Personnel Armor System for Ground Troops
The Personnel Armor System for Ground Troops (PASGT) is a modular body armor ensemble developed for the United States military, consisting of a Kevlar-reinforced helmet and a matching fragmentation vest intended to protect infantry personnel from ballistic fragments, shrapnel, and select low-velocity projectiles during ground combat operations.[1] Introduced in the early 1980s as a significant advancement over prior steel helmets and nylon flak jackets, the PASGT system marked the U.S. Army's first widespread adoption of aramid fiber (Kevlar) technology for personal protective equipment, prioritizing lightweight design while enhancing survivability against common battlefield threats like artillery shells, grenades, and mortar fragments.[2][3] The PASGT helmet, fielded starting in 1981, features a one-piece Kevlar shell available in five sizes (extra small to extra large), weighing approximately 3.1 to 4.2 pounds depending on the size, and provides V50 ballistic protection rated at 650 meters per second against 17-grain fragments per STANAG 2920 standards, covering the head, temples, ears, and occipital region while allowing compatibility with night vision devices and chemical protective masks.[4][5] The accompanying PASGT vest, type-classified in 1983, incorporates 13 layers of 14-ounce-per-square-yard Kevlar fabric in a woodland camouflage nylon shell, weighs about 9 pounds for a medium size, and offers torso coverage from the collarbone to the lower abdomen with optional groin, throat, and collar protectors to mitigate fragmentation impacts equivalent to NIJ Level II standards against 9mm handgun rounds.[2][6] Together, these components were issued to all U.S. Army and Marine Corps ground troops by the mid-1980s, contributing to a dramatic reduction in fragmentation-related fatalities—such as dropping torso wound mortality from around 70% in prior conflicts to under 5% during early 21st-century operations—before being progressively phased out in favor of the Advanced Combat Helmet (ACH) in 2002 and the Interceptor Body Armor (IBA) system.[1][7]Introduction
System Overview
The Personnel Armor System for Ground Troops (PASGT) is a comprehensive body armor ensemble developed by the United States Department of Defense in the late 1970s, with the helmet first fielded in 1981 and the vest in 1983. It comprises a ballistic helmet and a fragmentation-resistant vest, both engineered to enhance soldier survivability against common battlefield threats such as shrapnel and low-velocity small-arms fire. Constructed primarily from Kevlar, a high-performance aramid fiber invented by DuPont in the 1960s, the system prioritized lightweight design and mobility without sacrificing protective efficacy. This marked the U.S. military's transition from steel-based armor to advanced composites, addressing vulnerabilities observed in conflicts like Vietnam.[8][9][10] The PASGT vest adopts a front-opening configuration to cover the vital upper torso area, incorporating multiple layers of woven Kevlar fabric for fragmentation protection. In medium size, it weighs about 9 pounds (4.1 kg), offering improved flexibility and fit compared to prior nylon-based designs like the M-69 flak jacket. The accompanying helmet features a molded Kevlar shell with an internal suspension system for impact absorption, weighing roughly 3.3 pounds (1.5 kg) in medium size and providing coverage for the head, temples, ears, and occipital region. Together, these components deliver balanced defense against fragments, with the helmet providing protection equivalent to NIJ Level IIIA against certain handgun threats and fragment penetration resistance.[9][10][8] Fielded across all U.S. military branches, PASGT served as standard equipment through the 1980s and 1990s, seeing combat in operations such as Urgent Fury in Grenada (1983), Just Cause in Panama (1989), and Desert Storm in the Gulf (1991). Its adoption reflected evolving threat assessments emphasizing fragmentation over direct rifle fire, influencing subsequent generations of protective gear. By the early 2000s, PASGT was largely phased out in favor of modular systems like the Interceptor Body Armor and Advanced Combat Helmet, which incorporated enhanced ceramics and better ergonomics.[9][8]Purpose and Protection Levels
