Wikipedia

M18 smoke grenade

M18
M18 Colored Smoke Grenade with "violet" or purple smoke filling.
TypeSmoke grenade
Place of originUnited States
Service history
In service1942-present
Used byUnited States
Australia
Iraq
New Zealand
South Vietnam
Ukraine
WarsWorld War II
Korean War
Vietnam War
War in Afghanistan (2001–2021)
Iraq War
Russo-Ukrainian War
Production history
Designed1942
ManufacturerPine Bluff Arsenal
Unit cost$109.02 (avg. cost in 2025)
Produced1942-present
No. built3,800,000+
VariantsG940 (Green)
G945 (Yellow)
G950 (Red)
G955 (Violet)
Specifications
Mass19 oz (540 g)
Length5.75 in (146 mm)
Diameter2.50 in (64 mm)
FillingSmoke Mix, colored
Filling weight11.4 oz (320 g)
Detonation
mechanism
Pyrotechnic M201A1 Pull-ring delay Igniter (1.0–2.3 seconds)

The M18 Colored Smoke Grenade is designed and produced by the United States Army. It was introduced in 1942 during World War II, eventually replacing the M16 Colored Smoke Grenade. Since then, it has been the primary colored smoke grenade for the United States Armed Forces. It is used as a ground-to-ground or ground-to-air signaling device, target or landing zone marking device, or for screening unit movements.

History

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The M18 was developed in 1942 during World War II and was completed in November of that year. It was designed to replace the M16 smoke grenade, which did not burn as long or as vividly. It was designated standard issue in the fall of 1943. Both were produced at the same time as the M16 production lines were already setup when the M18 was adopted.[citation needed]

The M16 was available in red, orange, yellow, green, blue, violet, and black. The M18 initially were going to be produced in the same colors, including white, but it was decided to limit it to four colors (red, yellow, green and violet) for simplicity. The M16 was declared limited standard in 1944 but was still available when it was declared obsolete in the early 1990s.[citation needed]

During the Vietnam War, the M18 was mainly used by troops for signaling to helicopters and other aircraft. Red typically meant danger, while violet and yellow were used to mark pickup zones and friendly force locations. Green was rarely used due to it being difficult to spot.[1][2][3] However, color coding and usage varied by squad.

In 1971, a non submersible version of the M18 was under testing as the M18 provided poor signal when used in areas partially or fully covered in water. This made the standard M18 ineffective in such areas in Vietnam. This version of the M18 had a silicon ballute which acted as a parachute and flotation device. It was produced by Northrup Carolina, a subsidiary of Northrup Grumman at the time.[4][5]

By June 2019 the Pine Bluff Arsenal has produced 3,888,502 M18 grenades since its introduction.[6]

In 2022, the US supplied Ukraine with an undisclosed amount of M18 smoke grenades as part of a military aid package.[7][8]

Usage

[edit]
United States Army infantryman throws an M18 smoke grenade for training (2025)

The M18 is used by holding it in one hand with the safety lever pressed against the canister. The safety pin/ring is then removed after which the M18 can be thrown. As the safety lever is released, it is forced away from the body by a striker spring. The striker rotates on its own and strikes the percussion primer. The fuze delay then starts the ignition process. The tape covering the bottom emission hole is blown off and smoke is released. After ignition, the M18 produced a cloud of colored smoke for 50 to 90 seconds. The M18 could be thrown up to 35 meters by the average soldier.[9]

If the fuze was non-functional, the M18 could still be used. This was done by removing the tape covering the hole on the bottom, removing the fuze assembly, and igniting the starter mixture with an open flame.[10]

With the M18 there is a danger of starting a fire if it is used in a dry foliage area as the inside of the tube gets very hot during the burning process (upwards of 350°C).[11] Expended smoke grenade canisters remain hot for some time after burning out and should not be picked up bare-handed.

Launcher Attachments

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Diagram of the M2A1 adapter with the AN-M8 smoke grenade.

