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A grenade is an explosive weapon typically thrown by hand, but can also refer to projectiles shot out of grenade launchers. Generally, a grenade consists of an explosive charge, a detonating mechanism, and a firing pin inside the grenade to trigger the detonating mechanism. Once the soldier throws the grenade, the safety lever releases, the striker throws the safety lever away from the grenade body as it rotates to detonate the primer. The primer explodes and ignites the fuze (sometimes called the delay element). The fuze burns down to the detonator, which explodes the main charge.
Fragmentation grenades are probably the most common in modern armies. They are missiles designed to disperse shrapnel on detonation. The body is generally made of a hard synthetic material or steel, which will provide limited fragmentation through sharding and splintering, though in modern grenades a pre-formed fragmentation matrix inside the grenade is commonly used. The pre-formed fragmentation 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. When the word grenade is used colloquially, it is generally assumed to refer to a fragmentation grenade. Stick grenades have a long handle attached to the grenade directly, providing leverage for longer throwing distance, at the cost of additional weight and length. The term "stick grenade" commonly refers to the German Stielhandgranate style stick grenade introduced in 1915 and developed throughout World War I. A friction igniter was used; this method was uncommon in other countries but widely used for German grenades.
Grenades are typically round-shaped with a "pineapple" or "baseball"-style design, or an explosive charge on a handle which is referred to as a "stick grenade". The stick grenade design has been considered obsolete since World War II and the Cold War period. They saw extensive use in World War I and in World War II. The WWI and WWII era "stick grenade" was often used in trench and built-up (urban and small scale) warfare by the Central Powers and Nazi Germany, while the Triple Entente and Allied powers typically used some improvised earlier grenades or round-shaped fragmentation grenades.
The word "grenade" is likely derived from Old French pomegranate and influenced by Spanish granada, as the bomb is reminiscent of the many-seeded fruit, together with its size and shape. Its first use in English dates from the 1590s.
Rudimentary incendiary grenades appeared in the Eastern Roman (Byzantine) Empire, not long after the reign of Leo III (717–741). 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. Later, glass containers were employed. The use of Greek fire spread to Muslim armies in the Near East, from where it reached China by the 10th century.
In China, during the Song Dynasty (960–1279AD), weapons known as Zhen Tian Lei (震天雷, "Sky-shaking Thunder") were created when Chinese soldiers packed gunpowder into ceramic or metal containers. In 1044, a 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. The mid-14th-century book Huolongjing (火龍經, "Fire Dragon Manual"), written by Jiao Yu (焦玉), recorded an earlier Song-era cast iron cannon known as the "flying-cloud thunderclap cannon" (飛雲霹靂炮; feiyun pili pao). The manuscript stated that (Needham's modified Wade-Giles spelling):
The shells (pào) are made of cast iron, as large as a bowl and shaped like a ball. Inside they contain half a pound of 'divine fire' (shén huǒ, gunpowder). They are sent flying towards the enemy camp from an eruptor (mu pào), and when they get there a sound like a thunder-clap is heard, and flashes of light appear. If ten of these shells are fired successfully into the enemy camp, the whole place will be set ablaze...
Granade like devices were also known in ancient India. In a 12th century work Mujmalut Tawarikh based on an Arabic work which is itself based on original Sanskrit work, a terracotta elephant filled with explosives set with a fuse was placed hidden in the van and exploded as the invading army appraoached near.
The first cast iron bombshells and grenades appeared in Europe in 1467. 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. Most probably the grenades were intentionally dumped in the moat of the bastion prior to 1723. In 1643, it is possible that "Grenados" were thrown amongst the Welsh at Holt Bridge during the English Civil War. The word "grenade" originated during the events surrounding the Glorious Revolution in 1688, where cricket ball-sized (8.81 to 9 in (224 to 229 mm) 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. These grenades were not very effective (probably because a direct hit would be necessary for the grenade to have effect) and, as a result, saw little use. Grenades were also used during the Golden Age of Piracy: 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.
Improvised grenades were increasingly used from the mid-19th century, being especially useful in trench warfare. 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):
We have a new invention to annoy our friends in their pits. It consists in filling empty soda water bottles full of powder, old twisted nails and any other sharp or cutting thing we can find at the time, sticking a bit of tow-in for a fuse then lighting it and throwing it quickly into our neighbors’ pit where it bursts, to their great annoyance. You may imagine their rage at seeing a soda water bottle come tumbling into a hole full of men with a little fuse burning away as proud as a real shell exploding and burying itself into soft parts of the flesh.