The Personnel Armor System for Ground Troops (PASGT) was developed to enhance the survivability of U.S. Army infantry by providing lightweight, flexible body armor that protects against common battlefield threats, primarily low-velocity fragments from exploding munitions such as artillery shells, mortars, rockets, and grenades. Unlike earlier rigid steel helmets and vests, the PASGT emphasized mobility and comfort for extended wear, replacing the M1 helmet and M-1952A2 fragmentation vest while prioritizing protection over penetration resistance to small arms fire. This system marked a shift toward soft, aramid-based armor, balancing weight reduction with adequate coverage for the torso and head areas most vulnerable to shrapnel.[2] The PASGT's protection levels are calibrated specifically for fragmentation hazards rather than direct bullet impacts, adhering to U.S. military standards like MIL-STD-662 for ballistic testing. The vest, constructed with 13 layers of 14 oz/yd² Kevlar 29 fabric, covers the upper torso (front, back, and sides) and is designed to defeat fragments and flechettes, offering a V50 ballistic limit of approximately 1650 feet per second (fps) against a 17-grain fragment-simulating projectile (FSP). This equates to an 18–53% reduction in fragmentation-related casualties depending on the threat environment, though it provides minimal resistance to rifle rounds without additional plates. The helmet complements this by safeguarding the head, temples, ears, and occipital region—covering about 80% of the head's surface area exposed in combat postures—with 19 layers of similar Kevlar material, achieving a V50 of 2000 fps against the same 17-grain FSP per MIL-H-44052 specifications.[12][13][14][15][3] Overall, the PASGT system's dual-component design prioritizes fragmentation defense—responsible for over 50% of battlefield wounds during the Vietnam era—while maintaining a total weight of approximately 12 pounds (5.4 kg) for the medium size to avoid excessively encumbering soldiers during maneuvers. It does not meet NIJ handgun protection standards without modifications, underscoring its role as a "flak jacket" for indirect fire rather than a full-spectrum ballistic suit. Subsequent systems like the Interceptor Body Armor built upon these levels by adding ceramic plates for rifle threats.[2][16]Development
Historical Background
The Personnel Armor System for Ground Troops (PASGT) emerged from post-Vietnam War assessments that highlighted the inadequacies of existing U.S. military body armor, particularly the M1 steel helmet and M69 fragmentation vest systems used since World War II. The M1 helmet, standardized in 1941, had a shell that weighed approximately 2.25 pounds (1.02 kg), while the complete assembly with liner weighed about 3 pounds (1.36 kg), but offered only marginal protection against high-velocity fragments and no resistance to rifle rounds, contributing to significant casualties from artillery shrapnel and small-arms fire during Vietnam.[17][8] In response, the U.S. Army sought a comprehensive system to enhance survivability against common battlefield threats like shell fragments, which accounted for a majority of wounds in modern conflicts.[2] Development began in the mid-1970s under the Army's Natick Research, Development and Engineering Center, leveraging the newly available Kevlar aramid fiber invented by DuPont in 1965 and commercialized in 1971 for its exceptional strength-to-weight ratio—five times stronger than steel at a fraction of the weight. This material enabled the creation of the PASGT helmet in 1975, marking the first U.S. military helmet constructed entirely from ballistic fabric rather than metal, with 19 layers of Kevlar 29 woven cloth molded into a shell that weighed 3.1 to 4.2 pounds depending on size.[17][8] The accompanying vest, also Kevlar-based with 13 layers in its soft armor panels, was designed to cover the torso and shoulders, prioritizing mobility over comprehensive coverage.[2] Rigorous testing, including developmental trials in 1976, focused on ballistic resistance to 9mm rounds and fragments while ensuring the system did not exceed weight limits that could impair soldier performance.[18] The PASGT helmet was first fielded in limited quantities in 1981, fully replacing the M1 by the mid-1980s, while the vest entered service in 1983 as the standard fragmentation protective ensemble.[19][20] This marked a shift toward integrated personal protective equipment, with the system weighing about 9 pounds for the vest alone but predicted to decrease fragmentation casualties by 18-53% depending on the threat.[2][21] Initial combat deployment occurred during Operation Urgent Fury in Grenada in 1983, where it demonstrated effectiveness against small-arms fragments, paving the way for widespread adoption by the early 1990s, including during Operation Desert Storm.[17]Design and Testing
