Grenade Explained

A grenade is an explosive weapon typically thrown by hand (also called hand grenade), but can also refer to a shell (explosive projectile) shot from the muzzle of a rifle (as a rifle grenade) or a grenade launcher. A modern hand grenade generally consists of an explosive charge ("filler"), a detonator mechanism, an internal striker to trigger the detonator, an arming safety secured by a transport safety. The user removes the transport safety before throwing, and once the grenade leaves the hand the arming safety gets released, allowing the striker to trigger a primer that ignites a fuze (sometimes called the delay element), which burns down to the detonator and explodes the main charge.

Grenades work by dispersing fragments (fragmentation grenades), shockwaves (high-explosive, anti-tank and stun grenades), chemical aerosols (smoke, gas and chemical grenades) or fire (incendiary grenades). Their outer casings, generally made of a hard synthetic material or steel, are designed to rupture and fragment on detonation, sending out numerous fragments (shards and splinters) as fast-flying projectiles. In modern grenades, a pre-formed fragmentation matrix inside the grenade is commonly used, which may be spherical, cuboid, wire or notched wire. Most anti-personnel (AP) grenades are designed to detonate either after a time delay or on impact.

Grenades are often spherical, cylindrical, ovoid or truncated ovoid in shape, and of a size that fits the hand of an average-sized adult. Some grenades are mounted at the end of a handle and known as "stick grenades". The stick design provides leverage for throwing longer distances, but at the cost of additional weight and length, and has been considered obsolete by western countries since the Second World War and Cold War periods. A friction igniter inside the handle or on the top of the grenade head was used to initiate the fuse.

Etymology

The word grenade is likely derived from the French word spelled exactly the same, meaning pomegranate,[1] as the bomb is reminiscent of the many-seeded fruit in size and shape. Its first use in English dates from the 1590s.[2]

History

Pre-gunpowder

See also: Early thermal weapons.

Rudimentary incendiary grenades appeared in the Eastern Roman (Byzantine) Empire, not long after the reign of Leo III (717–741).[3] Byzantine soldiers learned that Greek fire, a Byzantine invention of the previous century, could not only be thrown by flamethrowers at the enemy but also in stone and ceramic jars.[3] Later, glass containers were employed.

Gunpowder

See also: History of gunpowder.

In Song China (960–1279), weapons known as 'thunder crash bombs' (Chinese: 震天雷) were created when soldiers packed gunpowder into ceramic or metal containers fitted with fuses. A 1044 military book, Wujing Zongyao (Compilation of Military Classics), described various gunpowder recipes in which one can find, according to Joseph Needham, the prototype of the modern hand grenade.[4]

Grenade-like devices were also known in ancient India. In a 12th-century Persian historiography, the Mojmal al-Tawarikh, a terracotta elephant filled with explosives set with a fuse was placed hidden in the van and exploded as the invading army approached.[5]

The first cast-iron bombshells and grenades appeared in Europe in 1467, where their initial role was with the besieging and defense of castles and fortifications.[6] A hoard of several hundred ceramic hand grenades was discovered during construction in front of a bastion of the Bavarian city of Ingolstadt, Germany, dated to the 17th century. Many of the grenades retained their original black powder loads and igniters. The grenades were most likely intentionally dumped in the moat of the bastion prior to 1723.[7]

By the mid-17th century, infantry known as "grenadiers" began to emerge in the armies of Europe, who specialized in shock and close quarters combat, mostly with the usage of grenades and fierce melee combat. In 1643, it is possible that grenados were thrown amongst the Welsh at Holt Bridge during the English Civil War. The word grenade was also used during the events surrounding the Glorious Revolution in 1688, where cricket ball-sized (8.81inchesto9inchesin (toin) in circumference) iron spheres packed with gunpowder and fitted with slow-burning wicks were first used against the Jacobites in the battles of Killiecrankie and Glen Shiel.[8] These grenades were not very effective owing both to the unreliability of their fuse, as well inconsistent times to detonation, and as a result, saw little use. Grenades were also used during the Golden Age of Piracy, especially during boarding actions; pirate Captain Thompson used "vast numbers of powder flasks, grenade shells, and stinkpots" to defeat two pirate-hunters sent by the Governor of Jamaica in 1721.[9]

