Editing Artillery (section)

===Fuzes===
{{Main|Artillery fuze}}
[[Fuze (munitions)|Fuzes]] are the devices that initiate an artillery projectile, either to detonate its [[Explosive#High|High Explosive (HE)]] filling or eject its cargo (illuminating flare or smoke canisters being examples). The official military spelling is "fuze".<ref>{{cite web|url=https://www.jcs.mil/Portals/36/Documents/Doctrine/Other_Pubs/aap6.pdf |page=2-F-8 |title=AAP-06 - NATO GLOSSARY OF TERMS AND DEFINITIONS (ENGLISH AND FRENCH) |year=2013}}</ref> Broadly there are four main types:
* [[Impact (mechanics)|impact]] (including graze and [[Delay composition|delay]])
* [[Mechanism (engineering)|mechanical]] [[time]] including [[Air burst|airburst]]
* [[proximity sensor]] including [[Air burst|airburst]]<!--proximity has also been used against ground troops & barges...-->
* [[Programmer (hardware)|programmable]] [[Electronics|electronic]] [[detonation]] including [[Air burst|airburst]]

Most artillery fuzes are nose fuzes. However, base fuzes have been used with armor-piercing shells and for squash head ([[High-explosive squash head|High-Explosive Squash Head (HESH)]] or [[High-explosive squash head|High Explosive, Plastic (HEP)]] anti-tank shells). At least one nuclear shell and its non-nuclear spotting version also used a multi-deck mechanical time fuze fitted into its base.

Impact fuzes were, and in some armies remain, the standard fuze for HE projectiles. Their default action is normally 'superquick', some have had a 'graze' action which allows them to penetrate light cover and others have 'delay'. Delay fuzes allow the shell to penetrate the ground before exploding. Armor or Concrete-Piercing (AP or CP) fuzes are specially hardened. During World War I and later, ricochet fire with delay or graze fuzed HE shells, fired with a flat angle of descent, was used to achieve airburst.

HE shells can be fitted with other fuzes. Airburst fuzes usually have a combined airburst and impact function. However, until the introduction of [[proximity fuze]]s, the airburst function was mostly used with cargo munitions—for example, shrapnel, illumination, and smoke. The larger calibers of [[anti-aircraft]] artillery are almost always used airburst. Airburst fuzes have to have the fuze length (running time) set on them. This is done just before firing using either a wrench or a fuze setter pre-set to the required fuze length.

Early airburst fuzes used igniferous timers which lasted into the second half of the 20th century. Mechanical time fuzes appeared in the early part of the century. These required a means of powering them. The Thiel mechanism used a spring and escapement (i.e. 'clockwork'), Junghans used [[centrifugal force]] and gears, and Dixi used centrifugal force and balls. From about 1980, electronic time fuzes started replacing mechanical ones for use with cargo munitions.

Proximity fuzes have been of two types: photo-electric or radar. The former was not very successful and seems only to have been used with British [[anti-aircraft artillery]] 'unrotated projectiles' (rockets) in World War II. Radar proximity fuzes were a big improvement over the mechanical (time) fuzes which they replaced. Mechanical time fuzes required an accurate calculation of their running time, which was affected by non-standard conditions. With HE (requiring a burst 20 to {{convert|30|ft|m}} above the ground), if this was very slightly wrong the rounds would either hit the ground or burst too high. Accurate running time was less important with cargo munitions that burst much higher.

The first [[Proximity fuze|radar proximity fuzes]] (perhaps originally codenamed 'VT' and later called Variable Time (VT)) were invented by the British and developed by the US and initially used against aircraft in World War II. Their ground use was delayed for fear of the enemy recovering 'blinds' (artillery shells which failed to detonate) and copying the fuze. The first proximity fuzes were designed to detonate about {{convert|30|ft|m}} above the ground. These air-bursts are much more lethal against personnel than ground bursts because they deliver a greater proportion of useful fragments and deliver them into terrain where a prone soldier would be protected from ground bursts.

However, proximity fuzes can suffer premature detonation because of the moisture in heavy rain clouds. This led to 'Controlled Variable Time' (CVT) after World War II. These fuzes have a mechanical timer that switched on the radar about 5 seconds before expected impact, they also detonated on impact.

The proximity fuze emerged on the battlefields of Europe in late December 1944. They have become known as the U.S. Artillery's "Christmas present", and were much appreciated when they arrived during the [[Battle of the Bulge]]. They were also used to great effect in anti-aircraft projectiles in the Pacific against ''[[kamikaze]]'' as well as in Britain against [[V-1 flying bomb]]s.<ref>{{Cite web|url=https://americanhistory.si.edu/exhibitions/science-service-historical-images-collection|title=Science Service Historical Images Collection|date=April 19, 2018|website=National Museum of American History}}</ref>

Electronic multi-function fuzes started to appear around 1980. Using solid-state electronics they were relatively cheap and reliable, and became the standard fitted fuze in operational ammunition stocks in some western armies. The early versions were often limited to proximity airburst, albeit with height of burst options, and impact. Some offered a go/no-go functional test through the fuze setter.

Later versions introduced induction fuze setting and testing instead of physically placing a fuze setter on the fuze. The latest, such as Junghan's DM84U provide options giving, superquick, delay, a choice of proximity heights of burst, time and a choice of foliage penetration depths.