 |
|
| ||||||||||||||||||||||||||
|
|
| ||||||||||||||||||||||||||
|
|
|
|
|
| ||||||||
The M16 (a.k.a. C7, the Canadian variant) is an assault rifle which fires NATO 5.56 mm ammunition. This has been the standard infantry weapon of the US Army since 1964. It is manufactured by Colt and Fabrique Nationale; with variants produced by Heckler und Koch, Knight's Armament, Bushmaster, Diemco (standard manufactuar for the C7), Panther Arms, and many other arms companies. The M16A2 (shown below) replaced the M16A1 before being replaced by the XM-8 and M4 assault rifles in 2003-2006.
Safety Precaution (no magazine fitted) Safety precautions should be performed when taking possession of the weapon from another user, or any time the state of the weapon is unknown or in doubt. Always assume for safety purposes that such a weapon has a round in the chamber, ready to fire. Point the weapon in a safe direction, pull the cocking handle to the rear (a round may be ejected) and hold it there, examine the chamber to ensure it is clear, allow the action to go forward under control, push the forward assist, fire the action, and close the ejection port cover.
Safety Precaution (magazine fitted) Perform an "unload". If the above safety precaution is used with a charged magazine fitted a round will be chambered.
Load Insert a charged magazine into the magazine housing. There is a slight audible click when the magazine is properly fitted. The secureness of the magazine can be tested by gently trying to remove the magazine.
Ready Pull the cocking handle all the way to the rear and release. Push the forward assist. If the weapon is not to be fired immediately then put the fire selector to "SAFE" and close the ejection port cover.
Fire Marksmanship is a complex and subtle art and is beyond the scope of this article. However, in general the weapon is fired by putting the fire selector on either "SEMI" or "BURST" ("AUTO" on some models), resting the butt plate against the shoulder, aligning the eye of the firer, aperture of the rear sight, tip of the foresight, and target, and squeezing the trigger.
Unload Attempt to put the fire selector on "SAFE" (the selector will only go on "SAFE" if the hammer is depressed, ie: the weapon is cocked). Remove the magazine by pressing the magazine release with the trigger hand while grasping the magazine with the other hand. Tilt the weapon to the right and cock the weapon (a round may be ejected). Pull the cocking handle to the rear again and hold it. Tilt the weapon to the left and ensure the chamber is empty. Allow the action to go forward, push the forward assist, put the fire selector to "SEMI" and squeeze the trigger. Close the ejection port cover and recover the ejected round.
This weapon can be field-stripped with no tool other than a round of ammunition. The U.S. Army manual contains an optimized sequence. The M16 body is held in place by two pins on the front and rear of the receiver. Removing the rear pin (above and to the rear of the selector switch) allows the two receiver halves to hinge open with the front receiver pin as the pivot. The bolt carrier is extracted from the upper receiver half by pulling back on the charging lever, the same motion used to load a round from the magazine into the chamber. Set the charging lever aside. The bolt carrier requires disassembly for cleaning. This entails placing the bolt assembly in the fully extended position, extracting the firing pin retaining clip using the point of a bullet as a pry tool, place the firing pin retaining clip in your mouth, remove and clean the firing pin, rotate the bolt cam pin one quarter-turn, remove the bolt cam pin and place in your mouth as well, remove and clean the bolt assembly. Reassemble in reverse order cleaning each part before assembly.
The firing pin retaining clip is small (approximately 18x1mm) and easily lost in wet, muddy, or dusty conditions. Discharge of the weapon without this clip will result in injury and perhaps death of the operator.
Basic cleaning is to swab the barrel with powder solvent until clean, followed by a swab of light oil. This is recommended after each firing session. Military ammunition often uses corrosive primers.
Keep this weapon dry. A surprising minor weakness is that the barrel can wick water up into the barrel by capillary action. In this state, the weapon can misfire, possibly injuring the user.
