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A blade is the portion of a tool, weapon, or machine with an edge that is designed to cut and/or puncture, stab, slash, chop, slice, thrust, or scrape surfaces or materials. A blade may be made from a flaking stone, such as flint, metal (usually steel), ceramic, or other material.
When used for food preparation, the main uses are slicing (cutting by drawing the blade across the object, applying light pressure) and chopping (cutting by pushing the blade through object), with some piercing (using the tip to cut through the surface).
In combat, a blade may be used to slash (i.e. to cut with the edge, generally in a swinging motion), puncture or stab (the blade is plunged into the opponent, starting with the tip and proceeding as the blade deepens), thrown (i.e. by throwing the knife so the point enters the target) or propelled (i.e. a ballistic knife). The function is to sever a nerve, muscle or tendon fibers, or blood vessel to disable or kill the adversary, stopping his behavior. Severing a major blood vessel leads to collapse due to shock fairly quickly. Shrapnel wounds via the fragments' blade-like nature.
Blades may be used to scrape, moving the blade sideways across a surface, as in an ink eraser, rather than along or through a surface.
A serrated blade (a blade which has many small "teeth") takes this further as each individual tooth concentrates the force on a smaller area which helps cut through denser materials. A jagged knife can cut through objects solely with a sliding motion with little pushing force, this is useful, for example, in bread knives. Some bladed weapons or tools have curved blades.
As a rule the blade must be made of a substance which is harder than (or as hard as) the material it is intended to cut. If this is not the case the blade will either be unable to cut (as it absorbs all the energy and is damaged) or will wear away very quickly (if it is hard enough to transfer enough of the energy to damage the material). The material must also be tough enough to last (e.g. glass is very hard but it shatters easily and thus is not very effective as a material for a blade).
Heat treatments, which increase hardness for better edge-holding, reduce the material's toughness. A balance must be found between the sharpness and how well it can last. Methods that can circumvent this include differential hardening. This gives an edge that can hold its sharpness and a body that is tough.,
An ideal blade would come to a perfect edge — not at all rounded — but that says nothing of the angle of that edge. The ideal angle is a function of the material being cut. For example, a tool bit for cutting metal may have nearly a 90° edge; it would probably not even be considered a blade. With very rigid materials such as metal, cutting deep into a piece with a blade would be impossible so deep cutting is done with a saw or grinder which provides kerf through which the cutting device can pass. With less-rigid materials such as a butternut squash, an acute blade prevents the blade from being pinched by the material . When cutting biomaterials such as tomatoes (which tend to have a low elastic modulus but high yield strain), the angle of the blade is less important since the material will bend, but the sharpness of the edge is important because if too much force is required, the material will be squashed rather than cut (or alternatively a serrated blade could be used).
Material for weapon blades has to be selected to achieve a balance between hardness and toughness and the balance is dependent upon the intended use of a blade. In antiquity, the main metal used was copper, then bronze, and later iron and steel. Perhaps the most well known steel forging technique is pattern welding, a technique historically used to mix high and low-carbon irons together, most furnaces being incapable of producing other grades than these two extremes. Today, the process is only used for the sides of historically accurate katanas (samurai swords), and for pattern welded steel's resemblance to damascus steel.
Techniques may also be employed to make the blade stronger or harder. Copper and bronze can be work hardened by simply hitting the blade with a hammer while it is cold. Blades made of steel with a high enough carbon content (greater than 0.5%) can be heat-treated by heating the steel up to a critical point (most simple carbon alloys become non-magnetic slightly below that point), then quenching it with forced air, oil, water, or brine depending on the required hardness. Quenching puts an enormous amount of stress on the metal and if cooled unevenly, it can warp the metal, which is how some swords acquire their curvature; this is called differential hardening. Following quenching, a blade may be tempered by heating it to a relatively low temperature for an extended period of time. The tempering process makes the steel slightly softer, but also much tougher and ductile, and thus less likely to break or chip during everyday use.
Case hardening is a process diffusing alloying elements into the surface of a piece of metal. The most common case hardening realized on blades is carburizing. It is done by placing the object to be hardened in a sealed container along with carbon-rich material; in antiquity, this material was usually a mix of horn, hide, or charcoal, and sometimes urine which brought nitrogen. The container would then be heated until it was glowing red and held at that temperature for a time based on the size of the part being hardened and the required depth of hardening. As long as enough carbon is provided, that depth can attain 1.5 millimetres. After the required time, the object is dumped out of the container into a water bath to quench it, resulting in a very hard surface, but a completely unhardened core. Case hardening is a less time-consuming and less expensive way to obtain a blade with balanced toughness and hardness than pattern welding two types of iron. Only low-carbon wrought iron is required (which is the only thing most antique and medieval furnaces could produce), bars are then case-hardened and finally pattern welded together, resulting in steel. It is also possible to case harden finished iron or steel items. Case hardening as an industrial process has survived the replacement of wrought iron by carbon steel, since despite no longer being required to increase carbon content, a thin but very hard surface layer is an effective protection against wear (on mechanical parts) and corrosion.
