A tang or shank is the back portion of a tool where it extends into stock material or is connected to a handle as on a knife, sword, spear, arrowhead, chisel, screwdriver, etc. Various tang designs are usually described by their appearance or the manner in which they are affixed to a handle and their length in reference to the handle.
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A Full tang extends the full length of the grip-portion of a handle, versus a partial tang which does not.
There is a wide variety of full and partial tang designs. In perhaps the most common design in full tang knives, the tang is cut in the shape of the handle and handle "slabs" are then fastened to the tang by means of pins, screws, bolts, metal tubing, epoxy, etc. The tang is left exposed along the belly, butt, and spine of the handle, extending both the full length and width of the handle. It is a misconception that this particular design defines "full tang", but it provides the greatest amount of material support to the handle of the tool.
Partial tang designs include stub, half, and three-quarter tangs, describing how far the tang extends into the handle of the tool. The most common partial tang design found in commercial knives is on folding knives, where the tang extends only as far as the pivot-point in the handle. Scalpels, utility razor blades, and a number of other knives are commonly designed with short partial tangs that are easy to fasten and unfasten from the handle so that dull or contaminated blades may be quickly exchanged for fresh ones, or so that one style of blade may be exchanged for another style while maintaining the same handle. Hollow-handled knives also incorporate a partial tang. Many inexpensive knives and swords designed for decorative purposes incorporate partial tangs and are not intended to be used for cutting applications. Caution should be exercised whenever employing any tool or product for a purpose it was not specifically designed for.
A full tang knife or sword generally allows for increased force leveraged through the handle against the resistance of material being cut by the blade, an advantage when used against harder materials or when the blade begins to dull. A full tang also increases the amount of stock metal in the handle of the tool which can be beneficial in altering the balance point of the tool since the blade of a knife or sword is often quite heavy compared to the handle. Adding weight to the handle of a knife or sword to offset the weight of the blade moves the rotational balance point back toward the hand where it can be more easily manipulated to great effect, making for a nimble, agile tool. In general, a forward-balanced blade excels at chopping but sacrifices agility and ease of manipulation; a center or rear-balanced blade excels at agility but sacrifices raw chopping power. Knives and swords intended for specific purposes will usually incorporate whichever design is most suited to how the tool will be handled for that specific purpose.
A partial tang knife or sword is generally not able to leverage as much force against the resistance of material being cut as a full tang design would allow. This limits the amount of force which a user should apply to the handle of such a weapon. Such designs may be optimal in light-weight knives or swords designed to be kept extremely sharp and used to cut less-resistant materials. Scalpels and Japanese samurai swords are perhaps the most well-known examples of such tools.
It should be noted that most of these design styles can be used with full or partial tangs and the use of one does not exclude the use of another. For example, a sword may have a hidden, encapsulated, rat-tail tang.
Push Tang: the tang is inserted or pushed into a pre-made handle and fastened in place.
Encapsulated Tang: handle material is molded around the tang itself and fastened in place.
Hidden Tang: the tang is fastened within the handle such that neither the tang nor the mechanism by which it is fastened is visible on the surface of the handle. A hidden tang may be accomplished in a number of ways. The simplest way to accomplish a hidden tang is with epoxy. A more sophisticated method is to construct the tang with a small protrusion (or a protrusion may be welded onto it) which fits into a notch in the handle, preventing the blade from being withdrawn from the handle. Another common method is to cut bolt-threading into the end of the tang whereby a pommel-nut screws into place. Inexpensive decorative knives and swords occasionally feature a hidden false tang consisting of a separate thin bolt welded to a stub tang on the blade, the bolt is then inserted through the handle and fastened in place by a pommel-nut.
Stick and Rat-Tail Tangs: the transition from blade to tang involves an abrupt decrease in the amount of stock metal such that the tang is narrower than the rest of the tool, moreso when the transition resembles that between a rat's thick body and its thin tail. A narrow tang provides less material strength to the tool than a wider tang but is also lighter and can be constructed to provide sufficient strength to prevent failure of the tang during use of the tool. It is a common misconception that all rat-tail tangs are weak and unsuitable in tools designed for hard or heavy use. Historically, the majority of swords and bladed tools produced prior to the advent of modern machinery and techniques featured such tangs as an indirect result of the forging process. The failure-rate of properly designed stick-tangs is quite low, and the vast majority of catastrophic failures in swords and knives occurs in the blade, not the tang. Features of a well made stick-tang include the following: increased ductility relative to the blade, uniform grain structure at the transition between blade and tang, and a more gradual/less abrupt (and preferably radiused) transition.
Tapered Tang: the width of the tang gradually decreases in one or more dimensions along its length. Tapered tangs may feature thinning along the spine from blade to pommel, thinning from spine to belly, or even hollowing from the edges toward the midsection of the tang-stock. This is an uncommon but sophisticated design used to reduce the amount of material (and thereby the weight) in the handle of the tool without significant sacrifice of strength along horizontal and vertical vectors.
Skeletonized Tang: large sections along the tang are cut away, reducing the amount of stock material to a basic framework while still providing structural support. This is another sophisticated, modern method of reducing the material weight of the tang without sacrificing significant material strength or support. Skeletonized tangs are also commonly utilized to provide storage space in the handle of the tool.
Extended Tang: the tang extends beyond the grip of the handle. In knives, the extended tang may function as a hammer-pommel.