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Year the image is reported to have been taken

Year (21)

Classification groups of key explosive munitions used in conflicts

Munition Category (8)

The impact or effect the munition is intended to have

Functional use (10)

The specific model of munition pictured

Tentative Model (383)

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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)

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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.

Calibre (75)

Weight class of the aerial bomb pictured

Weight Class (14)

1,101–1,200 of 1,741
OSMP914
Analyst Note:
These R-122 ‘Grad’-type 122 mm surface-to-surface rockets were produced in North Korea. The example to the right is fitted with an F-122 impact fuze. Whilst a two-tone colour scheme is more common amongst those North Korean Grad rockets thus far identified in the context of the Ukraine conflict (these typically featuring a black forward section), uniformly coloured examples like this have also been identified previously. (ARES)
OSMP942
Analyst Note:
This image shows a rocket motor section from an MGM-140 ATACMS series surface-to-surface ballistic missile. The warhead section of the MGM-140 series missiles separate from the rocket motor before functioning, resulting in the rocket motor often being found relatively intact near the target. The MGM-140 series missiles use the same rocket motor, preventing a positive identification of the variant based off the rocket motor alone, unless the variant markings are visible. (ARES)
OSMP928
Analyst Note:
This remnant of an MGM-140 Army Tactical Missile System (ATACMS) surface-to-surface ballistic missile is marked to indicate it is the MGM-140A variant, a cluster munition which carries 950 M74 multi-purpose submunitions. Submunitions of this type are sometimes referred to by the acronym ‘anti-personnel and anti‑materiel (APAM)’. Additional markings indicate a manufacturing date (“10/96”; October 1996), a serial number (“411240”), and other information. (ARES)
OSMP436
Analyst Note:
Almost all cluster munitions, including this example, expel their submunitions during flight. The submunitions are often held in an internal frame, such as that visible here, prior to being expelled. Depending on the munition, these internal frames may be diagnostic for identification. They usually do not carry a significant explosive payload in their own right, and therefore often withstand the functioning of the munition relatively intact. (ARES)
OSMP795
Analyst Note:
Honeycomb-like internal structures are often used in aerospace applications to provide rigidity with reduced weight, and are sometimes constructed using materials which reduce radar cross-section by absorbing or scattering electromagnetic waves. (ARES)
OSMP118
Analyst Note:
The 9M27K3 surface-to-surface rocket is fitted with the 9N128K3 cargo warhead (seen here). This warhead carries a payload of 312 PFM-1 or PFM-1S scatterable anti-personnel landmines. (ARES)
OSMP859
Analyst Note:
The arming vane for a nose fuze (painted red) is visible on each of the two leftmost MAB-10B6 air-delivered bombs in this image. As the bomb falls, air passing over the arming vane causes it to spin, arming the fuze. (ARES)
OSMP856
Analyst Note:
The circles in this image indicate where the fixed fin assembly is connected to the bomb body. Fin assemblies such as this help stabilise the bomb as it falls, improving the predictability of the trajectory and thus precision. Fins also orient the bomb as it falls so that munition travels nose-down. Orientation of the bomb on impact can play a role in fuze functioning, as well as the distribution of explosive or other effects. (ARES)
OSMP865
Analyst Note:
This Iranian 60 mm mortar projectile is of the ‘Long Range’ type described without a specific model name in various Iranian export catalogues and other sources. The designation as marked on projectiles and packaging is variable, with observed formulations including “60mm H.E. L.R.”, “60mm H.E L.R”, and “60mm HE L.R”. Sometimes, as here, “60mm L.R” is followed by “HE / TNT”. (ARES)
OSMP871
Analyst Note:
This Blue Sparrow-series air-launched ballistic missile is being carried by an F-15C fighter aircraft from 106 Squadron Israeli Air Force. The missile is marked with the logos of three organisations involved in its development—the U.S. Missile Defense Agency, the Directorate of Defence Research & Development, and the Israel Missile Defense Organization—and the Blue Sparrow programme logo of the manufacturer (Rafael Advanced Defense Systems). The booster section also features bright-orange fins and markings consistent with its use as a target missile, here modified to accept a high explosive warhead. (ARES)