Another important aspect of many blades is fullers. Despite popular belief, fullers were not "blood grooves" that facilitated quicker bleeding of the victim and easier removal after insertion. Rather, fullers helped to make a blade stronger and more durable by giving it an I-beam cross section, thus reducing the amount of steel and weight of the blade required to keep the spine stiff. This was very important in ancient times when high quality steel was more labor-intensive to make, smiths would scrape the fuller with a U shaped tool before hardening and reuse the scraps. Modern day fullers are made by positioning a heated blade over a bottom fuller (metalworking), setting a like sized top fuller on the top side of the sword, and hitting the top fuller with a hammer.
The most common materials used nowadays are homogeneous carbon or stainless steel, which are produced in quantity from pig iron, though anything that is fairly hard can be used. In the past, exotic blade materials were used such as obsidian, flint and bone. Today, exotic blade materials also include synthetic sapphire, zirconium dioxide and even very hard plastics.
Blades dull with use and abuse. This is particularly true of acute blades and those made of soft materials. Dulling usually occurs due to contact between the blade and a harder substance such as a ceramic, stone, or a harder metal. The reason why a very sharp and thus very thin edge will be dulled by a softer material, is due to the fact that both materials abrade each other and lose material, with the softer material losing far more. Furthermore, there may be more matter involved that it appears, abrasive grit and other small particles will often be present in the interface of two contacting surfaces. In times when swords were regularly used in warfare, they required frequent sharpening because of dulling from contact with rigid armor, chain mail, metal rimmed shields, or other swords, for example. Particularly, hitting the edge of another sword by accident or in emergency could chip away metal and even cause cracks through the blade. Properly built soft or soft-cored blades are less affected by this.
Knife blade profiles (patterns)
Some of the most common shapes are listed below.
(S1) A normal blade has a curving edge, and straight back. A dull back lets the wielder use fingers to concentrate force; it also makes the knife heavy and strong for its size. The curve concentrates force on a smaller area, making cutting easier. This knife can chop as well as pick and slice. This is also the best single-edged blade shape for thrusting, as the edge cuts a swath that the entire width of the knife can pass through without the spine having to push aside any material on its path, as a sheepsfoot or drop-point knife would.
(S2) A trailing-point knife has a back edge that curves upward to end above the spine. This lets a lightweight knife have a larger curve on its edge and indeed the whole of the knife may be curved. Such a knife is optimized for slicing or slashing. Trailing point blades provide a larger cutting area, or belly, and are common on skinning knives.
(S3) A drop point blade has a convex curve of the back towards the point. It handles much like the clip-point, though with a stronger point typically less suitable for piercing. Swiss army pocket knives often have drop-points on their larger blades.
(S4) A clip-point blade is like a normal blade with the back "clipped". This clip can be either straight or concave. The back edge of the clip may have a false edge that could be sharpened to make a second edge. The sharp tip is useful as a pick, or for cutting in tight places. If the false edge is sharpened it increases the knife's effectiveness in piercing. As well, having the tip closer to the centre of the blade allows greater control in piercing. The Bowie knife has a clip point blade and clip-points are common on pocket knives and other folding knives.
(S5) A sheepsfoot blade has a straight edge and a straight dull back that curves towards the edge at the end. It gives the most control, because the dull back edge is made to be held by fingers. Sheepsfoot blades were originally made to trim the hooves of sheep. Their shape bears no similarity to the foot of a sheep.
(S6) A Wharncliffe blade is similar in profile to a sheep's foot but the curve of the back edge starts closer to the handle and is more gradual. Its blade is much thicker than a knife of comparable size. Wharncliffes were used by sailors, as the shape of the tip prevented accidental penetration of the work or the user's hand with the sudden motion of a ship.
(S7) A spey point blade (once used for neutering livestock) has a single, sharp, straight edge that curves strongly upwards at the end to meet a short, dull, straight point from the dull back. With the curved end of the blade being closer to perpendicular to the blade's axis than other knives and lacking a point, making penetration unlikely, spey blades are common on Trapper style pocketknives for skinning fur-bearing animals.
(C1) Leaf blade with a distinctive recurved "waist" adding some curved "belly" to the knife facilitating slicing as well as shifting weight towards the tip meaning that it is commonly used for throwing knives as well as improving chopping ability.
(C2) A spear point blade is a symmetrically-shaped blade with a point aligned with the centerline of the blade's long axis. True spear-point blades are double-edged with a central spine, like a dagger or spear head. The spear point is one of the stronger blade point designs in terms of penetration stress, and is found on many thrusting knives such as the dagger. The term spear point is occasionally and confusingly used to describe small single-edged blades without a central spine, such as that of the pen knife, a small folding-blade pocket knife formerly used in sharpening quills for writing. Pen-knife may also nowadays refer to the blade pattern of some of larger pocket knife blades that would otherwise be termed drop-point designs.