In the American Civil War, both sides used hand grenades equipped with a plunger that detonated the device on impact. The Union relied on experimental Ketchum Grenades, which had a tail to ensure that the nose would strike the target and start the fuze. The Confederacy used spherical hand grenades that weighed about 6 lb (2.7 kg), sometimes with a paper fuze. They also used 'Rains' and 'Adams' grenades, which were similar to the Ketchum in appearance and mechanism. Improvised hand grenades were also used to great effect by the Russian defenders of Port Arthur during the Russo-Japanese War.
Development of modern grenadesEdit
The lack of an effective hand grenade, coupled with their danger to the user and their lack of utility 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. 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. 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.
Marten Hale, better 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 in 1916 for the invention.
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.
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. As an interim measure, troops often improvised their own grenades, such as the jam tin grenade.
Improvised grenades were replaced when manufactured versions became available. The first modern fragmentation grenade was the Mills bomb, which became available to British front-line troops in 1915.
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 exterior surface. This segmentation was thought to aid fragmentation and increase the grenade's deadliness, but later research showed that it did not improve fragmentation. 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.
The Mills bomb underwent numerous modifications. The No. 23 was a variant of the No. 5 with a rodded base plug which allowed it to be fired from a rifle. This concept evolved further with the No. 36, a variant with a detachable base plate to allow use with a rifle discharger cup. The final variation of the Mills bomb, the No. 36M, was specially designed and waterproofed with shellac for use initially in the hot climate of Mesopotamia in 1917, and remained in production for many years. By 1918, the No. 5 and No. 23 were declared obsolete and the No. 36 (but not the 36M) followed in 1932.
The Mills had a grooved cast iron "pineapple" with a central striker held by a close hand lever and secured with a pin. A competent thrower could manage 15 m (49 ft) with reasonable accuracy, but the grenade could throw lethal fragments farther than this; after throwing, the user had to take cover immediately. The British Home Guard was instructed that the throwing range of the No. 36 was about 30 yd (27 m) with a danger area of about 100 yd (91 m).
Approximately 75,000,000 grenades were manufactured during World War I, used in the war and remaining in use through to the Second World War. At first, the grenade was fitted with a seven-second fuze, but during combat in the Battle of France in 1940, this delay proved too long, giving defenders time to escape the explosion or to throw the grenade back, so the delay was reduced to four seconds.
The F1 grenade was first produced in limited quantities by France in May 1915. This new weapon had improvements from the experience of the first months of the war: the shape was more modern, with an external groove pattern for better grip and easier fragmentation. The second expectation proved deceptive, as the explosion in practice gave no more than 10 fragments (although the pattern was designed to split into all the 38 drawn divisions). The design proved to be very functional, especially due to its stability compared to other grenades of the same period. The F1 was used by many foreign armies from 1915 to 1940.
Stick grenades have a long handle attached to the grenade proper, providing leverage for longer throwing distance, at the cost of additional weight.
The term "stick grenade" commonly refers to the German Stielhandgranate introduced in 1915 and developed throughout World War I. A friction igniter was used; this method was uncommon in other countries but widely used for German grenades.
A pull cord ran down the hollow handle from the detonator within the explosive head, terminating in a porcelain ball held in place by a detachable base closing cap. To use the grenade, the base cap was unscrewed, permitting the ball and cord to fall out. Pulling the cord dragged a roughened steel rod through the igniter, causing it to spark and start the five-second fuze burning. This simple design (popularly known as the "potato masher") continued to evolve throughout the First and Second World Wars, with the Model 24 grenade becoming one of the most easily recognized of all German small arms.
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.
The United States developed the Mk 2 hand grenade before the war, nicknamed the "pineapple" for its grooved surface. This weapon was widely used by American G.I.s The heavy, segmented bodies of "pineapple" type grenades produce an unpredictable pattern of fragmentation. After the Second World War Britain adopted grenades that contained segmented coiled wire in smooth metal casings. Despite this, the Mills bomb remained the standard grenade of the British Armed Forces and was manufactured in the UK until 1972, when it was replaced by the L2 series.