The M16 is one of a family of related weapons designed by Eugene Stoner of Armalite Systems, formerly of Costa Mesa, California. Others include a squad automatic weapon and the AR-10, a relatively rare 7.62 x 51 mm NATO rifle that recently returned to production.
A major goal of the design was to use (then) modern materials and manufacturing processes to make a lightweight rifle with lightweight ammunition, to replace the heavy M14 rifle that was standard issue until 1962.
The M16 is an ergonomic, angular, modernistic and unusually lightweight rifle (originally 3.2kg, compare to 5kg for an AK47). It has a pistol grip, which aids intuitive pointing. The sights allow the user to dial in the range to the target without other adjustments.
The M16 is made of aluminum and plastics, except for the steel barrel and parts of the action. Early models were especially lightweight at 3.2 kg (~7.5 lbs), about 30% less than older 7.62 mm "battle rifles" of the 1950s and 1960s. New models weigh more (~8.5 lbs) because of the "heavy" barrel used to increase accuracy. The gun is 40 inches in length. Stoner experimented with titanium barrels and receiver, but failed to achieve reliable operation.
One distinctive ergonomic feature is a plastic or metal stock directly behind the action, which contains a recoil spring that serves the dual function of operating spring and recoil buffer.
The direct-back stock and spring act to reduce muzzle rise, especially during automatic fire. As a result, most users find the M16 type rifle easy to use. In particular, multiple-round bursts cause much less muzzle-lift, so the rifle is very controllable. Because recoil does not significantly shift the point of aim, user fatigue is reduced. This reduction in recoil coincided well with the entry of women into the Army.
Another distinctive ergonomic feature is that the main sight is in the top of a carry handle on top of the receiver. This means that the user need not turn the head sideways to sight the rifle. The carry handle is also a popular feature. Newer models have a "flattop" upper receiver to which the user can attach either a conventional carry handle/sighting system or numerous optical devices such as night vision scopes.
The action is gas-operated, cocked by gases from a small hole in the barrel. The M16 design has a uniquely simple "direct drive" gas system, which also saves weight. Hot gases from the barrel vent directly into the receiver to push the bolt carrier rearward, eliminating the need for a traditional operating rod and spring assembly. While this reduces the number of moving parts and results in a simpler design, authorities differ about whether the design is more reliable than earlier service rifles. Maintenance can be tricky. Official authorities say that modern versions of the M16A2 with modern ammunition are very reliable.
A forward assist lever (to manually close the action in the event of a failure to feed) was omitted from the earliest models to prevent entry of dirt, but it is included on the modern models along with a spring loaded dust cover.
The bullet is small caliber, 5.56 mm (0.223 in), and often fragments when it strikes flesh. The combination of high velocity and a fragile small bullet is more likely to cause incapacitating injuries than death by hydrostatic shock. The relatively small bullet drifts more than heavier bullets at long ranges, but users can be trained to compensate.
It was originally developed as the Armalite AR-15 in the late 1950s and early 1960s by Eugene Stoner of Armalite Systems, formerly of Costa Mesa, California.
The AR-15 was initially adopted by the U.S. Special Forces, and later found favor with the general army. By the end of the Vietnam war, most units in all branches of the US military were equipped with variants of the AR-15 rifle. It was later produced by Colt and other makers. The total quantity produced in all models world-wide has been about 7 million.
The first revision to the M16 was minor—the replacement of the original "pronged" flash suppressor with a "birdcage" model because of complaints that the pronged version snagged on brush in Vietnam.
Early U.S. users in the Vietnam war had numerous reliability problems. Some believe that this is because those users (who had allegedly been told that the gun required very little maintenance) had neglected maintenance and the neglected guns became extremely unreliable. However, other evidence points to subtle problems with compatibility between the ammunition and the early versions of the gun, such that even perfectly maintained and cleaned guns were unreliable. The gunpowder of early version M16 ammunition was clean-burning, and the gun did not require chrome plating in the receiver area. It is widely believed that a last-minute change to the gunpowder formula was made shortly before the gun was introduced into service. While resulting in a higher muzzle velocity, it caused the weapon to foul much more quickly, and because it lacked plating, it would tend to jam.