The Personnel Armor System for Ground Troops (PASGT) was developed in the late 1970s by the U.S. Army to replace earlier protective gear like the M1 steel helmet and M69 fragmentation vest, focusing on lightweight ballistic protection against fragments from artillery, mortars, and grenades.[22] The system encompassed both a helmet and a vest, utilizing Kevlar 29 aramid fiber laminates for their high strength-to-weight ratio, which allowed for enhanced coverage without excessive bulk.[4] Design priorities included ergonomic fit to accommodate the 5th to 95th percentile of male and female soldiers, minimal restriction on head movement and vision, and integration with other equipment like communications gear.[4] The helmet featured a rounded contour for better deflection of impacts and coverage extending to the temples, ears, and upper neck, while the vest used flexible Kevlar panels in a camouflage-printed carrier for torso protection.[8][9] Development testing occurred in structured phases coordinated by the Army's Test and Evaluation Command (TECOM). Developmental Test I (DT I), conducted in the mid-1970s, evaluated early prototypes for ballistic resistance, human factors such as fit and comfort, and basic environmental durability, ultimately selecting Kevlar-based designs over alternatives like nylon or steel composites.[22] This phase confirmed the helmet's V50 protection against 17-grain fragments at 650 m/s (2,130 feet per second) per STANAG 2920 standards, prioritizing fragment protection over rifle rounds to keep weight manageable at 3.1 to 4.2 pounds for the helmet (extra small to extra large sizes).[4] The vest, weighing approximately 9 pounds, was designed similarly for fragmentation threats, with 13 layers of Kevlar providing equivalent protection across the vital torso area.[9] Developmental Test II (DT II), spanning September 1976 to August 1977, involved full-scale assessments of three helmet candidates and the vest at facilities like Aberdeen Proving Ground, including ballistic impact trials, drop tests for blunt trauma, and maintainability evaluations to ensure ease of cleaning and repair in field conditions.[22] Environmental testing simulated extreme conditions, such as cold weather at -60°F and tropical humidity, to verify material integrity and user performance.[22] Human factors testing incorporated soldier wear trials, revealing issues like neck strain from helmet weight distribution, which informed minor adjustments for balance and padding.[4] Operational Test II (OT II), from October 1976 to February 1977, shifted to platoon-level tactical exercises at Fort Benning, Georgia, where soldiers compared PASGT prototypes against legacy gear during simulated combat maneuvers, assessing mobility, heat dissipation, and overall mission effectiveness.[22] Key findings highlighted the system's superior fragment protection while maintaining acceptable wearability, though feedback noted the vest's bulk could hinder prone firing.[9] These tests culminated in a 1978 Development and Evaluation Committee review, leading to type classification in the late 1970s, with the helmet initially fielded in 1981 and the vest in 1983, proving effective in early operations like Grenada.[22][8]PASGT Helmet
Design and Features
The Personnel Armor System for Ground Troops (PASGT) helmet features a one-piece molded shell constructed from 19 layers of Kevlar 29 aramid fiber fabric, impregnated with a phenolic resin system to form a rigid, lightweight ballistic barrier. This laminate design, specified under MIL-H-44099A, prioritizes protection against high-velocity fragments while minimizing weight and maintaining structural integrity under impact. The shell's rounded, tapered profile is engineered to deflect incoming threats away from the head, providing extensive coverage from the forehead to the nape of the neck, including the temples and ears, to maximize protection while maintaining compatibility with communication and other equipment.