Fragmentation grenades are common in armies. They are weapons that are designed to disperse lethal fragments on detonation, in order to do damage in as wide an area as possible. 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 AP grenades are designed to detonate either after a time delay or on impact.
When the word grenade is used without specification, and context does not suggest otherwise, it is generally assumed to refer to a fragmentation grenade.
Fragmentation grenades can be divided into two main types, defensive and offensive, where the former are designed to be used from a position of cover, (e.g. in a slit trench or behind a suitable wall,) and have an effective radius greater than the distance they can be thrown, while the latter are for use by assaulting troops, and have a smaller effective fragmentation radius.
The Mills bombs and the Soviet F1 are examples of defensive grenades. The Dutch V40, Swiss HG 85, and US MK3 are examples of offensive grenades.
Modern fragmentation grenades, such as the United States M67 grenade, have a wounding radius of 15 m (49 ft) – half that of older style grenades, which can still be encountered – and can be thrown about 40 m (130 ft). Fragments may travel more than 200 m (660 ft).
High explosive (offensive)Edit
The offensive or concussion (high explosive) grenade is an anti-personnel device that is designed to damage, daze or otherwise stun its target with its explosive power. Compared to fragmentation grenades, the explosive filler is usually of a greater weight and volume, and the case is much thinner – the US MK3A2 concussion grenade, for example, has a body of fiber (similar to the packing container for the fragmentation grenade).
These grenades are usually classed as offensive weapons because the small effective casualty radius is much less than the distance it can be thrown. 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 2 m (6 ft 7 in) in open areas, but fragments and bits of fuze may be projected as far as 200 m (660 ft) from the detonation point.
They 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.
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.
Some blast grenades with cylindrical bodies can be converted into fragmentation grenades by coupling with a separate factory-made payload of fragments wrapped around the outside: a "fragmentation sleeve (jacket)", as shown in the WW2 "Splittering" sleeves for the stick grenade and M39 "egg hand grenade".
A range of hand-thrown grenades have been designed for use against heavy armored vehicles. An early and unreliable example was the British Sticky bomb of 1940, which was too short-ranged to use effectively. Designs such as the German Panzerwurfmine (L) and the Soviet RPG-43, RPG-40, RPG-6 and RKG-3 series of grenades used a High Explosive Anti-Tank (HEAT) shaped charge warhead using a cone-shaped cavity on one end and some method to stabilize flight and increase the probability of right angle impact for the shaped charge's metal stream to effectively penetrate the tank armor.
Due to improvements in modern tank armor, anti-tank hand grenades have become almost obsolete. However, they were used with limited success against lightly-armored Mine-Resistant Ambush Protected (MRAP) vehicles designed for protection only against improvised explosive devices in the Iraqi insurgency in the early 2000s.
A stun grenade, also known as a flash grenade or flashbang, is a non-lethal weapon. The first devices like this were created in the 1960s at the order of the British Special Air Service as an incapacitant.
It is designed to produce a blinding flash of light and loud noise without causing permanent injury. The flash produced momentarily activates all light sensitive cells in the eye, making vision impossible for approximately five seconds, until the eye restores itself to its normal, unstimulated state. The loud blast causes temporary loss of hearing, and also disturbs the fluid in the ear, causing loss of balance.
These grenades are designed to temporarily neutralize the combat effectiveness of enemies by disorienting their senses.
When detonated, the fuze/grenade body assembly remains intact. The body is a tube with holes along the sides that emit the light and sound of the explosion. The explosion does not cause shrapnel injury, but can still burn. The concussive blast of the detonation can injure and the heat created can ignite flammable materials such as fuel. The fires that occurred during the Iranian Embassy Siege in London were caused by stun grenades. The filler consists of about 4.5 g (0.16 oz) of a pyrotechnic metal-oxidant mix of magnesium or aluminium and an oxidizer such as ammonium perchlorate or potassium perchlorate.
Sting grenades, also known as stingball or sting ball grenades, are stun grenades based on the design of the fragmentation grenade. Instead of using a metal casing to produce shrapnel, they are made from hard rubber and are filled with around 100 rubber balls. On detonation, the rubber balls, and shrapnel from the rubber casing explode outward in all directions as a form of less-lethal shrapnel. These projectiles may ricochet. 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.
Sting grenades do not reliably incapacitate people, so they can be dangerous to use against armed subjects. They can cause serious physical injury, especially the rubber shrapnel from the casing. People have lost eyes and hands to sting grenades.
