Cost: $12,000 NSD per unit. $1 Billion NSD for DPR rights to system and ammunition.
Caliber: 120 mm.
Crew: 3-5 (at least one person to load the gun, another to aim and fire, and a third person to operate the transport vehicle).
Weight: 263 kg.
Barrel Length: 3.90 meters (390 cm).
Elevation: −17° to +65°.
Traverse: 360°.
Rate of fire: 4-5 rpm.
Muzzle velocity: 486 m/s.
Effective Firing Range: 1,000 meters to 1,500 meters.
Maximum Range: 2,000 meters.
Feed System: Hinged breach.
Sights: Iron sight; Telescopic sight; laser rangefinder.
Background
The M120 'Hannes Haase' is a one hundred and twenty millimeter recoilless anti-tank rifle designed by Wolf Armaments for the TECT Armed Forces. Envisioned as a lightweight alternative to larger direct-fire support, the M120 was designed for light infantry units who're often more mobile and lack access to heavier equipment. Light infantry, such as airborne and motorized infantry, typically lack heavier firepower that other combat units have come to rely on; tanks, infantry fighting vehicles, and other armored fighting vehicles are usually not paired with light infantry units. Equipment wise, light infantry units rely on what they can carry or tow on the battlefield - the rest are support assets like aircraft which provide situational support when they can. The problem with attached support assets is that they can be bogged down in bad weather or terrain, become overburdened with support requests, and can sometime be denied access to the battle space itself (lack of air superiority or counter-battery operations for artillery). The M120 bridges the heavy firepower brought by support assets like tanks and brings the mobility required for light combat troops, making a lightweight, highly maneuverable, heavy hitting, anti-tank weapon system. Hannes Haase, the gun engineer behind the M120 project, said he wanted to make a heavy weapon system so lightweight yet powerful that "tanks should fear it, armored vehicles should steer clear of it, and infantry run for it."
Filling a vacancy left leftover from the TECT Armed Forces' original L6 Wombat system (retired in 1975), the M120 was a breath of fresh air to ground forces in need of a new powerful anti-tank weapon system; a multipurpose weapon system that defeats armor, provides direct-fire support for infantry forces, and pummels enemy defenses. Although up against the more infantry-friendly Speer ATGM, and would later compete with the Panzerfaust-11 (an even more agile weapon system) and ALOT ATGM, the M120 gained steadfast support from ground commanders and anti-tank crews. Although anti-tank warfare trends have shifted towards the use of anti-tank guided missiles in recent years, a versatile and reloadable weapon system was preferred over single-use weapons like ATGMs according to extensive research. After repeated prototype developments and test trials, the M120 officially entered the TECT Armed Forces' test trials. M120 'Hannes Haase' was declared operational in 2001 and a substantial order was placed by the TECT Armed Forces. The M120, after being in service for over a decade, was upgraded with a series of innovative features and re-released in 2014 with foreign exports in mind; as a promotional incentive, Wolf Armaments designed a four-wheeled Mobility Cart Mount for the M120, giving crews a stable yet mobile firing platform that could also carry extra supplies/ammunition.
Design
Like similar recoilless rifle systems around the world, the 2014 M120 consists of three (four if you wish to count the mounting platform) components. The barrel, the breach (in this case, a hinged breach), and the optics platform. For the barrel, the M120 uses a three hundred and ninety centimeter long rifled barrel; constructed of a new steel alloy that undergoes electro-slag remelting, and an added chrome lining, the barrel is designed for extended firing sessions and extended barrel life. Created from an amalgam of steel, aluminum, carbon, manganese, and nickel, this newer steel alloy has become readily available and is low-cost; the durable alloy is traditionally as strong as steel but is also as lightweight as titanium. Lifespan of the barrel is estimated to be fourteen hundred firings (1,400), after which the barrel's rifling begins to degrade. A set of Picatinny rails on either side of the barrel are used to mount optics, such as telescopic sights or laser rangefinders; the standard built-on iron sights are folding and completely removable. Loading the M120 is done so at the rear of the system using the hinged breach. To operate said hinged breach one must pull then turn the venturi lock counter-clockwise to move the venturi damper off to the side, revealing the open breach for loading - to close the breach the loader reverses his previous actions, turning the venturi damper clock-wise and pushing the nob forward. Once closed and locked, the M120 is ready to fire; the breach locks in place once the nob is pushed forward, automatically engaging the locking mechanism - the weapon, for safety reasons, wont fire unless the lock is engaged. The venturi style recoil damper reduces the recoil force blasted out the rear of the system, making the recoilless rifle safer to fire on lightweight mounting systems. A crew of three is required to operate the M120, though a crew of five is recommended for optimal operation.
