gases, ignited during firing, fill the low pressure void at the base of the projectile, this reduces the base drag and results in extended range.[1]

The base-bleed solution yields a more consistent ballistic trajectory, which reduces the Range Probable Error or RPE. (See also Circular Error Probable.) The M1128 uses the "base burn" or "base bleed" assembly.[1]

Used with

[edit]

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

M1128 projectile

View on Grokipedia
from Grokipedia
The M1128 projectile is a 155 mm high-explosive round developed for the , incorporating a base-bleed system to achieve an extended range of 30 kilometers while using filler for enhanced safety and reduced risk of accidental detonation. Designed as a replacement for earlier extended-range projectiles like the M549A1 rocket-assisted round, the M1128 features a high-fragmentation body made from HF-1 , a streamlined for aerodynamic efficiency, and a drag-reducing base burner that ignites upon firing to fill the behind the , thereby minimizing aerodynamic drag and improving accuracy with a range probable error of less than 0.27%. The is filled with insensitive explosive and a PBXN-9 supplementary charge, enabling effective blast and fragmentation effects against personnel and materiel targets, and it is compatible with standard 155 mm howitzers such as the M777A2 as well as emerging precision guidance kits. Development of the M1128, originally designated XM1128, began under the U.S. Army's Armament Research, Development and Engineering Center at to meet requirements for longer-range, safer munitions as part of the Next Generation 155 mm Family. It leverages processes from the M795 high-explosive to streamline and reduce costs, with initial testing demonstrating ranges of 30 km using the and MACS charge 5. Full-rate production was awarded to Ordnance and Tactical Systems, with contracts supporting load, assemble, and pack operations for thousands of units annually to bolster Army stockpiles and support allied needs; as of mid-2025, production facilities were qualified, enabling initial full-rate production. The M1128 enhances capabilities by providing near-precision fires without relying on more expensive guided munitions, and it complies with standards to withstand environmental hazards like fire, impact, and . Ongoing integration efforts include compatibility with advanced fire control systems, positioning it as a key component in modernizing U.S. for high-intensity conflicts.

Development

Origins and Requirements

The development of the M1128 projectile, initially designated as the XM1128, was initiated in Fiscal Year 2011 (FY2011) to meet (USMC) requirements for advanced 155mm artillery ammunition capable of extended ranges beyond existing capabilities. This program emerged as part of broader efforts to enhance for expeditionary forces, addressing the need for projectiles that could deliver fragmentation and blast effects at distances exceeding 30 kilometers while maintaining compliance to reduce risks in storage and transport. The USMC's operational demands, particularly in support of mobile and distributed units, drove the emphasis on consolidating multiple round types into a single, versatile design to lower logistical costs and simplify supply chains. The M1128 was conceived as a replacement for aging and limited projectiles, including the M549A1 High Explosive Rocket-Assisted (HERA) projectile, which had not been produced since 1987 and provided range extension to 30 km via rocket assistance but was limited by its aging design and lack of compliance, and the M795 high-explosive projectile, constrained to approximately 22 kilometers. These legacy systems, along with the even shorter-ranged M107 at around 17 kilometers, failed to meet evolving threats requiring greater standoff distances for USMC artillery units equipped with systems like the . By integrating insensitive explosive fills and range-extension technologies, the M1128 aimed to provide a low-cost, high-performance alternative that could achieve 30 kilometers or more, thereby supporting the USMC's shift toward precision fires in contested environments. Building on prior test vehicles from the M795 series, the program leveraged the M795E1, which demonstrated a range of 29.3 kilometers, and the M795E2, which exceeded 30 kilometers in trials conducted in December 2008. These prototypes served as baselines for the XM1128's , incorporating improvements in and energetics to fulfill the USMC's threshold requirements for range, , and compatibility with existing munitions suites. The U.S. Army's Training and Doctrine Command (TRADOC) subsequently adopted the USMC specification through the 155mm Munitions Suite Capability Production Document, ensuring alignment with joint service needs. This collaborative approach underscored the projectile's role in modernizing capabilities while prioritizing affordability and reduced vulnerability.