Chemical and gas typeEdit
Chemical and gas grenades burn or release a gas, and do not explode. They include smoke and incendiary grenades.
Smoke grenades are used as ground-to-ground or ground-to-air signaling devices, target or landing zone marking devices, and to create a smoke-screen for concealment. The body is a sheet-steel cylinder with emission holes in the top and bottom. These allow the smoke to be released when the grenade is ignited. There are two main types, one producing coloured smoke for signaling, and the other is used for screening smoke. In coloured smoke grenades, the filler consists of 250 to 350 g (8.8 to 12.3 oz) of coloured smoke mixture (mostly potassium chlorate, lactose and a dye). Screening smoke grenades usually contain HC (hexachloroethane/zinc) or TA (terephthalic acid) smoke mixture and white phosphorus (WP) and red phosphorus (RP). HC smoke contains hydrochloric acid and is harmful to breathe. These grenades can become hot enough to scald or burn unprotected skin, particularly the phosphorus type grenades.
Riot control (pacification)Edit
Tear gas grenades are similar to smoke grenades in shape and operation. In tear gas grenades, the filler is generally 80 to 120 g (2.8 to 4.2 oz) of CS gas combined with a pyrotechnic composition which burns to generate an aerosol of CS-laden smoke. This causes extreme irritation to the eyes and, if inhaled, to the nose and throat. They were used in the Waco Siege. Occasionally CR gas is used instead of CS.
Incendiary grenades (or thermite grenades) produce intense heat by means of a chemical reaction. Seventh-century "Greek fire" first used by the Byzantine Empire, which could be lit and thrown in breakable pottery, could be considered the earliest form of incendiary grenade.
The body of modern incendiary grenades is practically the same as that of a smoke grenade. The filler is 600 to 800 g (21 to 28 oz) of thermate, which is an improved version of World War II-era thermite. The chemical reaction that produces the heat is called a thermite reaction. In this reaction, powdered aluminium metal and iron oxide react to produce a stream of molten iron and aluminium oxide. This reaction produces a tremendous amount of heat, burning at 2,200 °C (3,990 °F). This makes incendiary grenades useful for destroying weapons caches, artillery, and vehicles. The thermite burns without an external oxygen source, allowing it to burn underwater. Thermite incendiary grenades are not intended to be thrown and generally have a shorter delay fuze than other grenades (e.g. two seconds).
White phosphorus can be used as an incendiary agent. It burns at a temperature of 2,800 °C (5,070 °F). White phosphorus was used in the No 76 Special Incendiary Grenade by the British Home Guard and the No. 77 Mk. 1 grenade during World War II
Thermite and white phosphorus cause some of the worst and most painful burn injuries because they burn extremely quickly at a high temperature. In addition, white phosphorus is very poisonous: a dose of 50–100 mg (0.77–1.54 gr) is lethal to the average human.
The Molotov cocktail is an improvised incendiary grenade made with a glass bottle typically filled with gasoline (petrol), although sometimes another flammable liquid or mixture is used. The Molotov cocktail is ignited by a burning strip of cloth or a rag stuffed in the bottle's orifice when it shatters against its target which sets a small area on fire. The Molotov cocktail received its name during the Soviet invasion of Finland in 1939 (the Winter War) by Finnish troops after the former Soviet foreign minister Vyacheslav Molotov, whom they deemed responsible for the war. A similar weapon was used earlier in the decade by Franco's troops during the Spanish Civil War.
Practice 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. 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.
Various fuzes (detonation mechanisms) are used, depending on purpose:
- Examples of grenades fitted with impact fuzes are the German M1913 and M1915 Diskushandgranate, and any British grenade fitted with the "All ways" action impact fuze such as the No. 69 grenade, No. 77 grenade and No. 82 grenade (Gammon bomb).
- Timed fuze
- In a timed fuze grenade, the fuze is ignited on the release of the safety lever, and detonation occurs following a timed delay. Timed fuze grenades are generally preferred to hand-thrown percussion grenades because their fusing mechanisms are safer and more robust than those used in percussion grenades. Fuzes are commonly fixed, though the Russian UZRGM (Russian: УЗРГМ) fuzes are interchangeable and allow the delay to be varied, or replaced by a zero-delay pull fuze. This is potentially dangerous due to the risk of confusion.