Because of the unreliability of the early version M16s, soldiers often derisively referred to them as "toy guns" and used the catch phrase "You can tell it's Mattel" when one malfunctioned. This later blossomed into an urban legend that the first M16s were actually manufactured by the toy giant. Eventually, the design of the weapon was sufficiently corrected to make it more reliable to the point where even some North Vietnamese soldiers were known to prefer it for their personal longarm.
In Vietnam, some soldiers were issued a unique version of the M16 called the XM-177 or CAR-15. The XM-177 had a shorter barrel (~26 cm) and a telescoping stock, which made it substantially more compact and significantly handier. Numerous problems with muzzle flash and loud report resulted in Colt modifying the design to produce the XM-177E1 and XM-177E2 toward the end of the Vietnam conflict. The final XM-177E2 had a 29 cm barrel with a long flash suppressor. This version became known as the "Commando" model and was issued in limited numbers to special forces, helicopter crews, Air Force pilots, officers, radio operators, artillerymen, and troops other than front line riflemen.
In early models, the selective fire control selected either single-shot, or automatic. As designed, the rate of automatic fire was about 700 rounds per minute, but a last-minute change to the gunpowder formula in the ammunition caused it to become very high, near 900 rounds per minute.
Civilian models lack selective fire capability. Fully automatic and burst options are found only in Class 3 firearms, available to police and military forces.
The magazine release is on the right side of the rifle but can be switched for left-handed users. Current military magazines have 30 rounds, and are sometimes taped in upside-down pairs to speed reloading. Aftermarket double magazine clips are available. This practice is discouraged by military authorities because it is said to increase the chance that the top of a magazine will be damaged or pick up dirt. Nevertheless, all it takes is a quick look at recent pictures from Iraq (2004) to see that Special Forces and mainstream military forces are quick to make use of double magazine clips, as well as high-capacity magazines.
In early models, a low-twist rifling scheme gave muzzle velocities exceeding 3200 ft/s (975 m/s), however, the bullet could tumble at long ranges. Modern rifles have a faster rifling twist, and the muzzle velocity is nearly as high, at 2900 ft/s (884 m/s) or more.
After the M16A1 was adopted in the 1970s, user feedback and doctrinal changes led to the development of the M16A2, introduced in 1982.
The main impetus to a new gun was that the Army had decided that a firing rate of 900 RPM was a disadvantage. It led to a dramatically increased total weight of ammunition for both men and air transport. The increased security of the automatic selection could be had with short bursts.
Therefore, in the M16A2's first fire option, each pull of the trigger fires one shot. The other position automatically fires a three-shot burst for each trigger-pull. The U.S. Army performed years of experiments to discover and verify that three-shot groups were optimum, originally in order to develop a flechette rifle.
Besides the selector system, the M16A2 incorporates an adjustable dual-aperture rear sight that corrects for both windage and elevation, a heavier barrel to increase accuracy, 1-in-7 rifling, and an effective muzzle compensator to prevent muzzle climb during operation.
Later in the 80's an 'advanced combat rifle' program was run to find a replacement for it. While many of the contenders, such as the Steyr ACR or Colt ACR were improvements, none increased the ability of infantry to hit targets enough (in this case a 100% increase was the benchmark) to warrant the expense of changing. The Colt ACR entry was a modified version of the M16A2. It reverted to using semi-auto and full auto fire, had special system that lowered recoil by up to 40%(over the A2), and had a 3.5X scope. Other variants experiment with various Flechette and caseless ammunition technologies as well. All the programs were hold, but not actually canceled, after none could meet the benchmark.