[23] Key features include a replaceable internal suspension system with an eight-point adjustable nylon webbing harness, which distributes impact forces across the wearer's head and allows for customized fit across various head sizes. A leather-padded headband and sweat-wicking crown pad enhance comfort during extended wear, while the four-point chin strap assembly, equipped with a quick-release buckle, ensures secure retention without restricting jaw movement. The helmet's olive drab finish includes a textured surface for camouflage netting attachment, and ventilation is achieved through the open design rather than dedicated ports, balancing protection with breathability. Weights range from approximately 1.4 kg (3.1 lbs) for small sizes to 1.9 kg (4.2 lbs) for extra-large, reflecting the trade-off between coverage area and portability.[23][15] Ballistically, the PASGT helmet is optimized for fragment protection, achieving a V50 ballistic limit of at least 2,000 feet per second (610 m/s) against a 17-grain right circular cylinder fragment-simulating projectile (FSP), as required by military testing standards. This performance level effectively mitigates the primary threat of shrapnel from artillery and small arms fire, with the aramid layers absorbing and dispersing kinetic energy to limit back-face deformation. While not originally certified for direct small-arms fire, the design demonstrates secondary resistance to low-velocity handgun rounds in empirical tests, though its core emphasis remains on fragmentation hazards common in ground troop engagements.[15][24]Materials and Manufacturing
The PASGT helmet shell is constructed from Kevlar 29, a high-performance para-aramid fiber developed by DuPont, valued for its exceptional tensile strength-to-weight ratio and ability to absorb ballistic impacts through delamination and energy dissipation. The shell comprises 19 layers of plain-woven Kevlar 29 fabric, forming a laminated composite with a fiber volume fraction of approximately 76%, which provides the necessary ballistic protection while maintaining a lightweight profile. This aramid reinforcement is embedded in a thermosetting resin matrix, typically a phenolic-based system, that constitutes about 24% of the composite by volume and ensures structural integrity upon curing.[4][25][26][27] The manufacturing process begins with the preparation of prepreg materials, where the Kevlar fabric is impregnated with the uncured thermoset resin to create pliable sheets. These prepregs are then cut and stacked in a specific orientation—typically with alternating warp and weft directions for balanced strength—into a helmet-shaped preform matching the desired size (extra small, small, medium, large, or extra large). The preform, consisting of the 19 layers, is placed into a matched-metal compression mold designed to replicate the helmet's ergonomic contour, including its four-point retention system mounting points.[28][29][30] Curing occurs under controlled heat and pressure in a hydraulic press, where temperatures around 170–180°C (340–356°F) and pressures exceeding 3.4 MPa (500 psi) consolidate the layers, cross-link the resin, and eliminate voids for a uniform density. This compression molding technique, optimized for high-volume production, results in a rigid shell with a variable thickness of 8–10 mm and an areal density of approximately 11.2 kg/m² for a medium size, yielding a total helmet weight of about 1.4 kg (3.1 lbs) excluding accessories. Post-molding, the shell undergoes ballistic testing per military specifications, such as MIL-STD-662, to verify protection against fragments and low-velocity projectiles before integration with the foam liner and suspension system.[28][30][26][4]Accessories
The PASGT helmet supports a range of accessories to enhance camouflage, retention, compatibility with night vision systems, and protection against environmental hazards. These add-ons were developed to address operational needs, such as maintaining helmet stability during movement, reducing visibility, and integrating with other protective gear without compromising ballistic performance. The universal helmet cover is a primary accessory, consisting of a lightweight fabric sleeve designed to fit over the helmet shell. It provides camouflage by conforming to the helmet's shape and includes elastic edging for secure attachment, along with pockets or loops for inserting local vegetation or infrared-suppressing materials. Available in patterns like woodland or desert, the cover minimizes the helmet's outline and reflective properties in various terrains.