- Pull (instant) fuze
- A pull fuze is a zero-delay fuze used in booby traps: the grenade detonates immediately when the striker retaining pin is removed. The pin is typically attached to a tripwire.
Beyond the basic "pin-and-lever" mechanism, contemporary grenades have safety features. The main ones are the safety clip and the bent end of the safety pin. The safety clip was introduced in the M61 grenade (1960s, Vietnam War), and is also known as the "jungle clip" – this provides a backup for the safety pin, in case it is dislodged, notably by jungle flora (plants and vegetation). This is particularly important because the safety lever is often used as a carry hook, despite the obvious danger this poses. The bent end of the safety pin increases the force required to remove it, reducing the risk of accidental arming. The 2016 US ET-MP uses a user-settable timed electronic fuze.
Modern manufacturers of hand grenades include:
The classic hand grenade design has a safety handle or lever (known in the US forces as a spoon) and a removable safety pin that prevents the handle from being released: the safety lever is spring-loaded, and once the safety pin is removed, the lever will release and ignite the detonator, then fall off. Thus, to use a grenade, the lever is grasped (to prevent release), then the pin is removed, and then the grenade is thrown, which releases the lever and ignites the detonator, triggering an explosion. Some grenade types also have a safety clip to prevent the handle from coming off in transit.
To use a grenade, the soldier grips it with the throwing hand, ensuring that the thumb holds the safety lever in place; if there is a safety clip, it is removed prior to use. Left-handed soldiers invert the grenade, so the thumb is still the digit that holds the safety lever. The soldier then grabs the safety pin's pull ring with the index or middle finger of the other hand and removes it. They then throw the grenade towards the target. Soldiers are trained to throw grenades in standing, prone-to-standing, kneeling, prone-to-kneeling, and alternative prone positions and in under- or side-arm throws. If the grenade is thrown from a standing position the thrower must then immediately seek cover or lie prone if no cover is nearby.
Once the soldier throws the grenade, the safety lever releases, the striker throws the safety lever away from the grenade body as it rotates to detonate the primer. The primer explodes and ignites the fuze (sometimes called the delay element). The fuze burns down to the detonator, which explodes the main charge.
When using an antipersonnel grenade, the objective is to have the grenade explode so that the target is within its effective radius. The M67 frag grenade has an advertised effective kill zone radius of 5 m (16 ft), while the casualty-inducing radius is approximately 15 m (49 ft). Within this range, people are generally injured badly enough to effectively render them harmless. These ranges only indicate the area where a target is virtually certain to be incapacitated; individual fragments can still cause injuries as far as 230 m (750 ft) away.
An alternative technique is to release the lever before throwing the grenade, 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. This technique is inherently dangerous, due to shorter delay (meaning a closer explosion), greater complexity (must make sure to throw after waiting), and increased variability (fuzes vary from grenade to grenade), and thus is discouraged in the U.S. Marine Corps, and banned in training. Nonetheless, cooking a grenade and throwing one back is frequently seen in Hollywood films and video games.
Tactics vary by the type of engagement. Urban warfare, particularly the attack of built-up (fortified, buildings etc.) areas, involves the heavy use of hand grenades: typically a grenade or two are thrown before each transition (entering a room or navigating a stairway). A World War II battalion fighting in a city frequently used 500 grenades per day.
A key concern is that the grenade is picked up and thrown away or back at the thrower. The USMC's preferred technique to prevent this is a hard-throw, skip/bounce technique, where the grenade is thrown hard enough that it bounces or skips around, being hard to pick up and throw back – this is applicable when clearing a room, for instance. In other uses, such as to reach upper floors of a building, a grenade may be lobbed for greater distance or accuracy.
Throwing a grenade upstairs is dangerous, due to the risk of it falling back down; it is much safer to throw a grenade downstairs, so it is safer to capture a building from the top, rather than the bottom. Grenades generally explode near the floor, causing spalling downwards towards lower floors.
The preferred technique in the US forces when attacking is to show the grenade to nearby friendly forces, receiving a visual acknowledgment, to avoid alerting the enemy. Alternatively, a voice alert can be given immediately after throwing the grenade, shouting "frag out" (for "fragmentation grenade outgoing"); this reduces or eliminates the element of surprise. Conversely, on identifying an incoming enemy grenade, friendly forces shout "grenade".