The M18 was able to be used as a rifle launched grenade using the M2/M2A1 (originally designated T2E1) chemical grenade projection attachment.[12] This attachment was mounted onto a M7A3 or M76 grenade launcher, which went onto a rifle or carbine such as the M1 and M14.[13] It was a modified version of the M1 grenade adapter and was created around 1944.[14]

The M2 adapter consisted of a stabilizer which was a metal tube with a solid fin assembly on one end and a base plate with a set of three claws on the other. The grenade was installed by being forced down into the clips until held securely in place. A setback band, which was a metal band with the ends held together by a spring, was installed midway on the grenade with the spring over the safety lever to hold it against the canister.[15][16] The M2A1 was a revised design with a slotted fin assembly and reinforced base plate which gave it more stability.[12]

To use the launcher, the stabilizer was installed over the grenade launcher at a position that would give a desired range. The grenade/adapter was rotated so that the safety lever faced the ground, and the safety pin was removed. The assembly was launched by firing a high-powered blank from the rifle. When fired a forceful shock causes the setback band to slide down the grenade, releasing the lever. After launching the assembly would remain attached to the grenade until it landed. Using the M2/M2A1 adapter allowed higher ranges up to about 180 meters.[15][17]

The M2/M2A1 launchers were not widely used for the M18, which were intended more for chemical grenades such as the M6/M7 tear gas grenades. The impact of hitting the ground using the adapter could cause the M18 to burn out prematurely.[15] There were rifle launched smoke grenades such as the M22 series available in the same colors that were designed more for this purpose.[18]

A modified version of the M2A1 designated T1 was made for suspending M18 smoke grenades from trees to increase visibility. Instead of a setback band it used a solid ring to hold the grenade safety lever. A cardboard tube that contained rayon cord was tied to both the base of the T1 and another ring positioned around the top of the grenade. When the rifle was fired the entire assembly was launched, with the setback ring sliding down and striking the clips holding the grenade. This would release the safety lever and clips, separating the grenade and adapter assembly. As the grenade flew, the cord would unravel from the tube which could easily be entangled in trees and allow the grenade to be suspended.[14][18]

Design & Variants

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The M18 comes in four variations: G940 (Green), G945 (Yellow), G950 (Red), and G955 (Violet).[19]

Diagram and cross section of the M18 Colored Smoke Grenade.

The early M18 was a 2.50" wide and 5.75" tall thin steel cylindrical tube with a M200A1 pull-ring fuze assembly screwed into the top.[20] It had 4 emission holes on the top surrounding the fuze assembly and an additional one on the bottom covered by tape for smoke to release when ignited. It was light gray, with the top of the grenade painted yellow.[21] A yellow band was painted around the body along with yellow text stating the color, lot number, and date produced following MIL-STD-1168. Including filling, it weighed 19 oz.

The body contained a pyrotechnic delay column with a primer and starter/ignition mixture surrounding the hole the fuse assembly goes into. Below that is a donut shaped smoke filler mixture that varied in composition depending on the color used.[22] It came shipped in a metal tube to protect it from the environment during shipping.

Yellow M18 from January 2012 with shipping tube.

In the 1950s the M18 was 2.50" wide and 4.50" tall. It had a M201A1 pull-ring fuze assembly. There were 6 emission holes on the top and an additional on the bottom covered by tape for smoke to release when ignited. The top was painted indicating the color with a yellow band and text on the body.[23]

In the 1960s the M18 was largely similar to the original, being 2.50" wide and 5.75" tall with the same hole arrangement. It came in an olive drab body with the top painted indicating the color. A yellow or gray band and text were painted on the side stating the color, lot number, and date produced following MIL-STD-1168.[24] It came shipped in a waxed cardboard tube to protect it from the environment during shipping.

In 2005, the top 4 emission holes were removed leaving only the bottom one. Inside starter patches were put between pucks of dye to improve burning time and performance.[25][26] The design was otherwise the same as the previous iteration.