Improvised grenades were increasingly used from the mid-19th century, the confines of trenches enhancing the effect of small explosive devices. In a letter to his sister, Colonel Hugh Robert Hibbert described an improvised grenade that was employed by British troops during the Crimean War (1854–1856):[10]

In March 1868 during the Paraguayan War, the Paraguayan troops used hand grenades in their attempt to board Brazilian ironclad warships with canoes.[11]

Hand grenades were used on naval engagements during the War of the Pacific.[12] [13]

During the Siege of Mafeking in the Second Boer War, the defenders used fishing rods and a mechanical spring device to throw improvised grenades.[14]

Improvised hand grenades were used to great effect by the Russian defenders of Port Arthur (now Lüshun Port) during the Russo-Japanese War.[15]

Development of modern grenades

Around the turn of the 20th century, the ineffectiveness of the available types of hand grenades, coupled with their levels of danger to the user and difficulty of operation, meant that they were regarded as increasingly obsolete pieces of military equipment. In 1902, the British War Office announced that hand grenades were obsolete and had no place in modern warfare. But within two years, following the success of improvised grenades in the trench warfare conditions of the Russo-Japanese War, and reports from General Sir Aylmer Haldane, a British observer of the conflict, a reassessment was quickly made and the Board of Ordnance was instructed to develop a practical hand grenade.[16] Various models using a percussion fuze were built, but this type of fuze suffered from various practical problems, and they were not commissioned in large numbers.[15]

Marten Hale, known for patenting the Hales rifle grenade, developed a modern hand grenade in 1906 but was unsuccessful in persuading the British Army to adopt the weapon until 1913. Hale's chief competitor was Nils Waltersen Aasen, who invented his design in 1906 in Norway, receiving a patent for it in England. Aasen began his experiments with developing a grenade while serving as a sergeant in the Oscarsborg Fortress. Aasen formed the Aasenske Granatkompani in Denmark, which before the First World War produced and exported hand grenades in large numbers across Europe. He had success in marketing his weapon to the French and was appointed as a Knight of the French Legion of Honour in 1916 for the invention.[15]

The Royal Laboratory developed the No. 1 grenade in 1908. It contained explosive material with an iron fragmentation band, with an impact fuze, detonating when the top of the grenade hit the ground. A long cane handle (approximately 16 inches or 40 cm) allowed the user to throw the grenade farther than the blast of the explosion.[16] It suffered from the handicap that the percussion fuse was armed before throwing, which meant that if the user was in a trench or other confined space, he was apt to detonate it and kill himself when he drew back his arm to throw it.[17]

Early in World War I, combatant nations only had small grenades, similar to Hales' and Aasen's design. The Italian Besozzi grenade had a five-second fuze with a match-tip that was ignited by striking on a ring on the soldier's hand.[18] William Mills, a hand grenade designer from Sunderland, patented, developed and manufactured the "Mills bomb" at the Mills Munition Factory in Birmingham, England in 1915, designating it the No.5. It was described as the first "safe grenade". They were explosive-filled steel canisters with a triggering pin and a distinctive deeply notched surface. This segmentation is often erroneously thought to aid fragmentation, though Mills' own notes show the external grooves were purely to aid the soldier to grip the weapon. Improved fragmentation designs were later made with the notches on the inside, but at that time they would have been too expensive to produce. The external segmentation of the original Mills bomb was retained, as it provided a positive grip surface. This basic "pin-and-pineapple" design is still used in some modern grenades.[15]

After the Second World War, the general design of hand grenades has been fundamentally unchanged, with pin-and-lever being the predominant igniter system with the major powers, though incremental and evolutionary improvements continuously were made. In 2012, Swedish: [[Spränghandgranat 07]] (shgr 07, "Blast hand-grenade 07") was announced as the first major innovation in the area of handgrenades since the Great War.[19] [20] [21]
Developed by Ian Kinley at Försvarets Materielverk (FMV), shgr 07 is a self-righting, jumping hand grenade containing some 1900 balls that covers a cone 10 metres in diameter with the centre about 2 metres in height. This minimize the dangers outside the lethal zone as there is little to no random scattering of fragments from the blast..[22] [23] [24]