Testing and Evaluation

The XM1128 projectile entered the Engineering and Manufacturing Development (EMD) phase in 2011, with an initial low-rate initial production batch allocated specifically for testing to assess producibility, accuracy, and range optimization. Successful test firings were conducted using the and MACS 5 charge, where four rounds of a precursor M795E2 configuration achieved a range exceeding 30 km, subsequently corrected to standard sea-level conditions to validate the base burn performance. Additional trials in December 2010 confirmed base burn functionality under low-temperature and low-zone conditions, while 20 rounds tested in 2010 evaluated igniter performance, with the igniter reducing Range Probable Error (RPE) to less than 0.27%. Lethality testing, funded by the United States Marine Corps and conducted via water pit recovery at the Army Research Laboratory, recovered over 93% of the projectile body mass for fragmentation analysis, with fragment sizes meeting or exceeding performance expectations and outperforming the M549A1 projectile in blast and fragmentation effects. During these evaluations, the XM1128 achieved Technology Readiness Level (TRL) 6, indicating prototype demonstration in a relevant environment and confirming low technical risk for integration into production systems. Following the 2011 evaluations, the projectile advanced through further testing and was type-classified as the M1128, entering low-rate production by the early 2020s ahead of full-rate contracts in 2023. Compatibility testing with the Precision Guidance Kit (PGK), such as the XM1156, was addressed through a Cooperative Research and Development Agreement (CRADA) drafted with ATK to analyze and validate integration, with the M1128 confirmed compatible with variants including M1156, M1156A1, and M1156E5, though this reduces maximum range by approximately 10%.

Design

Construction Features

The M1128 is a artillery projectile featuring a high fragmentation body constructed from HF-1 , designed to produce blast and shrapnel effects upon . This body provides structural integrity capable of withstanding high-G forces during gun launch while ensuring predictable fragmentation patterns. The projectile incorporates an aerodynamic design with a streamlined , which has an increased length and radius compared to the M795E1 variant, along with a reduced cylindrical section length to minimize air resistance. Dual tracer cups integrated into the igniter assembly enhance visibility during flight. At the base, the M1128 includes a assembly consisting of a composite grain within a drag-reducing base burner, which helps minimize aerodynamic drag. The base closure is made from . Overall, the M1128 aligns with standard 155 mm dimensions and weight, measuring approximately 800 mm in length and weighing 43-47 kg, though exact values may vary by configuration. A PBXN-9 supplementary charge, encased in a plastic liner, serves as the burster element within the cavity.

Explosive Fill and Fuze

The M1128 projectile, also known as the XM1128, utilizes IMX-104 as its primary explosive fill, an insensitive munitions formulation consisting of 2,4-dinitroanisole (DNAN), 3-nitro-1,2,4-triazol-5-one (NTO), and research department explosive (), designed to minimize accidental risks during storage, , and handling. This melt-pourable explosive fills the projectile cavity with approximately 20 pounds (9.1 kg) of material, providing high-explosive fragmentation and blast effects optimized for anti-personnel and anti-materiel roles. A supplementary (PBXN-9) charge serves as a booster to ensure reliable initiation of the main fill upon activation. IMX-104 enables the M1128 to comply with (IM) standards outlined in MIL-STD-2105, demonstrating resistance to slow and fast , bullet impact, fragment impact, , and jet threats, thereby reducing the propagation of violence in unintended scenarios while preserving full performance under operational conditions. This compliance is achieved through the inherent stability of IMX-104's components, which exhibit lower sensitivity to shock, heat, and friction compared to traditional explosives. The system of the M1128 supports multiple modes for versatile employment, including mechanical time for airburst effects, electronic time for precision timing, point-detonating (impact) for direct hits, and proximity for top-attack or area coverage. These options are compatible with standard fire control systems and can integrate with guidance kits like the M1156 Precision Guidance Kit for enhanced accuracy. In comparison to legacy fills such as TNT or , IMX-104 delivers equivalent detonation energy to —approximately 1.35 times that of TNT in terms of relative effectiveness—while offering superior stability, with a critical exceeding 200°C and reduced vulnerability to unintended initiation. This balance enhances safety without compromising the payload's lethality for high-explosive fragmentation and blast optimization.

