Search H owStuffWorks and the we b Vi deo Podcast s Blogs Quizzes Games RSS Previous Page Next Page 1. Introduction to How Grenades Work 2. Grenade Basics 3. Time-Delay Grenade 4. Impact Grenades 5. Lots More Informati on 6. See all Explosives articles How Grenades Workby Tom Harris PrintCiteFeedbackShareRecommend Inside this Article Future Weapons: Simon Rifle Grenade More Science Videos » Time-Delay Grenade The most common type of grenade on the battlefield is the time-delay fragmentation anti-pers onnel hand grenade. The primary function of this grenade is to kill or maim nearby enemy troops. To ensure maximum damage, the grenade is designed to launch dozens of small metal fragments in every direction when it explodes. These sorts of grenades, which played a major role in World War I, World War II, Vietnam and many other20th century conflicts, are designed to be durable, easy to use and easy to manufacture. The conventional design uses a simple chemical delay mechanism. The diagram below shows a ty pical c onfiguration ofthis system, dating back to the first World War. Ads by Google Monitor your Home w/ ADT®ADT Can Help Protect Your Home with 24/7 Monitoring. Learn More Now! www.ADT.com/Family Krav Maga and CrossFit Self Defense and Fitness Expert Training, Excellent Facility www.focusselfdefense.com Home > Sci ence > Milita ry > Ex plosiv es Engi neering E nvi ronmenta l Sci ence Forces of Nature Innova ti on Military Physi cal Science Scienc e D ictionary Scienc e Versus Myth Space Transporta tion Adventure Animals Auto Cul ture Entertainment Health Home & Garden Lifestyle Money Science Tech 11/11/2010 HowStuffWorks "How Grenades Work" …howstuffworks.com/grenade2.htm 1/3
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
The most common type of grenade on the battlefield is the time-delay fragmentation anti-personnel
hand grenade. The primary function of this grenade is to kill or maim nearby enemy troops. To ensuremaximum damage, the grenade is designed to launch dozens of small metal fragments in every directionwhen it explodes.
These sorts of grenades, which played a major role in World War I, World War II, Vietnam and many other
20th century conflicts, are designed to be durable, easy to use and easy to manufacture. The conventional
design uses a simple chemical delay mechanism. The diagram below shows a typical configuration of
this system, dating back to the first World War.
Ads by Google
Monitor your Home w/ ADT®
ADT Can Help Protect Your Home with 24/7
Monitoring. Learn More Now!
www.ADT.com/Family
Krav Maga and CrossFit
Self Defense and Fitness Expert Training, ExcellentFacility
www.focusselfdefense.com
Home > Science > Military > Explosives
Engineering Environmental Science Forces of Nature Innovation Military Physical Science Science Dictionary Science Versus Myth Space Transportation
Adventure Animals Auto Culture Entertainment Health Home & Garden Lifestyle Money Science Tech
The outer shell of the grenade, made of serrated cast iron, holds a chemical fuze mechanism, which
is surrounded by a reservoir of explosive materia l. The grenade has a filling hole for pouring in the
explosive material.
The firing mechanism is triggered by a spring-loaded striker inside thegrenade. Normally, the striker is held in place by the striker lever ontop of the grenade, which is held in place by the safety pin. Thesoldier grips the grenade so the striker lever is pushed up against thebody, pulls out the pin and then tosses the grenade. Here's whathappens ins ide once the grenade is released:
With the pin removed, there is nothing holding the lever inposition, which means there is nothing holding the spring-
loaded striker up. The spring throws the striker down against
the percussion cap. The impact ignites the cap, creating a
small spark.
The spark ignites a slow-burning material in the fuze. In about
four seconds, the delay material burns all the way through.
The end of the delay element is connected to the detonator ,
a capsule filled with more combustible material. The burning
material at the end of the delay ignites the material in the
detonator, setting off an explosion inside the grenade.
The explosion ignites the explosive material around the s ides
of the grenade, c reating a much larger explosion that blows
the grenade apart.
Pieces of metal from the outer casing fly outward at great
speed, imbedding in anybody and anything within range. This
sort of grenade may contain additional serrated wire or metal
pellets for increased fragmentation damage.
Time-delay grenades are very effective, but they do have some significant disadvantages. One problem is
their unpredictability: In some chemical fuzes, the delay time may vary from two to six seconds. But the
biggest problem with time-delay grenades is that they give the enemy an opportunity to counterattack. If a soldier doesn't time a grenade toss just right, the enemy may pick it up and throw it back before it
explodes.
For this reason, soldiers must use impact grenades in certain situations. An impact grenade explodes
wherever it lands, so there is no chance for the enemy to throw it back. In the next section, we'll see how