(C3) A needle point blade has a sharply-tapered acuminated point. It is frequently found on daggers such as the stiletto (which had no sharpened edges) and the Fairbairn-Sykes fighting knife. Its long, narrow point reduces friction and increases the blade's penetrative capabilities, but is liable to stick in bone and can break if abused. When the needle point is combined with a reinforced 'T' section running the length of the blade's spine, it is called a reinforced tip. One example of a knife with a reinforced tip is the pesh-kabz.
(C5) Referred to in English speaking countries as a "tanto" or "tanto point" (a corruption of the Japanese word tantō though the tip bears no resemblance to a tantō) or a chisel point. (Chisel point only refers to the straightness of the edge that comprises the end of the blade and not to the knife edge being ground on just one side.) It is similar to, but not the same as, some early Japanese swords that had kamasu kissaki ("barracuda tip"), a nearly straight edge at the tip whereas the typical "tanto point" as found in the west has a straight edge. The barracuda tip sword was sharp but also fragile whereas modern tanto point are often advertised as being stronger at the tip for having nearly the whole thickness of the blade present until quite close to the end of the knife. Knife tests have shown that penetration ability of this style of blade is comparatively poor but it is possible, if the tip is strong, that more force can be applied allowing greater penetration without damaging the tip.
The lower illustration is a modified tanto where the end is clipped and often sharpened. This brings the tip closer to the centre of the blade increasing control of the blade and improves penetration potential by having a finer point and a sharpened back edge.
(C6) A hawkbill blade is sharpened on the inside edge and is similar to carpet and linoleum knives. The point will tear even if the rest of the knife is comparatively dull. The karambit from Far South-East Asia is a hawkbill knife which is held with the blade extending from the bottom of the fist and the tip facing forward. The outside edge of a karambit may be sharp and if so may also feature a backwards facing point.
(C7) An ulu (Inuit woman's knife) knife is a sharpened segment of a circle. This blade type has no point, and has a handle in the middle. It is good for scraping, and sometimes chopping. The semi-circular version appears elsewhere in the world and is called a head knife. It is used in leatherworking both to scrape down leather (reducing thickness), and to make precise, rolling cuts for shapes other than straight lines. The circular version is a popular tool for slicing pizzas. One corner is placed at the edge of the pizza and the blade is rolled across in a diameter cut.
Swords may have either a straight blade or a curved one. A straight sword was thought to be primarily intended for hacking and stabbing, yet recent studies have shown this to be untrue, as many slicing techniques were used. The difference between a hacking cut and a slashing one is essentially the same as the difference between using a butcher's knife and a chef's knife; one forces an edge straight into a material while the other is pulled along the material to get more of a slicing action. Hacking cuts were usually followed by a slicing action, where the sword is drawn backwards to maximize the cut. For more information see Western Martial Arts or kenjutsu.
Some variations included
- the flame blade (undulated blade, for both psychological effect and some tactical advantage of using a non-standard blade: vibrations and easier parry)
- the colichemarde, found in smallsword
Marks and decoration
Blades are sometimes marked or inscribed, for decorative purposes, or with the mark of either the maker or the owner. Blade decorations are often realized in inlay in some precious metal (gold or silver).
Early blade inscriptions are known from the Bronze Age, a Hittite sword found at Hattusa bears an inscription chiseled into the bronze, stating that the blade was deposited as an offering to the storm-god by king Tuthaliya.
- Culinary Institute of America (2007). In the Hands of a Chef: The Professional Chef's Guide to Essential Kitchen Tools. John Wiley and Sons. p. 17. ISBN 978-0-470-08026-9.
- Echanis, Michael (1977). Knife Self-Defense for Combat. p. 4. ISBN 978-0-89750-022-7.
- Echanis, Michael (1979). Knife Throwing for Combat. p. 4. ISBN 978-0-89750-058-6.
- thearma.org; edge damage
- Engineer's handbook; case hardening
- English Russia >> Sapphire Knife
- [Taiji Sword, Classical Yang Style. Jwing-Ming Yang. YMAA Publications 1999, page 20 ISBN 978-1-886969-74-2]
- Goddard, Wayne (2000). The Wonder of Knifemaking. Krause. pp. 88–89. ISBN 978-0-87341-798-3.
- Overton, Mac (1990). "Two traditional designs". Blade Magazine 17 (=12): 48–53.
- Neep, Rod (2005). "Wharncliffe Bladed Knives". Archived from the original on 2008-11-01. Retrieved 30 October 2013.
- Ewart Oakeshott, The Sword in the Age of Chivalry (1964)
- Kristian Kristiansen, Thomas B. Larsson, 'The rise of Bronze Age society: travels, transmissions and transformations (2005)290.