While ATGMs have their benefits and capabilities, recoilless rifles like the M120 will continue to have more preferable attributes on the battlefield for the soldiers using them and benefiting from them. Anti-tank units in TECT have expressed, for example, the benefits they see in the M120 over using systems like the ALOT ATGM. To begin with, recoilless rifles are fully reloadable. On an ATGM launcher, you have to reload by removing the now empty missile case and replace it with a new case containing a new missile; the M120's selection of munitions are far lighter when compared to any ATGM's weight. So by weight and reloadability, recoilless rifles like the M120 clearly outperform an ATGM system. Although an ATGM may be more adapt at targeting and destroying armor, it doesn't devalue recoilless rifles like the M120; recoilless rifles also lack the range and targeting abilities that many ATGMs enjoy, too. Depending on the ammunition used, however, recoilless rifles possess an adept ability to penetrate enemy vehicle armor and cause large-scale damage to structures; against infantry, larger caliber recoilless rifles like the M120 can produce results similar to tanks or other fire support elements. In the hands of a seasoned crew, the M120 can fire five to six rounds per minute - additionally, a crew would focus on shoot-and-scoot tactics, not sitting in one place for long and outmaneuvering enemy targets. This skill set is only reached when the crew is well trained and the firing platform is highly mobile, such as a light mobility vehicle or our complimentary Mobility Cart. The Mobility Cart is a four-wheeled mobile platform specially designed to mount and fire the M120. Similar in width and length to the M151 Truck, the Mobility Cart is built using carbon fiber and lightweight aluminum, making the mobility cart light enough for any vehicle to tow. Offroad tires, a special shock-absorption suspension, and 4X4 brakes improve the mobility cart's handling while operating in offroad conditions. The Mobility Cart is also handy for carrying extra ammunition and/or supplies; two containers (one on each side of the cart lengthwise) can carry supplies inside and materials can be strapped down to the hull of the vehicle using tie down points and rails. While the M120 is mounted, the cart has storage room for twelve rounds. Other options for mounts include an adjustable tripod mount and barrel attachments for customers interested in mounting the M120 onto vehicles.
120mm Recoilless Rifle Ammunition
In accordance with the TECT Armed Forces' 2008 "New Munitions Project", newer age ammunition has been in development and manufacturing of said approved munitions has commenced since the project was officially announced. Projects like 'Faerber' were part of this grand plan; in this case, 'Faerber' Project has replaced all small and larger arms with new age telescoped or caseless ammunition. The 'Baggage Compartment Project' was founded by one of the lead munitions developers that focused on artillery munitions. BCP, lightheartedly named, was the design idea that combined both Western and Soviet munition ideas for a new design to all artillery projectiles fired by field guns and howitzers - this would include recoilless rifles like the M120. The revolutionary idea took the principle of adjusted propulsion fuel management that soviet artillery shells utilized with shell casings, and Western ideas on projectile construction. Soviet casing munitions (like D-30) were shipped in crates containing the projectile, a shell casing, propulsion fuel, and other basic parts to the system (such as fuze cap and basic upgrade materials) - ammunition was loaded similar, however, to Western counterparts by first loading the projectile and then the shell via a rammer. Once detonated the shell would be automatically discharged by the system. Western ideas, which Soviets also used, included a projectile and added propulsion charges that were added after the artillery projectile; these charges often look like small sacks with printed distance enhancement. BCP designers decided to bring together ideas from both Blocs into a whole new artillery projectile firing setup.
