Limp wristing

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Limp wristing is a term used to describe a phenomenon commonly encountered by semiautomatic pistol shooters, where the shooter's grip is not firm enough to hold the frame of the pistol steady while the bolt or slide of the pistol cycles. This condition often results in a failure to complete the operating cycle, called a jam. Rifles and shotguns, if fired without the stock in the shoulder, may also be prone to limp wristing.

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[edit] Overview of the operating cycle

The cycling of any type of semiautomatic firearm can be broken down into two phases; the first is the rearward motion of the bolt or slide (hereafter referred to only as slide, which is the most common form in pistols), the second is the forward motion of the slide. The rearward motion of the slide is initiated by the force of firing, and continues using the slide's inertia. While the slide moves rearwards, a spring, called the recoil spring, is compressed, absorbing the energy of the slide while slowing it down. During this phase the fired cartridge case is extracted from the barrel and ejected. When the slide is fully to the rear, it is stopped by the fully compressed recoil spring. The spring then pushes the slide forward, stripping a new cartridge from the magazine and pushing it into the chamber. The firearm is then ready to fire the next round.

[edit] How limp wristing can cause a failure to cycle

Depending on the operating mechanism, there are a number of places that limp wristing can cause a failure to cycle. Recoil operated firearms are more susceptible to failure than blowback and gas-operated firearms, and lightweight polymer framed handguns are more susceptible than heavy steel framed handguns.

In blowback and gas operated firearms, the slide reacts against the frame pushing the frame forward slightly against the recoil of the bullet leaving. In recoil operated firearms, the slide reacts against the bullet, and the frame is under no force at the time of firing. As the slide begins to recoil to the rear some of that energy is transmitted to the frame through the locking mechanism (in locked breech designs) and the recoil spring. This transmitted energy accelerates the frame to the rear as well. If the frame is not sufficiently restrained by its mass and the shooter's grip, the frame will "catch up" to the slide, and the recoil spring will not be fully compressed, and the slide will return forward under less than the designed force.

One common result of limp wristing is a failure to eject, as the slide will be moving too slowly at the point where the ejector is activated. The slow moving case will be caught as the slide closes, resulting in a stovepipe jam. The other common result of limp wristing is a failure to return to battery; the slide will be moving too slowly to move the new cartridge fully into the chamber, so the slide will stop partially open. The least common form of failure is a failure to feed, where the slide returns to battery on an empty chamber, because the slide moved back just far enough to eject the fired cartridge, but not enough to strip the next round from the magazine.

[edit] How to address limp wristing

As the name suggests, the problem occurs most often with shooters who have a loose grip. A firm, two handed grip will often solve the problem. Some shooters, however, just lack the strength for such a firm grip, and in that case there are two avenues that can be explored: changing the firearm, or changing the ammunition.

The simplest way to avoid limp wristing is to use a manually cycled firearm action, such as a revolver. Revolvers are also more reliable and simpler to operate than semiautomatic pistols, and are a good choice for shooters who have difficulty with semiautomatic designs. The other alternative is to pick a firearm whose frame is heavier in relation to its slide. Polymer framed hanguns have the lightest frames, and as the frame is flexible, it absorbs more energy than metal frames. Aluminium and titanium alloys are slightly heavier and much stiffer than the polymers, and steel is the heaviest frame material generally used. Full sized frames are also heavier than compact frames. The heavier frames will have more inertia, and will rely less on the shooter's grip strength to hold the frame still.

The other approach is to alter the ammunition used. Low velocity, light bullet loads such as those used in target shooting have the least energy available to operate the action, and thus are the most sensitive to limp wristing. A heavier or faster bullet will help. Accurate Powder did tests of various powder types in Glock and Sig-Sauer handguns, and determined that fast burning powders caused failures to increase, and that medium and slow burning powders (of the range suitable for the cartridge) gave the best reliability. Limp wristing would magnify these changes, so fast powders should be avoided.

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