The XM-177E2/CAR-15 was developed during Vietnam as a short rifle (carbine) version for helicopter and special operations troops requiring more compact dimensions. It was fitted with a very short 11.5 inch barrel and a large flash suppressor to reduce the muzzle flare. The XM-177E2 lead to the M733, essentially the same gun with an M16A2 receiver and internal improvements and a flash hider/compensator to reduce perceived recoil. The M4 carbine was developed from these designs in the early 1990s, with a 14.5 inch barrel and a "flat top" railed receiver. Officially adopted as a replacement for the M3 "Grease gun" (and the Beretta M9 and M16A2 for select troops) in 1994, it was used with great success in the Balkans, the 2000s War on Terrorism, and in Iraq.
In 2003 the U.S. Army has issued limited numbers of a improved variants, the M16A3 and M16A4, which incorporate a rail mounting system similar to the M4A1 Carbine.
The type is often argued to have various technical problems and there is a general preference for the M-4 Carbine. However, since the M-4 is also seen as somewhat archaic, many authorities believe that the M16 will be replaced by an "Objective Individual Combat Weapon." The OICW project has seen multiple competitors, the most prominent of which is the XM-29 SABR (Selectable Assualt Battle Rifle).
The SABR, ended up consisting of a magazine fed 20 mm smart grenade launcher combined with a ultra-light assault rifle, similar in many aspects to the Heckler and Koch G36 assualt rifle. The use of grenades offered a much higher effectiveness as it allowed a soldier to hit targets with out a direct line of sight (could hit someone hiding in ditch). Problems with the weight and cost however resulted the program being delayed and the parts of the system being implemented independently and improved. The 'kinetic kill'(the light assault rifle) portion of the XM-29, named the XM8 would eventually replace the M-4 and M-16 variants in use. The XM8 rifle is intended to feature lighter weight, a integrated low-power scope, improved reliability and easier maintenance. While having undergone trials, the XM8 has not entered service yet.
In the interim, a hybrid cartridge may see use. One that cuts down on the use of brass in the round casing in favor of a lighter material, but still maintains compatibility with existing weapons such as the M-16. The huge numbers of M-16 variants in service through out the world mean shifts to newer weapons will be gradual, and the low increases in hit probability of replacements coupled with generally higher unit cost mean many will be reluctant to change.
The M16 is the most commonly manufactured 5.56x45mm weapon in the world. Currently, the M16/M4 system is in use by 15 NATO countries and more than 80 countries world wide. Together, the U.S., Canada (as the C7), Singapore, and China have produced more than 8,000,000 units with approximately 90% still in operation.
Nations that have bought M16 rifles include Australia, Barbados, Belize, Bolivia, Botswana, Brazil, Brunei, Burma, Cambodia, Cameroon, Chile, Congo, Costa Rica, Denmark, Dominican Republic, Fiji, France, Germany, Ghana, Greece, Grenada, Haiti, Honduras, Indonesia, Ireland, Israel, Jamaica, Kuwait, Laos, Liberia, Malaysia, Mexico, Morocco, Netherlands, New Zealand, Nigeria, Norway, Oman, Panama, Philippines, Qatar, Saudi Arabia, Singapore, South Korea, Sri Lanka, Taiwan ROC, Thailand, Tunisia, Turkey, United Kingdom, United States, Uruguay, and Vietnam.
Numerous complaints have been issued about the M16 by soldiers using the weapon. Reports of jamming are still very common, as are complaints about the knockdown power of the 5.56 mm caliber round used in the M16. Anecdotes about men having been shot more than four times and retaining near full combat capabilities are common. The small NATO round has less accuracy at a distance than the preceding US standard firearm; current US Army and Marine Corps snipers use rifles chambered for 7.62mm NATO cartridges or greater, the same as the M14 that the M16 was designed to replace. The M16, when compared with the M1, M14, AK47 or AK74 (other popular wide-issue military rifles), is difficult to maintain and particularly difficult to field strip and clean. Complaints about the M16 began before the weapon was introduced in Vietnam and have followed the assault rifle into every combat situation since. However, many earlier issues have since been resolved through design improvements, better training, and proper ammunition.
|
||||
| View Live Article | This article is from Wikipedia. All text is available under the terms of the GNU Free Documentation License | |
||