[31] For retention, the helmet features an adjustable four-point chin strap assembly with a nape pad, which secures the helmet to the wearer's head and distributes pressure to prevent slippage during rigorous activity. Later improvements included reinforced straps and quick-release mechanisms to improve fit and ease of donning/doffing while maintaining secure hold under dynamic conditions.[32] Night vision compatibility is achieved through a dedicated helmet mount assembly, typically comprising a front dovetail bracket affixed to the helmet's forward edge via existing hardware or bolts, paired with adjustable straps and a breakaway release for safety. This setup allows hands-free attachment of devices like the AN/PVS-14 monocular night vision goggle, enabling vertical and fore-aft adjustments for optimal eye relief and alignment during low-light operations. The mount ensures the helmet's balance is not significantly altered, supporting prolonged wear.[33] In chemical, biological, radiological, and nuclear (CBRN) environments, a specialized protective helmet cover is donned over the PASGT when integrated with protective masks or suits, providing an additional barrier against contaminants while preserving the helmet's fit and function. This cover is applied after the base helmet and any camouflage layer, ensuring compatibility with mission-oriented protective posture (MOPP) levels.[34] Interior accessories include a multi-pad suspension system with energy-absorbing foam inserts positioned at the crown, sides, and rear to cushion impacts, absorb sweat, and customize fit across head sizes. These pads are removable for cleaning or replacement and contribute to blunt trauma mitigation by distributing force across the skull.[35]PASGT Vest
Design and Features
The Personnel Armor System for Ground Troops (PASGT) vest is a front-opening fragmentation protective garment designed to cover the upper torso from the collarbone to the lower abdomen, providing defense against low-velocity projectiles and shrapnel. It features a 3/4 collar for partial neck protection, articulating pivoting shoulder pads to reduce chafing, two front pockets secured with hook-and-loop fasteners for small items, two lower front grenade hangers, and reinforced shoulder patches for rifle butt contact. The vest includes 1.5-inch elastic side overlaps for adjustable fit and flexibility during movement, with a four-section back panel to accommodate bending and weapon handling. Available in sizes extra small to extra large, it weighs approximately 7.5 pounds (3.4 kg) for extra small to 11.0 pounds (5.0 kg) for extra large, with a medium size at about 9.0 pounds (4.1 kg).[12][6] Ballistically, the PASGT vest is optimized for fragmentation threats, offering protection equivalent to NIJ Level II against 9mm rounds while primarily mitigating shrapnel from artillery, grenades, and mortars. It reduces fragmentation-related casualties by 18–53% depending on threat velocity, by slowing or stopping fragments to minimize penetration and severe wounds. The design prioritizes mobility over rigid plate armor, allowing compatibility with load-bearing equipment like ALICE harnesses.[12][2]Materials and Manufacturing
The PASGT vest utilizes 13 layers (plies) of 14-ounce-per-square-yard (475 g/m²) Kevlar 29 aramid fiber fabric as the ballistic filler, a para-aramid material prized for its high tensile strength, lightweight properties, and energy absorption through fiber delamination during impacts. This soft armor stack is water-repellent treated to enhance durability in field conditions. The inner and outer shells consist of 8-ounce-per-square-yard (271 g/m²) water-repellent ballistic nylon, with the outer cover in woodland or desert camouflage patterns and the inner shell in olive green. No vinyl envelopes or plastic stiffeners are used, maintaining flexibility.[12][6][2] Manufacturing begins with weaving and treating the Kevlar 29 fabric, followed by cutting it into panels sized for the vest's front, back, and side sections. The 13 layers are then stacked and sewn together using specialized ballistic stitching to form the soft armor inserts, ensuring even distribution and no weak points. These inserts are encased in the nylon shells: the outer camouflage cover is sewn with hook-and-loop closures, elastic webbing, and attachment points for accessories, while the inner olive green liner provides a smooth wearing surface. Shoulder pads and collar are attached with elastic and snaps for adjustability. The assembled vest undergoes quality checks and ballistic testing per military standards, such as fragment impact simulations, before type-classification in 1983. This sewing-based process, distinct from rigid molding, enables high-volume production at facilities like those supporting U.S. Army contracts.[12][2]Accessories and Operational Use