Non-submersible Variant

[edit]

The non-submersible M18 was the same size as the standard M18, being 2.50" wide and 5.75" tall, and looked basically identical. The body contains a chimney design vent hole under the fuze in the middle. Surrounding the chimney is a folded silicone fiberglass ballute that is attached to a bulkhead plate. 8 vent holes on the top of the bulkhead are used to inflate the ballute when the grenade is ignited. Below the bulkhead is a starter/ignition mixture, inflation mixture, and smoke mixture.[27]

When ignited and thrown, the top of the grenade with the pull-ring fuze assembly detached while the ballute inflated. The grenade would then glide towards the ground upright, and could float in water.[27] It was found these versions of the M18 had a lower smoke volume but burning time was almost double the standard M18 with 90 seconds minimum.[27]

Although testing was considered successful, this version of the M18 was never used outside of it. It was created as the standard M18 provided poor visibility for signaling when used in areas partially or fully covered in water in Vietnam.

Chemistry

[edit]

The smoke from an M18 is produced by volatilizing and condensing a colored dye mixture. The heat produced by the starter mixture volatilizes the dye which is then condensed by the air forming a colored smoke cloud.[28] A cooling agent is added to the smoke mixture to help prevent excessive decomposition of the dye while burning time can be regulated by adjusting the amount of oxidant and combustible materials.[29]

In the original M18 chemical components, sulfur was used for the starter mixture with sodium bicarbonate as a coolant. Dye mixture was dependent on the color of smoke being produced.[29] During extensive testing in the 1980s, it was found that the burning of the chemical components caused the smoke to be toxic so the formulas were remade.[29]

M18 without burning patches (left) and with them (right).

The new formulas used sugar for the starter mixture and magnesium carbonate as coolant.[29][28] The dye mixtures were also changed, using different coloring components. The formula for the green and yellow M18 were changed quickly with relative ease, while red and violet were more challenging to produce. Early attempts with red and violet failed due to excessive flaming and insufficient smoke production of the mixtures. For violet it was also found the new mixture using Disperse Blue 3 for smoke coloring was even more toxic than the original. This was later changed to Disperse Red 11.[30]

Red and violet M18's retained the original formulas until the early 2000s, where they were looked at again by the Environmental Security Technology Certification Program (ESTCP). The introduction of wafer starter patches between dye pucks improved flaming and burning times, making the new formulas more successful.[30] The new red was found to produce a pinkish smoke rather than the intended darker red, caused by added Terephthalic Acid. Several attempts were made to correct it but were unsuccessful.[31]

The smoke produced by an M18 is harmful if inhaled, even with the new less toxic smoke mixtures. In enclosed spaces the grenade displaces oxygen and produces carbon monoxide due to the burning process. It can cause respiratory problems or oxygen deprivation.

The new dye mixtures are produced by Nation Ford Chemical in South Carolina.[32]

Old/New Mixture Comparison Table

[edit]
Component Green Yellow Red Violet
Old New Old New Old New Old New
Vat Yellow 4 4.0% 14.0%
Solvent Yellow 33 12.6% 42.0%
Disperse Red 9 40.0% 8.4%
Solvent Red 1 34.2%
Disperse Red 11 6.8% 38.0%
Solvent Green 3 28.0% 29.4%
Benzanthrone 8.0% 24.5%
1,4-Diamino-2,3-dihydroanthraquinone 33.6%
Sulfur 10.4% 8.5% 9.0% 9.0%
Sodium Biocarbonate 22.6% 33.0% 25.0% 24.0% 5.1%
Potassium Chlorate 27.0% 25.0% 20.0% 24.1% 26.0% 17.7% 25.0% 23.5%
Magnesium Carbonate 15.5% 17.5% 9.6% 10.2%
Terephthalic Acid 14.0% 7.6%
Sugar 17.5% 16.4% 17.7% 15.5%
Stearic Acid 0.5% 0.5%
Table Sources:
  • [33] - Toxicity of Military Smokes and Obscurants: Volume 3
  • [34] - Demonstration of the Replacement of the Dyes and Sulfur in the M18 Red and Violet Smoke Grenades

Manufacturing

[edit]
General Brig. Gen. Michelle Letcher chatting with Pine Bluff Arsenal M18 production workers (2019).