Explosive grenades

Fragmentation

Fragmentation grenades are common in armies. They are weapons that are designed to disperse fragments on detonation, aimed to damage targets within the lethal and injury radii. The body is generally made of a hard synthetic material or steel, which will provide some fragmentation as shards and splinters, though in modern grenades a pre-formed fragmentation matrix is often used. The pre-formed fragmentation may be spherical, cuboid, wire or notched wire. Most explosive grenades are designed to detonate either after a time delay or on impact.

Modern fragmentation grenades, such as the United States M67 grenade, have a wounding radius of 15m (49feet) – half that of older style grenades, which can still be encountered – and can be thrown about 40m (130feet). Fragments may travel more than 200m (700feet).[25]

High explosive

These grenades are usually classed as offensive weapons because the effective casualty radius is much less than the distance it can be thrown, and its explosive power works better within more confined spaces such as fortifications or buildings, where entrenched defenders often occupy. The concussion effect, rather than any expelled fragments, is the effective killer. In the case of the US Mk3A2, the casualty radius is published as 2m (07feet) in open areas, but fragments and bits of fuze may be projected as far as 200m (700feet) from the detonation point.[26]

Concussion grenades have also been used as depth charges (underwater explosives) around boats and underwater targets; some like the US Mk 40 concussion grenade are designed for use against enemy divers and frogmen. Underwater explosions kill or otherwise incapacitate the target by creating a lethal shock wave underwater.[27]

The US Army Armament Research, Development and Engineering Center (ARDEC) announced in 2016 that they were developing a grenade which could operate in either fragmentation or blast mode (selected at any time before throwing), the electronically fuzed enhanced tactical multi-purpose (ET-MP) hand grenade.[28]

Anti-tank

See main article: Anti-tank grenade. During the Great War, handgrenades were frequently used by troops, lacking other means to defend against enemy tanks threatening to over-run the position, to various success. The Interwar period saw some limited development of grenades specifically intended to defeat armour, but it was not until the outbreak of WWII serious efforts were made. While there were infantry anti-tank weapons available, they were either not ubiquitous enough, ineffective or both. Anti-tank grenades were a suitable stopgap to ensure a rudimentary capability for every squad to be used for self-defence. Once rocket-propelled shaped charges became available in greater numbers, anti-tank hand grenades became almost obsolete. However, they were still used with limited success in the Iraqi insurgency in the early 2000s against lightly-armoured mine-resistant ambush protected (MRAP) vehicles, designed for protection only against improvised explosive devices,[29] as well as drone ordnance in Ukraine 2022–2024.

Incendiary

During World War II the United Kingdom used incendiary grenades based on white phosphorus. One model, the No. 76 special incendiary grenade, was mainly issued to the Home Guard as an anti-tank weapon. It was produced in vast numbers; by August 1941 well over 6,000,000 had been manufactured.[30]

Sting

See main article: Blast ball. Sting grenades, also known as stingball or sting ball grenades,[31] are stun grenades based on the design of the fragmentation grenade. Instead of using a metal casing to produce fragmentation, they are made from hard rubber and are filled with around 100 rubber or plastic balls. On detonation, these balls, and fragments from the rubber casing explode outward in all directions as reduced lethality projectiles, which may ricochet.[32] It is intended that people struck by the projectiles will receive a series of fast, painful stings, without serious injury. Some types have an additional payload of CS gas.[33]

Sting grenades do not reliably incapacitate people, so they can be dangerous to use against armed subjects.[34] They sometimes cause serious physical injury, especially the rubber fragments from the casing. People have lost eyes and hands to sting grenades.[35]

Sting grenades are sometimes called "stinger grenades", which is a genericized trademark as "Stinger" is trademarked by Defense Technology for its line of sting grenades.[32]