BCP soon produced several prototypes that eventually got grinded down, combined, or removed to eventually come out with the 'BCP-Series' - which has since referred to the style of artillery ammunition that is produced from this style. The projectile itself is similar to Western and Soviet projectiles in design and inspiration - it contains a larger warhead body, modifications to the construction in accordance to the projectile's intended role, and the absence of a metal casing. The change begins with the rear portion of the munition, the so-called 'baggage compartment'. Made of a moderately hard-skinned material, the 'BC' is made up of 'twist-on' compartment with a twist-on rear cap; these two pieces twist onto existing grooves located on the projectile/BC, forming an airtight seal. This material is designed to be totally combustible in the detonation of the propulsion material, literally burning away in milliseconds from the heat, blast, and expanding gas - it is made to withstand the weather and elements long enough to be used inside a cannon. Internally a secondary compartment holds the primer, a tiny compartment holding the projectile's detonation explosive (silver azide) that sets off the propellant that launches the projectile; said primer extends through the cap and can be seen on the outside and interior of the cap, making it easier to strike, replace, and twist into place. This material is weak enough to be easily pierced by firing pins or other ignition system trying to ignite the primer - this means common artillery pieces, like D-30 or M777's for example, can fire BCP ammunition with ease.
BCP ammunition is shipped in lighter, smaller, carrying cases - or often pre-prepared in tube holders. Inside is the projectile, the two twist-on attachments, the twist-on primer cap (which twists-on into position inside the BC, similar to the other pieces), the fuze, and is often accompanied by chosen propellant; in the TECT Armed Forces, a modular (combustible) casing holds an energetic explosive labeled as 'NNN', which is named after the explosive material it consists of (Nitrocellulose, Nitroglycerin, Nitroguanidine) - each package is color-coded and labeled to show the distant enhancement. In a standard artillery unit preparing for firing missions or going into combat, the crew would begin by unboxing and combining the projectile. The BC is twisted onto the projectile in preparation to add the propellant; once ready, the propellant is added (once again, in the TECT Armed Forces, NNN is added in usually four or seven cases) and the cap locked firmly. Once the fuze is twisted on and programmed - if needed to be - the projectile is ready to fire. Next is the projectile being loaded by the team and firing - simple as that. Once done so, the projectile launches out leaving the BC to disintegrate as it combusts.
This ammunition's intended purpose is to improve artillery units through the enhancement of field operation and artillery unit management. The speed of reloading is cut due to the simplification of ammunition - it no longer takes a man to load charges into breaches or to remove casings. The simplification eliminates crew positions that were required for quick operation, eliminating up to one or two crew persons at the gun. Barrel health is increased with the manageable propellant, allowing for smaller charges or standard large charges that wear the barrel less; the ingredients used, depending on the users, can also have better affects on barrel health. Storage cases are now smaller and less lengthy, decreasing weight, which improves handling of ammunition cases and the larger storage of said ammunition.
For systems like the M120 Recoilless Rifle, the BC design replaces what would normally be a shell casing leftover after use - similar to older recoilless rifles and Soviet artillery designs. Since recoilless rifles don't share the same issues concerning range calculation that standard howitzers have (not to say there isn't range calculation, but the scales are totally different), M120 munitions are not designed for propellant modification to alter the munition's maximum range. M120 munitions are manufactured with the BC built onto the actual munition, like Wolf Armament tank ammunition and similar to western tank ammunition with the only exception that the primer propellant area also being combustible - in western tank ammunition, the rear metal casing is typically what's left after firing. So firing a system like the M120 with BC built with the munitions would erase the leftover shell casing that typically needs removing by the loader.
M120-HE/A: The High Explosive 'A' Model is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin-stabilized. It uses a high explosive warhead weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about eighteen kilograms when factoring in the propellant and casing material. As the traditional benchmark for other M120 ammunition, the HE/A was the most common M120 high explosive round used until a modernized version (the 'B' model) was introduced around 2010; today, the M120-HEDP is particularly more widely used because of its multipurpose warhead. The HE/A's explosive force and fragmentation is potent against infantry, structures, and light vehicles up to about sixteen hundred meters; up to two thousand fragments travel as far as forty meters, though twenty meters is roughly considered the lethal range of the HE/A - these figures can change when the HE/A is set to detonate above the ground. HE/A also proves useful when a "lobbed" trajectory is required. Operators can set the HE/A to explode on impact, or, they can set it to airburst mode, detonating the warhead at a certain altitude above the ground.