The PASGT vest incorporates several integrated accessories to facilitate practical use in the field. These include two front pockets secured with hook-and-loop fastener tape for storing small items, two grenade hangers positioned on the lower front for securing fragmentation grenades, and reinforced rifle butt patches on the shoulders to withstand contact from weapon stocks during firing. Additionally, the vest features a 3/4 collar for neck protection and pivoting shoulder pads that enhance comfort and reduce chafing under load.[12][6] For expanded ballistic capabilities, the PASGT vest can be augmented with the Interim Small Arms Protective Overvest (ISAPO), a modular carrier system worn directly over it. The ISAPO adds front and back ceramic plates to counter small arms threats like 7.62 mm rounds and flechettes, while maintaining the underlying fragmentation protection; it weighs about 16.5 pounds and was available in woodland or desert camouflage patterns. Approximately 4,000 units were procured in 1996 for U.S. Army contingency stocks, with deployments supporting operations such as Joint Endeavor in Bosnia.[36] In operational contexts, the PASGT vest is donned via a front-opening design with hook-and-loop closures, covering the upper torso while allowing quick access and removal. Its four-section back panel and 1.5-inch elastic side overlaps promote flexibility for activities like running, crawling, and weapon handling, though biomechanical analyses show it can increase stride support times and reduce trunk motion range when paired with fighting loads, potentially affecting endurance over extended marches. The vest is prescribed for closed wear in tactical environments to optimize fragment deflection, reducing casualty rates from conventional munitions by 18-53 percent based on threat velocity. Compatible with load-bearing equipment like ALICE harnesses, it was standard for U.S. ground forces in combat zones from the 1980s through the early 2000s, emphasizing mobility and integration over rigid plate armor.[12][37][38]Adoption and Users
United States Military
The PASGT helmet was first fielded in 1981 as the standard head protection for U.S. Army infantry units, offering enhanced resistance to fragments and low-velocity projectiles compared to the M1 steel helmet.[39] The system was type-classified for broader military use shortly thereafter, with initial production emphasizing lightweight design and compatibility with emerging night-vision equipment.[40] The PASGT vest, a soft armor garment also made from Kevlar layers, was introduced in 1983 to protect the vital torso area from shrapnel and small arms fragments, weighing approximately 9 pounds for a medium size.[9] This marked the first widespread use of Kevlar in U.S. military body armor vests, prioritizing mobility.[8] The complete PASGT ensemble—helmet and vest—was rapidly adopted across the U.S. armed forces, including the Army, Marine Corps, Navy, and Air Force, becoming mandatory for combat personnel by the mid-1980s.[41] PASGT saw its first combat deployment during Operation Urgent Fury, the 1983 invasion of Grenada, where U.S. Army Rangers and 82nd Airborne Division paratroopers utilized the helmet and vest against fragmented munitions in urban and jungle environments.[17] It remained the primary armor system through subsequent operations, including Operation Just Cause in Panama (1989), where Marine and Army units relied on it for close-quarters protection, and Operation Desert Storm in the 1991 Gulf War, equipping over 500,000 U.S. troops with fragmentation-resistant gear amid desert conditions.[9] The system's woodland camouflage pattern and modular accessories, such as helmet covers and vest pouches, facilitated its integration into diverse tactical scenarios, from Somalia's urban fights in the early 1990s to peacekeeping missions.[42] By the late 1980s, PASGT had achieved near-universal adoption among U.S. ground forces, with the Marine Corps standardizing it as the "K-pot" helmet variant for expeditionary roles, emphasizing its role in amphibious assaults.[43] Production scaled to millions of units, supported by the U.S. Army Natick Soldier Research, Development and Engineering Center, ensuring availability for active-duty, Reserve, and National Guard components.[39] Its enduring use underscored a shift toward lightweight, concealable armor, influencing training doctrines that balanced protection with operational agility across all services.International Users