Chemical and gas

Chemical and gas grenades burn or release a gas, and do not explode.[36]

Practice

Practice or simulation grenades are similar in handling and function to other hand grenades, except that they only produce a loud popping noise and a puff of smoke on detonation. The grenade body can be reused.[37] [38] Another type is the throwing practice grenade which is completely inert and often cast in one piece. It is used to give soldiers a feel for the weight and shape of real grenades and for practicing precision throwing. Examples of practice grenades include the K417 Biodegradable Practice Hand Grenade by CNOTech Korea.[39] [40]

Igniters

When using a hand grenade, the objective is to have the grenade explode so that the target is within its effective radius while keeping the thrower out of the same. For this reason, several systems has been used to trigger the explosion.

Impact was the first used, with fragile containers of Greek fire that ruptured when landing. Later impact fuzes contained some kind of sensitive explosive to either initiate the main charge directly, or set off a primer charge that in turn detonates the main charge. This turned out to present significant drawbacks; either the primer is so sensitive that unintended and premature ignition happens, while a more stable substance often fails to set off the grenade when landing in softer ground, not seldom even allowing the targeted troops to hurl the grenade back. Thus, the only significant use of impact fuzes since WWI has been in anti-tank grenades.

Fuze-delayed grenades is the predominant system today, developed from the match-fuzes that were hand-lit in the early grenades. From there, two sub-groups were developed: friction-ignitors where a cord is pulled or a cap is twisted to ignite the delay-fuze like on the German Stielhandgranate; the other being strike- or percussion-ignitors where the user either hit the cap before the throw like on the Japanese Type 10 grenade, or have a spring-loaded striker hit the cap after the grenade is released like the Mills bomb with the latter being predominant since WWII. There is also an alternative technique of throwing, where the grenade is not thrown immediately after the fuze is ignited, which allows the fuze to burn partially and decrease the time to detonation after throwing; this is referred to as "cooking". A shorter delay is useful to reduce the ability of the enemy to take cover, throw or kick the grenade away and can also be used to allow a fragmentation grenade to explode into the air over defensive positions.[41]

Concerned with a number of serious incidents and accidents involving hand grenades, Ian Kinley at the Swedish Försvarets materielverk identified the two main issues as the time-fuze's burntime variation with temperature (slows down in cold and speeds up in heat) and the springs, the striker spring in particular, coming pre-tensioned from the factory by mechanism designs that had not changed much since the 1930s. In 2019, a new mechanism, fully interchangeable with the old ones, was adopted into service. The main difference, apart from a fully environmentally stable delay, is that the springs now are twist-tensioned by the thrower after the transport safety (pin and ring) has been removed, thus eliminating the possibility of unintentional arming of the hand grenade.[42]

Cultural impact

See main article: Grenade (insignia).

Manufacturing

Modern manufacturers of hand grenades include:

See also

References

General references

External links

Notes and References

  1. Grenade . 12 . 578.
  2. Web site: grenade (n.) . Online Etymology Dictionary . 2017-01-05 .
  3. Forbes, Robert James (1993). Studies in Ancient Technology. Leiden., p. 107
  4. Needham, Joseph (1994). Science and civilization in China: Vol. 5; "Part 6: Chemistry and chemical technology; Military technology: missiles and sieges". Cambridge University Press.
  5. Book: Oppert. Gustav Salomon. On the weapons, army organisation, and political maxims of the ancient Hindus, with special reference to gunpowder and firearms. Vaiśaṃpāyana. Nītiprakāśikā. Śukra. Śukranīti. Weber. Albrecht. 1880. Madras, Higginbotham. Oxford University. 64. We read: "that the Brahmans counselled Hal to have an elephant made of clay and to place it in the van of his army, and that when the army of the king of Kashmir drew nigh, the elephant exploded, and the flames destroyed a great portion of the invading force. Here we have not only the simple act of explosion, but something very much like a fuze, to enable the explosion to occur at a particular time.".
  6. Needham, Volume 5, Part 7, 179.
  7. Franzkowiak . Andreas . Andreas Franzkowiak . Wenzel . Chris . Chris Wenzel . Keramikgranaten aus Ingolstadt - Ein außergewöhnlicher Fund . SammWaffen- und Kostümkunde - Zeitschrift für Waffen- und Kleidungsgeschichte . 1/2018 . 65−80 . Gesellschaft für Historische Waffen- und Kostümkunde . 2018 . de . 0042-9945.
  8. Cramb . Auslan . 23 February 2004 . Battlefield gives up 1689 hand grenade . https://ghostarchive.org/archive/20220111/https://www.telegraph.co.uk/news/uknews/1455110/Battlefield-gives-up-1689-hand-grenade.html . 2022-01-11 . subscription . live . Scotland Correspondent.
  9. Book: Headlam. Cecil. America and West Indies: January 1719. 1933. British History Online. London. 1–21. January 1719. 28 July 2017. en.
  10. Web site: The National Archives, records of the UK government. Letters of Hibbert, Hugh Robert, 1828–1895, Colonel, ref. DHB/57 – date: 14 June 1855. 2006-08-09. 2007-09-27. https://web.archive.org/web/20070927002339/http://www.a2a.org.uk/search/records.asp?cat=017-dhb&cid=3-1-3#3-1-3. dead.
  11. Barros . Aldeir Isael Faxina . 2021-05-31 . Abordagem aos Encouraçados no Tagy (1868) . Navigator . pt . 17 . 33 . 98–114 . 2763-6267.
  12. Book: Contador Zelada, Andrés . Las armas menores en la Guerra del Pacífico . 2011 . [Legatum Editores] . 978-956-9242-08-3 . [Chile] . 1318788961.
  13. Web site: Granadas de mano en combate naval. Revista de Marina . 2023-04-02.
  14. Web site: Standingwellback . 2020-02-29 . IEDs in the Boer War . 2023-04-02 . Standing Well Back . en-GB.
  15. Book: Reinventing Warfare 1914–18: Novel Munitions and Tactics of Trench Warfare. Saunders, Anthony . 2012. A&C Black. 25–40. 978-1-4411-2381-7.
  16. Book: Saunders, Anthony . 1999. Weapons of the Trench War. Sutton Publishing. 0-7509-1818-7. 2.
  17. Hogg, Ian. Grenades and mortars. Ballantines Illustrated History of the Violent Century. Weapons book, no. 37.
  18. How the Modern Grenadier is Armed. January 1919. Popular Science. 14. Google Books. 2017-01-05.
  19. https://web.archive.org/web/20140717151545/https://www.fmv.se/sv/Nyheter-och-press/Nyhetsarkiv/Nyheter-2012/Hoppande-handgranat/ FMV announcement
  20. https://issuu.com/officerstidningen/docs/officerstidningen_7_2019_webb Officerstidningen nr 7, 2019, sid 8
  21. https://www.aftonbladet.se/nyheter/a/vmn4zj/succe-for-svensk-handgranat Succé för svensk handgranat, Aftonbladet 2013-09-05, Jan Huss
  22. https://web.archive.org/web/20140717151545/https://www.fmv.se/sv/Nyheter-och-press/Nyhetsarkiv/Nyheter-2012/Hoppande-handgranat/ FMV announcement
  23. https://issuu.com/officerstidningen/docs/officerstidningen_7_2019_webb Officerstidningen nr 7, 2019, sid 8
