Damascus steel is a hot-forged steel used in Middle Eastern swordmaking from about 1100 to 1700 AD. Damascus swords were of legendary sharpness and strength, and were apocryphally claimed to be able to cut through lesser quality swords and even rock. The technique used to create original Damascus steel is now a matter of historical conjecture. Many raw materials and the metalsmiths' recipes are no longer available. The foundation for Damascus Steel is Wootz Steel, which originated in India and Sri Lanka and later spread to Persia. From the 3rd century to 17th century, India was shipping steel ingots to the Middle East for use in Damascus steel.
The general term "Damascus" refers to metal with a visible grain pattern, sometimes with a texture. Modern Damascus is a lamination of folded steels selected with cosmetic qualities, with grinding and polishing specifically to expose the layers. True Damascus patterns are formed when carbon trace elements form visible swirls in the steel mix. These elements change properties when the steel is work hardened (forged), creating the patterns.
History
Several other steelmaking techniques, such as wootz steel also result in patterned surfaces and have often been sold as Damascus steel , Damascened steel and sometimes watered steel . The most common technique today for producing these materials is pattern welding, which is widely used for custom knife making. Modern Damascus steel is usually made by pattern welding two tool steels, one with high nickel content, appearing bright, the other appearing more grey so that alternating steels produce light-dark stripes. Treating or pickling the steel with dilute acid after polishing enhances the pattern by darkening one of the steels more than the other. Folding and twisting while hammer forging controls the striped pattern, and the method used is often trademarked. Skilled swordsmiths can manipulate the layered patterns to mimic the complex designs found in the surface of the original, medieval Damascus steel. Some knife artists begin with stacking steel wires and through folding can produce repeating images along a blade, such as a crossed U.S. flags. Stacking wires is a speciality of the Cable Damascus technique, a new age development. The advent of steel wire rope (1830's) provided mid-west blacksmiths a way to make corn harvester's machetes (cable knives).
One explanation of the legendary properties of Damascus steel is that the pattern consists of alternating bands of very hard, but brittle iron carbide or cementite and softer more flexible iron. Another possibility is that the steel contains a small amount of vanadium, which would theoretically strengthen the blade . The legendary steel may have been a happy accident by way of the limited production methods. Original Damascus steel billet was formed from a small disk that was hammer folded/forged into its final shape. Unlike northern European methods, the ferro-smelting technique in Persia during the Middle Ages involved small bowl-type crucibles with lids, baked in a mound-type oven often used for bread. Controlling the air contact to the melt, as well as trace elements found locally, all combined to produce a steel blade noticeably better than its contemporaries.
Carbon nanotubes and nanowires were found in a sample of a 17th century sword forged from Damascus steel. The complex process of forging and annealing is thought to have accounted for the nano-scale structures.
The origins of the name Damascus remains somewhat controversial. Damascus steel was originally made using ore with a certain chemical composition from a mine that is now exhausted, so attempts at reproduction are difficult at best.
It would seem obvious that the name Damascus refers to swords forged in Damascus, but there are several other possible sources of the name. One is the name of the swordsmith himself: the author al-Beruni refers to swords made by a man he names Damashqi. Another author, al-Kindi, refers to swords made in Damascus as Damascene. This word has often been employed as an epithet in various Eastern European legends ( Sabya Damaskinya or Sablja Dimiskija meaning "Damascene saber"), of which perhaps the best known are the Serbian legends of Prince Marko, a historical figure of the late 14th century in what is now the Republic of Macedonia.
Manufacture
The original Damascus steel swords may have been made in the vicinity of Damascus, Syria, in the period from 900 AD to as late as 1750 AD. Damascus steel is a type of steel alloy that is both hard and flexible, a combination that made it ideal for the building of swords. It is said that when Damascus-made swords were first encountered by Crusaders during the Crusades, it garnered an almost mythical reputation—a Damascus steel blade was said to be able to cut a piece of silk in half as it fell to the ground, as well as being able to chop through normal blades, or even rock, without losing its sharp edge. Recent metallurgical experiments, based on microscopic studies of preserved Damascus-steel blades, have claimed to reproduce a very similar steel via possible reconstructions of the historical process.
When forming a batch of steel, impurities are added to control the properties of the resulting alloy. In general, notably during the era of Damascus steel, one could produce an alloy that was hard yet brittle at one extreme by adding up to 2% carbon, or a higher level of toughness yet ductile and malleable at the other, with about 0.5% carbon. The problem for a swordsmith is to create a steel which strikes the perfect balance between hard and tough — hard, so as to hold an edge once sharpened, but tough so it would not shatter when hitting other metal in combat. This was not possible with normal processes.
Metalsmiths in India and Sri Lanka perhaps as early as 300 AD developed a new technique known as wootz steel that produced a high-carbon steel of unusually high purity. Glass was added to a mixture of iron and charcoal and then heated. The glass would act as a flux and bind to other impurities in the mixture, allowing them to rise to the surface and leave a more nearly pure steel when the mixture cooled. Thousands of steel making sites were found in Samanalawewa area in Sri Lanka that made high carbon steel as early as 300 BC. (Juleff, 1996). These steel making furnaces were built facing western monsoon winds and wind turbulence and suction was used to create a forced draft in the furnace, increasing the heat available. Steel making sites in Sri Lanka have been dated to 300 BC using carbon dating technology. The technique propagated very slowly through the world, reaching modern-day Turkmenistan and Uzbekistan around 900 AD, and then the Middle East circa 1000 AD.
This process was further refined in the Middle East using locally produced steels. The exact process remains unknown, but allowed carbides to precipitate out as micro particles arranged in sheets or bands within the body of a blade. The carbides are far harder than the surrounding low carbon steel, allowing the swordsmith to make an edge which would cut hard materials with the precipitated carbides, while the bands of softer steel allowed the sword as a whole to remain tough and flexible.
The banded carbide precipitates appear in the blade as a swirling pattern. By manipulating the ingot of steel in a certain way during forging, various intentional patterns could be induced in the steel. The most common of these was a pattern of lateral bands, often called 'Muhammad's Ladder', most likely formed by cutting or forging notches into the surface of the ingot, then forging it into the blade shape (this is the method Pendray (below) used to reproduce the pattern).
A team of researchers based at the Technical University of Dresden that uses x-rays and electron microscopy to examine Damascus steel discovered the presence of cementite nanowires and carbon nanotubes. Peter Paufler, a member of the Dresden team, says that these nanostructures give Damascus steel its distinctive properties and are a result of the forging process.
Prior to the early 20th century, all shotgun barrels were forged by heating narrow strips of iron and steel and shaping them around a mandrel. This was process was referred to as "laminating" or "Damascus" and these barrels were found on inexpensive shotguns that sold for $12. These types of barrels earned a reputation for weakness and were never meant to be used with modern smokeless powder, often resulting in catastrophic failure. Because of the appearance to Damascus steel, higher-end barrels were made by Belgian and British gun makers. These barrels are proof marked and meant to be used with light pressure loads. Modern gun manufacturers such as Caspian Arms make slide assemblies and small parts such as triggers and safties for Colt M1911 pistols from powdered Swedish steel resulting in a swirling two toned effect, these parts are often referred to as "Stainless Damascus".
Loss of the technique
The process was lost to the middle-eastern metalsmiths circa 1750 AD, possibly because sources of ores containing trace amounts of tungsten and/or vanadium needed for its production were depleted. Numerous attempts have been made to recreate the process with varying success, and the original process remains speculative.
One argument holds that the raw material for Da
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Damascus steel - Wikipedia, the free encyclopedia
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