M120-HE/B: The High Explosive 'B' Model is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a high explosive warhead weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty kilograms when factoring in the propellant, fuze setup, and casing material. Introduced in 2010 to replace the HE/A, the HE/B replaces the older HE/A as the primary high explosive round used with the M120. HE/B is a modernized and improved high explosive projectile that incorporates precise fuze technology, reconfigured warhead design, and extended engagement ranges. The fuze on the face of the warhead comes with a special dial with three separate options, including impact, airburst, or a specified dialed range between five hundred meters and two thousand meters; dialing in the range sets the fuze to detonate the warhead once the projectile reaches the selected range - it does this by tracking the time since firing and compares that to the velocity of the round. Standard airburst mode detonates the warhead several meters above the ground once the projectile passes five hundred meters. An extended propellant section with added propellant boosts the HE/B an additional four hundred meters, making its maximum range two thousand meters or two kilometers. The HE/B's explosive force and fragmentation is potent against infantry, structures, and light vehicles up to about two thousand meters away; up to three thousand fragments travel as far as forty meters, though twenty meters is roughly considered the lethal range of the HE/B - these figures can change when the HE/B airbursts. HE/B, like the 'A' model, also proves useful when a "lobbed" trajectory is required.
M120-HEDP: The High Explosive Dual Purpose round is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a dual purpose, high explosive, shaped charge warhead weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty kilograms when factoring in the propellant, warhead, and casing material. Introduced alongside the new 2014 model of the M120, the HEDP was developed to combat both infantry and armored targets using a multipurpose warhead, decreasing the required ammunition types towed around the battlefield - namely removing the need for high explosive ammunition. HEDP utilizes a shaped charge warhead that defeats armor using a high-velocity superplastic jet created when the warhead detonates and melts the shaped charge, penetrating armor with the kinetic energy behind it. To make HEDP dual purpose, the warhead and its shell casing are constructed with steel, which produces shrapnel when the warhead is detonated. Potent against infantry, light vehicles, and armored vehicles, HEDP can engage targets up to a maximum range two thousand meters or two kilometers; against armor, HEDP can penetrate up to three hundred and fifty millimeters of rolled homogeneous armor. HEDP's fragmentation is potent against infantry, structures, and light vehicles - up to one thousand fragments travel as far as forty meters, though twenty meters is roughly considered the lethal range of HEDP's fragmentation. Detonation can either be on impact or one-tenth of a second after impact.
M120-HES: The High Explosive Shrapnel round is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a canister compartment with an explosive charge as a warhead that weighs just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty kilograms when factoring in the propellant, warhead, and casing material. Designed to eliminate close-in infantry threats, HES are essentially canister rounds designed to defeat amassed infantry forces. Encased at the front of the munition are one thousand tungsten balls that deploy shortly after leaving the barrel - each ball is lethal up to seven hundred meters from launch. HES rounds are extremely potent against infantry and deadly to light vehicles with little to no armor; HES rounds are a threat to airborne targets flying close to the ground.
M120-HEAT/A: The High Explosive Anti-Tank 'A' model is a one hundred and twenty millimeter recoilless rifle projectile that's spin stabilized. It uses a shaped charge warhead weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty-seven kilograms when factoring in the propellant, warhead, and casing material. Developed for the original model of the M120 in 2001, the HEAT/A was designed to defeat armored targets like armored personnel carriers, infantry fighting vehicles, and even tanks; HEAT/A, however, was criticized for not being exceptionally potent against modern main battle tanks equipped with better protection (ERA, slat armor, and modern tank armor, for example). To increase the chances of full penetration, M120 crews were, and still are, taught to engage heavier armored targets from a flanking position, choosing to go after a main battle tank's side and rear armor rather than the better protected frontal arc. HEAT/A was the primary anti-tank round used by the TECT Armed Forces' M120 crews until a newer model, the HEAT/B, was introduced in 2006 - HEAT/B would later be replaced in 2014 by the HEAT/C round. The shaped charge warhead defeats armor using a high-velocity superplastic jet created when the warhead detonates and melts the shaped charge, penetrating armor with the kinetic energy behind it. HEAT/A's are potent against armored targets ranging from armored personnel carriers to main battle tanks, engaging them at a maximum range of two thousand meters using rocket-assistance (RAP) - penetrating approximately five hundred millimeters of armor (RHA) on average. The warhead isn't designed to combat ERA, however.