Performance

Range and Propulsion

The M1128 projectile achieves its extended range through a combination of conventional and an integrated system, which enhances ballistic efficiency post-launch. Fired from systems like the M777A2 howitzer using Modular Artillery Charge System (MACS) charges, the projectile attains a of approximately 800 m/s with Zone 5 charges, providing the initial for . This compatibility with standard MACS increments allows flexibility in charge selection to optimize range based on elevation and environmental conditions. The mechanism ignites shortly after muzzle exit, expelling low-velocity gas from a pyrotechnic grain at the projectile's base to fill the low-pressure vacuum region, thereby reducing aerodynamic base drag. This drag reduction improves the , countering vortex-induced drag and extending the maximum range to 30 km or more at with full charges, surpassing the 22 km limit of the unassisted . Range can exceed 30 km depending on charge zone, barrel elevation, and atmospheric factors, with test data indicating adjustments for altitude and temperature to maintain trajectory accuracy.

Lethality and Accuracy

The M1128 projectile features a high fragmentation body designed to produce effective anti-personnel and anti-vehicle effects through blast and fragmentation. Arena testing has demonstrated a fragmentation yield exceeding 93% of the body mass, enhancing its against soft and lightly armored targets. The detonation of its insensitive explosive fill creates effective blast and fragmentation effects, optimized for area suppression and suppression of enemy positions. This configuration provides reliable performance in diverse environments, with the IMX-101's thermal stability contributing to consistent initiation and reduced unintended detonations. Accuracy is improved by the base bleed unit, which stabilizes the trajectory and reduces dispersion compared to traditional unassisted rounds, achieving a range probable error (RPE) below 0.27%. This enables an unguided (CEP) of around 100 meters at maximum range, allowing 90% of projectiles to land within that zone for effective fire missions. Integration with the XM1156 Precision Guidance Kit (PGK) further enhances precision, reducing CEP to 20-50 meters for guided variants and enabling accurate strikes against high-value targets. In comparison to the M549A1 rocket-assisted projectile, the M1128 offers superior lethality due to higher payload density from the efficient IMX-101 fill, which maintains equivalent explosive power to TNT while allowing greater fragmentation output.

Production and Deployment

Manufacturing Contracts

The transition to production for the M1128 155mm high explosive projectile began with Low-Rate Initial Production (LRIP) contracts awarded in 2023 and 2024. In October 2023, the U.S. Army awarded General Dynamics Ordnance and Tactical Systems a $218 million task order to support the load, assemble, and pack processes for M1128 rounds, enabling initial scaling of manufacturing capacity. Additionally, in September 2023, a $974 million contract was issued to American Ordnance and General Dynamics for the manufacture, testing, packaging, and delivery of M1128 projectiles, with completion targeted by 2028. These awards marked the shift from developmental testing to industrial production, incorporating validation from prior evaluations to ensure reliability. As part of the U.S. Army's modernization priorities, the M1128 serves as the "go-to" war round within the Next Generation 155mm family, alongside the XM1113 and XM1121E1 projectiles. The 2024 LRIP included contracts for 16,900 M1128 units, emphasizing enhanced range and insensitivity to meet operational demands. This family of rounds aims to replace legacy munitions like the M795, providing improved lethality and compatibility with existing systems while addressing needs for high-volume conflicts. Manufacturing cost efficiencies for the M1128 are achieved through streamlined processes derived from tooling, reducing expenses compared to older rocket-assisted rounds such as the M549A1. The projectile's design utilizes IMX-104 explosive fill, with production scaled to maintain low sensitivity while leveraging established assembly lines for the body and unit. A separate $129 million contract awarded to in 2023 further supports metal parts assembly, optimizing resource use across the production pipeline. By 2025, full-rate efforts are ramping up to address demands from security assistance and Pacific theater contingencies, supported by fiscal year 2026 allocations of approximately $219 million for 155mm projectiles overall. As of October 2025, 155mm production has increased significantly from pre-2022 levels but continues to face scaling challenges, with the target of 100,000 rounds per month across variants delayed to spring 2026; the U.S. Army's increased output aims for sustained delivery rates exceeding 100,000 rounds per month. However, in June 2025, the Army issued a "show cause" letter to , considering termination of its oversight role on new 155mm lines due to concerns; this issue remains unresolved as of November 2025. General Dynamics handles primary assembly and integration for the M1128, including the base bleed assemblies essential for extended range. Potential subcontractors are being sourced for base bleed propellant grains, with market surveys conducted in 2025 to identify domestic and overseas capabilities for up to 10,000 units monthly. This distributed approach enhances supply chain resilience for the projectile's propulsion components.