The Personnel Armor System for Ground Troops (PASGT) has been provided to select international militaries through U.S. Foreign Military Sales (FMS) programs and allied support initiatives, enabling partner nations to acquire proven ballistic protection for ground forces. These transfers typically involve the helmet and vest components, valued for their Kevlar-based construction offering resistance to fragments and low-velocity projectiles.[44] Other recipients have included the Afghan National Security Forces and select NATO partners. Iraq's security forces represent a key example of PASGT adoption via FMS. The U.S. Department of Defense has delivered PASGT helmets to Iraq under multiple cases, including QI-B-ADK (valued at approximately $79,735 in 2019) and QI-B-ADI (with additional modifications through 2020), as part of broader efforts to equip Iraqi ground troops amid ongoing security operations. These procurements, handled by contractors like ArmorSource LLC, underscore the system's role in supporting coalition partners in high-threat environments.[44][45] The Lebanese Armed Forces (LAF) have similarly integrated PASGT helmets into their inventory through multinational aid. In May 2025, ARK Group DMCC, acting on behalf of the UK and Danish governments, awarded a contract for ballistic personal protective equipment to the LAF, explicitly including PASGT helmets alongside items like ballistic eyewear, gloves, knee pads, and elbow pads. This support package aims to enhance the LAF's capacity for internal security and border operations, reflecting ongoing Western commitments to Lebanon's military stabilization.[46]Variants and Derivatives
Helmet Variants
The PASGT helmet was manufactured in five sizes—Extra Small (XS), Small (S), Medium (M), Large (L), and Extra Large (XL)—to fit a wide range of head circumferences among U.S. military personnel, ensuring optimal protection and comfort without compromising ballistic performance. These size variants shared the same basic design, including the Kevlar shell, foam padding suspension, and chinstrap system, but scaled proportionally to the wearer's head size. The sizing accommodated head circumferences from approximately 20.5 inches for XS to 25.5 inches for XL, with each size fitted using adjustable components to prevent shifting during movement.[15][40] Weight differences among the sizes reflected the increased material volume in larger models, with the complete helmet (shell, liner, suspension, and chinstrap) ranging from about 3.1 pounds for XS to 4.2 pounds for XL in early production using Kevlar 29 fabric. Later iterations, type-classified around the late 1990s, incorporated Kevlar KM2, which reduced overall weight by approximately 4 ounces per size while maintaining equivalent fragment protection under MIL-STD-662 standards. Ballistic testing across all sizes from 1987 to 2003 production runs demonstrated consistent V50 performance of around 2,170 feet per second against 17-grain fragments, confirming no degradation in protective capability due to size variations.[15][40][5] The Extra Large variant was developed through radial expansion of the standard PASGT headform to better accommodate soldiers with larger heads, minimizing added weight compared to simply scaling up the shell dimensions. This approach preserved the helmet's low-profile shape and coverage while extending fit options for up to 10% of the force that exceeded Large size requirements. No major design or material variants beyond sizing and the Kevlar KM2 upgrade were fielded; however, experimental efforts in the late 1980s explored Spectra fiber composites for potential weight savings of up to one-third, but these were not adopted due to performance trade-offs against certain projectiles.[47]| Size | Approximate Head Circumference (inches) | Weight (Kevlar 29, complete helmet, lbs) | Weight (Kevlar KM2, complete helmet, lbs) |
|---|---|---|---|
| XS | 20.5–21.5 | 3.1 | ~2.9 |
| S | 21.5–22.5 | 3.3 | ~3.1 |
| M | 22.5–23.5 | 3.5–3.7 | ~3.3–3.5 |
| L | 23.5–24.5 | 3.9 | ~3.7 |
| XL | 24.5–25.5 | 4.2 | ~4.0 |