M120-HEAT/B: The High Explosive Anti-Tank 'B' model is a one hundred and twenty millimeter recoilless rifle projectile that's spin stabilized. It uses a shaped charge warhead with a stand-off probe, weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty-seven kilograms when factoring in the propellant, warhead, and casing material. Developed in 2006 to replace the HEAT/A, the HEAT/B is an improved anti-tank projectile designed to better defeat armored targets like armored personnel carriers, infantry fighting vehicles, and main battle tanks; HEAT/B features an improved warhead designed to combat modern main battle tanks equipped with better protection (ERA, slat armor, and modern tank armor, for example). To increase the chances of full penetration, M120 crews are still taught to engage heavier armored targets from a flanking position, choosing to go after a main battle tank's side and rear armor rather than the better protected frontal arc. The shaped charge warhead defeats armor using a high-velocity superplastic jet created when the warhead detonates and melts the shaped charge, penetrating armor with the kinetic energy behind it; to defeat ERA, a stand-off probe was added to the improved warhead design. HEAT/B's are potent against armored targets ranging from armored personnel carriers to main battle tanks, engaging them at a maximum range of two thousand two hundred meters using mid-flight rocket-assistance (RAP) - penetrating approximately six hundred millimeters of armor (RHA) on average and can defeat reactive armor. Currently, HEAT/B is the primary anti-tank round used by the TECT Armed Forces' M120 crews - it is being replaced by the HEAT/C, which was introduced in 2014.
M120-HEAT/C: The High Explosive Anti-Tank 'C' model is a one hundred and twenty millimeter recoilless rifle projectile that's spin stabilized. It uses a shaped charge warhead with a tandem-warhead probe, weighing just over thirteen kilograms (IMX-101 explosive mixture) and overall weight is about thirty kilograms when factoring in the propellant, warhead, and casing material. Developed in 2014 to replace the HEAT/B, the HEAT/C is an improved anti-tank projectile designed to better defeat heavier armored vehicles like main battle tanks - armored vehicles like armored personnel carriers, infantry fighting vehicles, and other combat vehicles are also considered valid targets; HEAT/C features an improved warhead layout design to combat modern main battle tanks equipped with added protection (ERA, slat armor, and newer armor packages for example). To increase the chances of full penetration, M120 crews are still taught to engage heavier armored targets from a flanking position, choosing to go after a main battle tank's side and rear armor rather than the better protected frontal arc. The shaped charge warhead defeats armor using a high-velocity superplastic jet created when the warhead detonates and melts the shaped charge, penetrating armor with the kinetic energy behind it; to defeat ERA and other add-ons, a tandem-warhead probe was added along with an all new shaped charge design. HEAT/C's are potent against armored targets ranging from armored personnel carriers to main battle tanks, engaging them at a maximum range of two thousand two hundred meters using mid-flight rocket-assistance (RAP) - penetrating approximately nine hundred millimeters of armor (RHA) on average and can defeat main battle tanks with reactive armor. Currently, HEAT/C is replacing the HEAT/B as the TECT Armed Forces' primary anti-tank round for M120 crews - the full implementation is expected to be reached by 2018.
