The external organisation that documented the munition
Research Organisation (6)
Colour of the munition pictured
Base Colour (12)
Colour of all, or some, of the markings on the munition
Marking Colour (11)
Language or script of the marking on a munition
Marking Script (9)
Condition of the munition pictured
Condition (6)
Key features defining the operation mechanisms of a projectile
Mechanical Feature (10)
Whether a munition is guided or unguided
Guidance (2)
Where the munition is launched from and what it targets
Domain (7)
The type of fins visible on the munition
Fins Characteristic (6)
The nominal diameter of a projectile. For most modern munitions, this is expressed in millimetres (e.g. 82 mm mortar projectile), but older artillery gun projectiles may be described in inches.
Use the rapid expansion of gases released by a detonating high explosive compound inside the munition to generate explosive power. Blast munitions are often considered general-purpose munitions and large examples can have powerful and widespread effects on targets such as structures and personnel.
This image shows the damaged rocket motor section of a ballistic missile that was fired by the Houthis in Yemen towards Israel and likely intercepted. The Houthis employ ballistic missiles that are supplied by Iran, and given different names. In Houthi service, the Iranian Kheibar Shekan missile is known as the Hatem-2. (ARES)
This image shows remnants of a Russian Kh-101 air-launched cruise missile. The remnant on the right is the rearmost tail section of the missile. (ARES)
This image shows a remnant of the TRDD-50A(M) (ТРДД-50А(M)) turbojet engine, which powers Kh-101 and Kh-59M missiles. Other models of Russian cruise missiles are known to use other variants of the TRDD-50. (ARES)
The image shows a one-way-attack (OWA) UAV that appears to have crashed, but failed to function. It consists of an FPV chassis, as well as some of the essential components required for flight and the explosive charge (purple container). The initiator and other parts relevant to both flight and the munition’s function are not visible. This appears to be craft-produced ‘sacrificial’ UAV. (ARES)
This munition remnant is marked with a manufacturer’s CAGE Code (“MFR CAGE CODE: 62313”) which indicates it was produced by Lockheed Martin. Lockheed Martin is the primary contractor that makes GMLRS missiles. (ARES)
This remnant shows a munition component marked with the CAGE Code for a sub-contractor who produced part of a larger munition. “64344” is the code for Unique Electronics Inc., a known sub-contractor working on Lockheed Martin’s GMLRS contract. One of the parts they make is the “CABLE ASSEMBLY W459“, as seen in this image. (ARES)
This image shows the three lenses that form the new version of the Kh-101 Digital Scene Matching Area Correlator (DSMAC) system. (The older version only had a single lens.) DSMAC systems take digital images of the ground as the missile passes overhead, and then compare those images to pre-captured images stored in the onboard memory. The DSMAC corrects the flight path as needed based on differences between the two sets of images. (ARES)
This image shows the second warhead present in some variants of the Kh-101 cruise missile. The inclusion of this additional warhead requires a smaller fuel tank in the missile, offering increased explosive weight in exchange for a reduced maximum range. (ARES)
This image shows parts from at least three fin-stabilised tank gun projectiles, including the tail assemblies and several folding fins. These are components that often survive relatively intact following the functioning of such munitions. The specific morphology of the remnants pictured is consistent with Israeli 120 mm tank gun projectiles. Contextual information suggests that the remnants are most likely to be from M339 high explosive ‘multi-purpose’ projectiles. (ARES)
This image shows a remnant of a control fin from a Paveway III bomb guidance kit that is compatible with 2,000-pound-class air-delivered bombs. In U.S. service, this combination receives designations in the GBU-24 series. Based off this remnant alone, it cannot be determined which model of air-delivered bomb was paired with this particular guidance kit. (ARES)
This image shows markings on an SUU-30H/B dispenser which comprises part of a CBU-52B/B Cluster Bomb Unit, including a National Stock Number (“NSN 1325 00 477 2053-E800”), design reference (“AF DRAWING NO: 716514-10”), total explosive weight of the submunitions (“CYCLOTOL: 133 LBS:”), lot number (“LOT NO: MA-77G246-002”), and serial number (“SERIAL NO: EE-97391”). This lot number indicates that this CBU-52B/B was manufactured at the Milan Army Ammunition Plant in the U.S. in July 1977. (ARES)
This image shows part of an SUU-30H/B dispenser (cargo munition) that comprises part of the CBU-52B/B ‘Cluster Bomb Unit’. A CBU-52B/B comprises a SUU-30H/B dispenser that is loaded with 217 BLU-61A/B anti-personnel submunitions. (ARES)
This image shows one of two tail fin sections that are attached to an SUU-30H/B air-delivered dispenser (cargo munition). Similar tail fins are used in other variants of the SUU-30 series dispensers. The SUU-30H/B can be used in various ‘Cluster Bomb Units’ including variants of the CBU-52, CBU-58, and CBU-71 munitions. (ARES)
This image shows a remnant of an SUU-30H/B air-delivered dispenser (cargo munition), that comprised a CBU-58A/B ‘Cluster Bomb Unit’ (CBU). The CBU-58A/B carries 650 BLU-63A/B anti-personnel submunitions, that have a total explosive weight of 163 lbs (~74 kg) of COMP B explosive; this is reflected in the visible markings. (ARES)
This image shows a GBU-12 series guided bomb being loaded onto a F-35B belonging to Marine Fighter Attack Squadron 211. Two of the control fins have not yet been installed in the Paveway’s guidance control section. (ARES)
This image shows a remnant of a control actuator shaft from a Paveway guidance kit control section, found after a strike in Yemen in 2015. Markings giving the CAGE code for Raytheon (“96214”) and the part number (“2870627-2”) are both visible. The complete remnant can be seen in related entry 1559. (ARES)
This image shows a remnant of the control fin of a GBU-24 (as seen partially marked), the designation for the combination of a Paveway III guidance kit paired with a 2,000-pound-class air-delivered bomb. This remnant is not enough to determine which model of bomb the kit was originally paired with. (ARES)
This image shows a BLU-111 500-pound-class bomb paired with a Paveway II guidance kit, and an MXU-650 series airfoil group, or tail kit. This combination is designated the GBU-12 series in U.S. service. (ARES)
This image shows remnants of an MXU-series airfoil group, or tail section, that is paired with Paveway-series bomb guidance kits. The remnant on the right is one of two retractor mechanisms that are present inside the MXU-series airfoil group. (ARES)
This image shows a close up view of an actuator assembly from an AGM-114 ‘Hellfire’ series missile. This assembly is what actuates the control fins, and the attachment point for one of the control fins is visible at the bottom right of the image. This assembly belongs to the control section, which is the rearmost section of the missile. (ARES)