  24. https://www.aftonbladet.se/nyheter/a/vmn4zj/succe-for-svensk-handgranat Succé för svensk handgranat, Aftonbladet 2013-09-05, Jan Huss
  25. Web site: M67 Fragmentation Hand Grenade . Federation of American Scientists . 2017-01-05.
  26. Web site: Center for Army Lessons Learned - Thesaurus . 2012-07-21 . https://web.archive.org/web/20120926044112/http://usacac.army.mil/cac2/call/thesaurus/toc.asp?id=36489 . 2012-09-26 .
  27. Dockery 1997, p. 188.
  28. Web site: US Army builds 'ambidextrous' grenade. BBC News. 20 September 2016. . 20 September 2016.
  29. News: Schogol. Jeff . October 20, 2009 . MRAPs modified to deflect RKG-3 anti-tank grenades . . September 15, 2015 . February 18, 2018 . https://web.archive.org/web/20180218091552/https://www.stripes.com/blogs/stripes-central/stripes-central-1.8040/mraps-modified-to-deflect-rkg-3-anti-tank-grenades-1.8439 .
  30. Web site: WO185/23 . National archives . 2017-01-05.
  31. Web site: Joint Intermediate Force Capabilities Office > Current Intermediate Force Capabilities> Stingball Grenade. jnlwp.defense.gov.
  32. Web site: Stingball Grenade Evaluation . Academia . 2012 . Mesloh . Charlie .
  33. Web site: Limited Effects Weapons Study: Catalog of Currently Available Weapons and Devices . . 25 October 1995 . 53 (66) . 13 December 2014 . 5 March 2017 . https://web.archive.org/web/20170305084846/http://www.dtic.mil/dtic/tr/fulltext/u2/b213401.pdf . live .
  34. Book: SAS Ultimate Guide to Combat . . 20 April 2012 . 51. 978-1-78096-400-3 .
  35. News: French police weapons under scrutiny after gilets jaunes injuries . The Guardian. 2019-01-30 .
  36. Encyclopedia: Levy, Michael . grenade: military technology . Encyclopaedia Britannica. en-GB. live. November 11, 2023. November 21, 2023. November 21, 2023. https://archive.today/20231121165210/https://www.britannica.com/technology/grenade.
  37. Web site: M69 practice hand grenade. Federation of American Scientists . 2017-01-05.
  38. Web site: CHAPTER 1: TYPES OF HAND GRENADES . 2005-06-07 . University of Massachusetts . 2014-12-14 . https://web.archive.org/web/20141222014846/http://www.umass.edu/armyrotc/Training/grenades.pdf . 2014-12-22 .
  39. Web site: K417 Biodegradable Practice Hand Grenade . . Defense Media Agency . November 21, 2018.
  40. Book: Gersbeck, Thomas . Practical Military Ordnance Identification. 5 March 2014. CRC Press. 978-1-4398-5058-9. 132.
  41. https://atiam.train.army.mil/soldierPortal/atia/adlsc/view/public/10881-1/fm/3-23.30/fm3_23x30.pdf United States Army Field Manual 3–23.30, Grenades and Pyrotechnic Signals
  42. https://officerstidningen.se/sakrare-tandfunktion-till-handgranater-testas/ Officerstidningen, Säkrare tändfunktion till handgranater testas
  43. Web site: Baiano . Ministry of Defence (Italy). 2017-01-05.
  44. Web site: Defense & Security Intelligence & Analysis: IHS Jane's | IHS . Jane's . 2017-01-05.
  45. Web site: Mecar hand grenades . Mecar. . 2017-01-05 . 2021-07-28 . https://web.archive.org/web/20210728062047/http://www.mecar.be/content.php?langue=english&cle_menus=1156765274 . dead .
  46. Web site: Rheinmetall Waffe Munition Arges GmbH . Rheinmetall Defence . 2010-10-09 . https://web.archive.org/web/20101011091406/http://rheinmetall-defence.com//index.php?fid=3313&lang=3 . 2010-10-11.
  47. Web site: HG 85 Linie . RUAG . 2010-10-09 . https://web.archive.org/web/20100514094102/http://www.ruag.com/en/Ammotec/Defence_and_Law_Enforcement/Handgranades/HG_85-Linie . 2010-05-14.
  48. Web site: Hand grenades . Nammo AS . 2016-09-03 . 2018-12-29 . https://web.archive.org/web/20181229220217/https://www.nammo.com/what-we-do/explosivespyrotechnics/hand-grenades/.
  49. Web site: ALHAMBRA Hand Grenade . Instalaza . 2017-10-02.
  50. Web site: Economic Explosives Limited, a subsidiary of Solar Industries India Ltd., Nagpur, has successfully established production of Multi Mode Hand Grenade as per TOT obtained from TBRL (DRDO).