The Pine Bluff Arsenal in Arkansas is the only manufacturer of the M18 today.[35] It has been assembled there since its introduction in 1942.[6] Majority of M18's were produced by Pine Bluff. This is denoted on an M18 by a "PB" before the lot number marked on the outside. The various components of the M18 are made by different manufacturers contracted yearly in the United States. As of 2024 the body and lid are made by Tool Masters, Inc. in Tuscumbia, Alabama. The fuze assembly is made by Day & Zimmermann in Texarkana, Texas. The smoke mixture dyes are produced by Nation Ford Chemical in South Carolina.[36][37][38]

During the Vietnam War, the M18 was also manufactured by Martin Electronics, Inc. ("MEI") in Florida and Talley Industries, Inc. ("TAC") in Arizona.[39][40][41]

Unit Costs/Year

[edit]
M18 Cost Per Unit
Year Green Yellow Red Violet
2025 $104.53 $106.03 $113.10 $112.42
2024 $101.83 $103.39 $115.44 $114.87
2023 $118.75 $118.75 - $120.15
2022 $110.57 $117.97 - -
2021 - - $88.04 $154.68
2020 $90.53 $91.72 - $99.68
2019 $81.21 $82.30 - $90.38
2018 $68.24 $71.67 - $74.02
2017 $64.84 $68.22 - $70.79
2016 $57.45 $60.81 - $63.34
2015 $49.89 $53.05 $56.06 $55.25
2014 $44.93 $47.82 $50.25 $49.71
2013 $60.26 $61.80 $122.80 $74.68
2012 $54.73 $57.73 - $70.54
2011 $58 $59 $72 $65
2010 $59 $59 $85 $64
2009 $49 $64 $62 $59
2008 $41 $62 $67 $61
2007 $55 $52 $55 $56
2006 $54 $51 $54 $53
2005 $45 $39.89 $53 $58
2004 - - $39.44 -
2003 $32.00 $30.06 $29.10 $27.73
2002 $25.17 $25.48 - $31.92
2001 $27.05 $26.61 - -
2000 - $27.13 - -
1999 $47.30 $33.27 - $37.61
1998 - $31.89 - $31.90
Table Sources:

Users

[edit]
[edit]
  • Smoke billowing from a green M18.
    Smoke billowing from a green M18.
  • Smoke billowing from a yellow M18.
    Smoke billowing from a yellow M18.
  • Smoke billowing from a red M18.
    Smoke billowing from a red M18.
  • Smoke billowing from a violet M18.
    Smoke billowing from a violet M18.
  • Green M18 used for signaling in medevac casualty evacuation exercise (Kuwait 2015).
    Green M18 used for signaling in medevac casualty evacuation exercise (Kuwait 2015).
  • United States Army soldier with yellow M18. (Vietnam 1966)
    United States Army soldier with yellow M18. (Vietnam 1966)
  • United States Army radio operator with multiple M18 grenades (Vietnam 1966).
    United States Army radio operator with multiple M18 grenades (Vietnam 1966).
  • United States Army Paratrooper with yellow M18 visible (Iraq 2004).
    United States Army Paratrooper with yellow M18 visible (Iraq 2004).

Media

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Movies/TV

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[edit]