M120-ASM: The Anti-Structure Munition is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a high explosive warhead and tandem-warhead probe weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about twenty kilograms when factoring in the propellant, warhead, and casing material. Introduced originally in 2001 but was redesigned in 2014, the ASM was intended to defeat enemy defensive positions, occupied hostile structures, and destroy tactical targets on the battlefield - the ASM also doubled as an anti-infantry round if the need required it. ASM is designed to penetrate structures using its reinforced main warhead and tandem warhead probe, which effortlessly blows holes in walls or other structures for the main warhead; once burrowed passed the hole created by the tandem warhead, the main warhead detonates after a short delay, ensuring the warhead has achieved full penetration for detonation inside the fortification. Without the tandem warhead, the main warhead can penetrate over three hundred millimeters of concrete. Combined, ASM can penetrate over six hundred millimeters of concrete while penetration of sandbags surpasses one thousand millimeters. Two thousand fragments are created upon detonation of the primary warhead, which travel up to forty meters - twenty meters is roughly the lethal radius for fragmentation. With a range of two thousand meters, ASMs are effective in supporting infantry operations and are valuable in engineering missions.
M120-Smoke: The M120-Smoke munition is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a white phosphorus mixture to produce a heavy smokescreen, weighing just over eleven kilograms and overall weight is about eighteen kilograms when factoring in the propellant, smoke mixture, and casing material. Introduced in 2001 with the original M120 model, this munition was modernized in 2014 for the new model of the M120; these upgrades included a new casing material, a more efficient smoke mixture, and an improved fuze. Smoke rounds are typically used to support infantry operations on the battlefield, igniting upon direct impact or at a predetermined point; these smokescreens block enemy vision, cover friendly maneuvering, and can provide target positions/signaling for friendly forces. The hot burning mixture can cover a thirty-five meter area in smoke for several minutes (with no wind conditions) and comes in various colors for signaling uses.
M120-Illumination: The M120-Illumination munition is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin stabilized. It uses a pyrotechnic mixture to illuminate the ground bellow it and weighs just over eleven kilograms and overall weight is about eighteen kilograms when factoring in the propellant, pyrotechnic mixture, and casing material. Introduced in 2001 with the original M120 model, this munition was modernized in 2014 for the new model of the M120; these upgrades included a lighter casing material, a more efficient pyrotechnic mixture, and overall illumination performance. Illumination rounds deploy at about six hundred meters where the projectile ignites its mixture, separating from the main portion of the projectile and leaving only the warhead area left. Once ignited, a flame-proof parachute deploys and the projectile slowly falls to the ground. The ground is highly illuminated for about one minute and twenty seconds underneath the illuminating envelope; the area covered by illumination is about six hundred meters, giving friendly forces illumination over what would typically be a pitch-black battlefield.
M120-Practice: The Practice munition is a one hundred and twenty millimeter recoilless rifle projectile that's custom fuzed and spin-stabilized. It uses a high explosive warhead weighing just over twelve kilograms (IMX-101 explosive mixture) and overall weight is about sixteen kilograms when factoring in the propellant, warhead, and casing material. Introduced in 2001 with the original M120 model, this munition was modernized in 2014 for the new model of the M120; these upgrades included modern construction material and a safer warhead design. Used with M120 crews during training and practice missions, the Practice munition is a commonly used supplement rather than using combat effective munitions which typically use deadly fragmentation; although having the same ballistic signature as the HEAT/A, the Practice munition doesn't utilize material that creates fragmentation. So while not combat applicable, the Practice munition is cheaper and safer to use for crews during training and practice. Practice munitions can engage targets up to two thousand meters away, which are typically simulated infantry, vehicle, or structure targets.
M120-HE/A: $600 NSD per round (delivered in a weatherproof storage case).
M120-HE/B: $800 NSD per round (delivered in a weatherproof storage case).
M120-HEDP: $1,000 NSD per round (delivered in a weatherproof storage case).
M120-HES: $700 NSD per round (delivered in a weatherproof storage case)
M120-HEAT/A: $850 NSD per round (delivered in a weatherproof storage case).
M120-HEAT/B: $1,800 NSD per round (delivered in a weatherproof storage case).
M120-HEAT/C: $3,000 NSD per round (delivered in a weatherproof storage case).
M120-ASM: $1,100 NSD per round (delivered in a weatherproof storage case).
M120-Smoke: $900 NSD per round (delivered in a weatherproof storage case).
M120-Illumination: $800 NSD per round (delivered in a weatherproof storage case).
M120-Practice: $800 NSD per round (delivered in a weatherproof storage case).