Grenades have often been used in the field to construct booby traps, using some action of the intended target (such as opening a door or starting a car) to trigger the grenade. These grenade-based booby traps are simple to construct in the field as long as instant fuzes are available; a delay in detonation can allow the intended target to take cover. The most basic technique involves wedging a grenade in a tight spot so the safety lever does not leave the grenade when the pin is pulled. A string is then tied from the head assembly to another stationary object. When a soldier steps on the string, the grenade is pulled out of the narrow passageway, the safety lever is released, and the grenade detonates.
Abandoned booby traps and discarded grenades contribute to the problem of unexploded ordnance (UXO). The use of target triggered grenades and AP mines is banned to the signatories of the Ottawa Treaty and may be treated as a war crime wherever it is ratified. Many countries, including India, the People's Republic of China, Russia, and the United States, have not signed the treaty citing self-defense needs.
Grenades have also been made to release smoke, tear gas and other gases, as well as illumination. Stun grenades are often used to disorient people during entry into a room, especially where hostages or non-combatants may be present.
Some grenades are designed to be thrown longer distances. The German "potato-masher" grenade had a long wooden handle that extended its range by fifty percent. The potato-masher was fired by a friction igniter in the head, activated by a pull string threaded through the hollow handle. Immediately before throwing the grenade, the soldier pulled a small porcelain ball at the end of a string attached to the friction igniter. This started the time fuze, which fired the detonator after a delay. The potato-masher is often incorrectly thought to have had an impact fuze. It did not, but the superficially similar British stick grenade design of 1908 did.
Concussion grenades can also be used as general explosives, for instance for demolition.
Stylized pictures of early grenades, emitting a flame, are used as ornaments on military uniforms, particularly in Britain, France (esp. French Gendarmerie and the French Army), and Italy (Carabinieri). Fusilier regiments in the British and Commonwealth tradition (e.g., the Princess Louise Fusiliers, Canadian Army) wear a cap-badge depicting flaming grenade, reflecting their historic use of grenades in the assault. The British Grenadier Guards took their name and cap badge of a burning grenade from repelling an attack of French Grenadiers at Waterloo. The Spanish artillery arm uses a flaming grenade as its badge. The flag of the Russian Ground Forces also bears a flaming grenade device. Ukrainian mechanized infantry and engineers use a flaming grenade in their branch insignia. The Finnish Army Corps of Engineers' emblem consists of a stick hand grenade (symbolizing demolition) and a shovel (symbolizing construction) in saltire.
The branch insignia of the U.S. Army Ordnance Corps also uses this symbol, the grenade being symbolic of explosive ordnance in general. The United States Marine Corps uses the grenade as part of the insignia for one officer rank and one Staff NCO rank on their uniforms. Chief Warrant Officers designated as a Marine Gunner replace the rank insignia worn on the left collar with a "Bursting Bomb" and a larger "Bursting Bomb" insignia is worn 3/4" above the rank insignia on both shoulder epaulets when a coat is worn. Additionally, the rank insignia for Master Gunnery Sergeant has three chevrons pointing up, with four rockers on the bottom. In the middle of this is a bursting bomb or grenade. U.S. Navy Aviation Ordnanceman's rating badge features a winged device of similar design.
In the United States grenades are classed as destructive devices, a form of Title II weapons under the National Firearms Act. They must consequently be registered with the Bureau of Alcohol, Tobacco, Firearms, and Explosives, are taxed, and are illegal in states that ban Title II weapons. While in principle it is possible to legally obtain and possess hand grenades in some states, in practice they are not generally available.
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|Wikimedia Commons has media related to Hand grenades.|
- "Getting Good with the Grenade...It Pays!" – November 1944 Popular Science article with complete history, cutaway, and illustrations
- Mecar – Belgian manufacturer of various grenade types
- Pakistan Ordnance Factories – licensed manufacturer of Arges grenades
- Film of exploding grenade
- "How Grenades Work" – from HowStuffWorks
- CenturioLight c/o Centurio Products Group – manufacturer of the electronic flashbang's "BAD"
- Exploded view of a modern Arges 73 hand grenade
- Accidental hand grenade blast injuries in the Transkei region of South Africa: A case report (WARNING: graphic content)
- Historical footage from a German hand grenade factory in World War I, filmportal.de
- Acs Grenade Site