OSMP823
Analyst Note:
The Blue Sparrow is one of a series of three of air-launched missiles originally designed by Rafael as targets to test ballistic missile defence systems. Blue Sparrow missiles can be fitted with either inert or high explosive (HE) warheads. The recovery of Sparrow-series boosters following a reported Israeli strike on an Iranian air-defence system could suggest that a derivative variant of the Blue Sparrow missile was further developed for engaging surface targets. (ARES)
OSMP864
Analyst Note:
This image shows what is probably just the body of an Israeli 155 mm smoke artillery projectile. Israel predominantly uses two varieties of 155 mm smoke munition: the M825 white phosphorous (WP) series of munitions, and the M150 hexachloroethane/zinc mixture (HC) munition. These munitions are externally near-identical, save for their markings. In this case, the markings are insufficient to determine whether the image shows an M825-series WP munition or an M150 HC munition. (ARES)
OSMP88
Analyst Note:
The 9M22S is essentially the ‘full-sized’ version of the shorter 9M28S surface-to-surface rocket previously recorded in the OSMP. Both rockets carry the same 9N510 incendiary warhead, but differ in the length of their rocket motor sections, and thus range. (ARES)
OSMP70
Analyst Note:
The 9Н123К (9N123K) cargo warhead is delivered by a 9М79К (9M79K) series surface-to-surface guided missile. This cluster munition carries fifty 9Н24 (9N24) high explosive fragmentation (HE-FRAG) submunitions, and is launched from the 9К79 Tochka series of tactical ballistic missile launchers. (ARES)
OSMP68
Analyst Note:
A 9N24 submunition is visible to the left of the 9N123K warhead in this image. This high explosive fragmentation (HE-FRAG) submunition is marked to indicate it was produced in 1989 and filled with A-IX-2 explosive composition. (ARES)
OSMP820
Analyst Note:
Labels on munition remnants can provide a host of useful data, including the model designation (in this case, “GBU-39/B”), part number (PN; (“70P998100-1003”), National Stock Number (NSN; “1325-01-526-8728”), serial number (SN; illegible), and Department of Defense Identification Code (DODIC; “EC53”). These codes, and others like them, can often be searched for in databases or provided to technical specialists for further interpretation. (ARES)
OSMP828
Analyst Note:
The Stunner missile is the surface-to-air interceptor missile fired by the David’s Sling weapon system to defeat short-range ballistic missiles, cruise missiles, drones, and rockets. The Stunner does not carry an explosive warhead, instead relying on kinetic impact (also called the ‘hit-to-kill’ principle) to intercept ballistic missiles and other targets. (ARES)
OSMP87
Analyst Note:
The 9M28S surface-to-surface unguided rocket carries the 9N510 warhead, which disperses burning thermite-type incendiary elements over a wide area upon functioning. This munition is designed to start fires in target areas vulnerable to incendiary attack, including forests, ammunition dumps, and fuel storage sites. (ARES)
OSMP815
Analyst Note:
This M107 high explosive (HE) artillery gun projectile is fitted with an RT180 multi-function fuze. The RT180 can be set to operate in point-detonating or proximity modes. The factory setting for the proximity fuze detonates the warheads an average of 9 metres above the target. (ARES)
OSMP827
Analyst Note:
This image shows most of the forward half of a Tamir surface-to-air missile, including the guidance section and warhead, as fired by launchers in the Iron Dome system. These interceptor missiles are fast and manoeuvrable with a relatively small explosive payload. Their construction and low yield means that remnants are often recovered largely intact. (ARES)
OSMP783
Analyst Note:
The BLU-117 air-delivered bomb is nearly identical in format to the more common MK 84, but uses the PBXN-109 explosive filler which is more insensitive than the typical explosive compositions found in MK 80-series bombs. The BLU-117 is also coated with a grey, thermally resistant paint, and marked with three yellow bands (as opposed to the green paint with two yellow bands found on standard MK 80-series bombs). These changes were requested by the U.S. Navy for safer storage of these munitions aboard ships. (ARES)
OSMP12
Analyst Note:
This 9M27K-series surface-to-surface cargo rocket is carrying a payload of 9N210 or 9N235 high explosive fragmentation (HE-FRAG) submunitions. These submunitions are difficult to distinguish unless their external markings are visible, or a close examination is made. (ARES)