See also

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References

[edit]
  1. ^ "Purple Haze: Smoke Grenades in Vietnam". HistoryNet. 18 May 2022. Retrieved 31 March 2025.
  2. ^ Rottman, Gordon (2015). THE HAND GRENADE (PDF). Osprey Publishing. p. 56. ISBN 9781472807342.
  3. ^ a b c Rottman, Gordon (2017). Vietnam War US & Allied Combat Equipments. Elite 216. Osprey Publishing. ISBN 978-1-4728-1905-5.
  4. ^ Renfroe, Donald (18 Feb 1972). Development of a Floating Smoke Grenade Air and Surface to Surface (PDF). General Testing Laboratories, Inc.
  5. ^ "U.S. GRENADE, HAND, SMOKE, NONSUBMERSIBLE". ORDATA. 27 Feb 2009. Archived from the original on 27 February 2009. Retrieved 30 March 2025.
  6. ^ a b Selby, Rachel (16 July 2019). "Pine Bluff Arsenal provides ammunition, CBRND readiness for nation's military". U.S. Army. Archived from the original on 30 March 2025. Retrieved 29 March 2025.
  7. ^ a b Trinko, Myroslav (8 November 2022). "The Ukrainian Armed Forces use the legendary American M18 smoke grenades". gagaget. Retrieved 29 March 2025.
  8. ^ Basic Identification of Ammunition in Ukraine (PDF). Vol. 5. Ukraine EOD. 10 October 2023. Retrieved 29 March 2025.
  9. ^ GRENADES AND PYROTECHNIC SIGNALS (PDF). U.S. Army. 2021. pp. 3–42, 3–43. Retrieved 30 March 2025.[dead link]
  10. ^ "Chapter 1 - Fundamentals Of Grenades". Army Training Information System. Archived from the original on 12 March 2000. Retrieved 29 March 2025.
  11. ^ Demonstration of the Replacement of the Dyes and Sulfur in the M18 Red and Violet Smoke Grenades (PDF). Environmental Security Technology Certification Program. September 2008. pp. 3, 4, 6.
  12. ^ a b "GRENADE ADAPTERS". The Grenade Recognition Manual. Retrieved 19 October 2025.{{cite web}}: CS1 maint: url-status (link)
  13. ^ TM3-300: Ground Chemical Munitions. United States Army. August 1956. pp. 41, 42. Retrieved 18 October 2025.
  14. ^ a b Grenades - Office of the Chief of Ordnance (PDF). United States Army. December 1944. pp. 15, 16. Archived from the original (PDF) on 7 June 2023. Retrieved 19 October 2025.
  15. ^ a b c TM3-300: Ground Chemical Munitions. United States Army. August 1956. pp. 49, 50. Retrieved 19 October 2025.
  16. ^ FM 23-30: Grenades And Pyrotechnic Signals. United States Army. December 1969. pp. 39, 41. Retrieved 19 October 2025.
  17. ^ "Grenade Launcher Adapters". Ej's Ordnance Show & Tell Pages. Archived from the original on 29 February 2024. Retrieved 19 October 2024.
  18. ^ a b OP 1664 Vol. 2 - U.S. EXPLOSIVE ORDNANCE. United States Army. 28 May 1947. pp. 314–315, 318–319. Retrieved 20 October 2025.
  19. ^ TC 3-23.30: GRENADES AND PYROTECHNIC SIGNALS (PDF). U.S. Army. August 2021. pp. 3–42, 3–43. Archived from the original (PDF) on 19 October 2025. Retrieved 30 March 2025.
  20. ^ FM23-30: War Department Basic Field Manual - HAND AND ROCKET GRENADES - ROCKET, AT, HE, 2.36 INCH (PDF). United States Army. 14 February 1944. p. 10.
  21. ^ "M16-M18 Coloured Smoke". Grenades, mines and boobytraps. Archived from the original on 3 Nov 2007. Retrieved 29 March 2025.
  22. ^ Cooke, Gary (22 April 2007). "Hand Grenades". Gary's U.S. Infantry Weapons Reference Guide. Archived from the original on 6 March 2025. Retrieved 29 March 2025.
  23. ^ TM3-300: Department of the Army Technical Manual - Ground Chemical Munitions. United States Army. August 1956. pp. 41, 42. Retrieved 18 October 2025.