System Compatibility and Operational Use

The M1128 projectile is designed for compatibility with key U.S. platforms, including the M777A2 Lightweight Towed Howitzer, the M109A6 and M109A7 Paladin self-propelled howitzers, and expeditionary systems such as the M198 towed howitzer, allowing seamless integration into existing units. As a standard 155 mm round, it utilizes conventional propelling charges and wells, enabling firing from these systems without modifications to the platforms' loading or fire control mechanisms. Within the U.S. Army and Marine Corps, the M1128 serves as a core component of the 155 mm Next Generation Artillery Family, alongside the XM1113 High-Explosive Rocket-Assisted () and XM1121E1 High-Explosive projectiles, promoting interchangeability to streamline across services. This family approach reduces the variety of rounds in inventory, simplifying supply chains and enabling units to employ a unified suite of munitions for diverse missions while maintaining compatibility with standard Modular Charge Systems (MACS) and existing options for rapid deployment. In operational contexts, the M1128 supports and area denial roles, leveraging its extended range—up to 30–40 km in practice—to neutralize enemy and deny terrain effectively. Production of the M1128 has been accelerated since 2023 to bolster U.S. aid packages amid the conflict, where it enhances interoperability by aligning with allied 155 mm standards and facilitating shared logistics among coalition forces. The 's variants include the base-bleed configuration for unguided extended-range engagements and integration with the M1156 Precision Guidance Kit (PGK) fuze, transforming it into a precision-guided (PGAP) for improved accuracy in contested environments.

References

  1. https://www.army.mil/article/279541/us_army_awards_key_contracts_to_further_enhance_155mm_artillery_production_capacity_and_army_modernization_priorities
  2. https://www.gdots.com/munitions/artillery/155mm-nextgen/
  3. https://ndia.dtic.mil/wp-content/uploads/2011/gunmissile/Tuesday11528_Nguyen.pdf
  4. https://www.globalsecurity.org/military/systems/munitions/m1128.htm
  5. https://thedefensepost.com/2023/10/04/us-m1128-artillery-general-dynamics/
  6. https://canadiandefencereview.com/armaments-ammunition-imt-precision/
  7. https://www.gd-ots.com/wp-content/uploads/2017/11/155mm-M549A1-HE-RAP.pdf
  8. https://www.nationaldefensemagazine.org/articles/2022/7/11/new-artillery-rounds-to_help-army-reach_longer_distances
  9. https://jpeoaa.army.mil/Portals/94/Documents/JPEOAAPortfolioBook_2025.pdf
  10. https://sam.gov/opp/7b063269880a45338a52b8c6b769344b/view
  11. https://www.stratvocate.com/files/2021/AMMO_FY_2021_P_Army-p331/AMMO_FY_2021_P_Army.html
  12. https://imemg.org/wp-content/uploads/IMEMTS%202010/presentations/im_systems_1_Balas_Singh_imx%20104.pdf
  13. https://www.nationaldefensemagazine.org/articles/2022/7/11/new-artillery-rounds-to-help-army-reach-longer-distances
  14. https://www.gdots.com/wp-content/uploads/2025/06/400004055-155mm-NextGen-ArtilleryFamily-2025-06.pdf
  15. https://sam.gov/opp/d14080c4fabe42f1aca72e0ad50992d1/view
  16. https://www.globalsecurity.org/military/systems/munitions/m1156.htm
  17. https://insidedefense.com/insider/army-issues-contract-%25C2%25A0155mm%25C2%25A0ammunition
  18. https://govtribe.com/award/federal-vehicle/155mm-xm1128-artillery-metal-parts-assembly
  19. https://www.highergov.com/budget/artillery-projectile-155mm-all-types-33c67a2/
  20. https://insidedefense.com/daily-news/armys-155mm-production-rate-stalls-100000-month-mark-delayed-till-spring-2026
  21. https://breakingdefense.com/2025/10/army-hitting-stride-with-155mm-production-but-key-general-worries-over-whats-needed-next/
  22. https://breakingdefense.com/2025/06/army-considering-terminating-general-dynamics-oversight-of-new-155mm-production-lines/
  23. https://www.gdots.com/awarded-218-million-to-expand-artillery-production/
  24. https://govtribe.com/file/government-file/w15qkn25x15lj-amendment-1-m1128-base-bleed-dot-docx
  25. https://sam.gov/opp/fe15271a09774b19a98dad99fdf1b3d4/view
Add your contribution
Related Hubs
User Avatar
No comments yet.