  24. ^ FM23-30: Department of the Army Field Manual - GRENADES AND PYROTECHNIC SIGNALS. United States Army. December 1969. p. 12. Retrieved 19 October 2025.
  25. ^ Newton, Rachel (12 May 2009). "Pine Bluff Arsenal reaches major production milestone". U.S. Army. Archived from the original on 30 March 2025. Retrieved 29 March 2025.
  26. ^ FM 3-23.30: GRENADES AND PYROTECHNIC SIGNALS (PDF). United States Army. 7 June 2005. Retrieved 18 October 2025.
  27. ^ a b c Renfroe, Donald (18 Feb 1972). Development of a Floating Smoke Grenade Air and Surface to Surface (PDF). General Testing Laboratories, Inc.
  28. ^ a b Taylor, Keith (3 May 2007). "Sugar-based Smoke in Colored Grenades Protects Soldiers, Environment". U.S. Army. Retrieved 29 March 2025.
  29. ^ a b c d "Combustion Chemistry". Toxicity of Military Smokes and Obscurants: Volume 3 (3rd ed.). National Academies Press. 1999.
  30. ^ a b Demonstration of the Replacement of the Dyes and Sulfur in the M18 Red and Violet Smoke Grenades (PDF). Environmental Security Technology Certification Program. September 2008. pp. 3, 4, 6.
  31. ^ Demonstration of the Replacement of the Dyes and Sulfur in the M18 Red and Violet Smoke Grenades (PDF). U.S. Department of Defense. January 2007. pp. 2, 5, 18, 25.
  32. ^ PEO AMMUNITION PORTFOLIO BOOK (PDF). JPEO. 27 Feb 2017. p. 77. Archived from the original (PDF) on 30 March 2025. Retrieved 29 March 2025.
  33. ^ "TABLE 1-1". Toxicity of Military Smokes and Obscurants: Volume 3 (3rd ed.). National Academies Press. 1999.
  34. ^ Demonstration of the Replacement of the Dyes and Sulfur in the M18 Red and Violet Smoke Grenades (PDF). U.S. Department of Defense. January 2007. pp. 2, 5, 18, 25.
  35. ^ "M18 Colored Smoke Grenade". The Coolest Thing Made in Arkansas. Archived from the original on 31 March 2025. Retrieved 30 March 2025.
  36. ^ PEO Ammunition Portfolio Book (PDF). JPEO. 27 Feb 2017. p. 77. Archived from the original (PDF) on 30 March 2025. Retrieved 29 March 2025.
  37. ^ Gaines, Jenny. "Nation Ford Chemical Supports Troops by Making Colorants for Smoke Grenades". socma. Archived from the original on 31 March 2025. Retrieved 31 March 2025.
  38. ^ Department of Defense Fiscal Year (FY) 2025 Budget Estimates - Army Justification Book Volume 1 of 1 Procurement of Ammunition, Army (PDF). U.S. Army. March 2024. p. 31. Retrieved 31 March 2025.
  39. ^ MEI Product Guide (PDF). Martin Electronics, Inc. 2006. Retrieved 31 March 2025.
  40. ^ B-171121, B-171123, MAR 26, 1971. U.S. Army. 26 March 1971. Retrieved 31 March 2025.
  41. ^ "American Manufacturers". Archived from the original on 31 March 2025. Retrieved 31 March 2025.
  42. ^ Lyles, Kevin (25 May 2004). Vietnam ANZACs: Australian & New Zealand Troops in Vietnam 1962-72. Osprey Publishing. ISBN 9781841767024.
  43. ^ Gordon L. Rottman (26 Jan 2017). Vietnam War US & Allied Combat Equipments. Osprey Publishing. p. 44. ISBN 9781472819055.
  44. ^ DEFENCE UNEXPLODED ORDNANCE WEBSITE ORDNANCE INFORMATION SHEET (PDF). Department of Defence (Australia). 2015. Retrieved 3 October 2025.
  45. ^ "An Iraqi Security Forces student throws a smoke grenade". NARA & DVIDS Public Domain Archive. 31 May 2019. Retrieved 31 March 2025.
  46. ^ IRAQ TRAIN AND EQUIP FUND (ITEF) (PDF). United States Department of Defense. 2016. p. 10. Archived from the original (PDF) on 31 March 2025. Retrieved 31 March 2025.
  47. ^ "New Zealand Army". Twitter. 18 August 2020. Retrieved 5 April 2025.