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| '''Steel''' is a ]lic ] that consists mainly of ] and shares most of its features. As steel is the most widely used ]ic ], there is no clear agreement on the definition of the term. One classical definition is that steel are iron-carbon alloys with up to 2.1% ]. Presently there are several classes of steels in which ] is an undesirable ]ing element. Examples are ] free steels. A more recent definition is that ]s are ]-based ]s that can be plastically formed. The importance of ] in most ] is associated to its effect on ] properties and ] transformations. With the increased carbon, steel is harder and has a much higher tensile strength that iron, but also more brittle. The first steels were probably created accidentally when the iron sword blanks were heated in charcoal forges. The original Japanese ] steel ] blades (] |
'''Steel''' is a ]lic ] that consists mainly of ] and shares most of its features. As steel is the most widely used ]ic ], there is no clear agreement on the definition of the term. One classical definition is that steel are iron-carbon alloys with up to 2.1% ]. Presently there are several classes of steels in which ] is an undesirable ]ing element. Examples are ] free steels. A more recent definition is that ]s are ]-based ]s that can be plastically formed. The importance of ] in most ] is associated to its effect on ] properties and ] transformations. With the increased carbon, steel is harder and has a much higher tensile strength that iron, but also more brittle. The first steels were probably created accidentally when the iron sword blanks were heated in charcoal forges. The original Japanese ] steel ] blades (]) were not steel as such, but a layered composite of wrought iron, and carbon which when worked created boundry layers of steel. ], which was famous in ancient times for its flexibitity, was created from a number of different materials (some only in miniscule traces), essentially a complicated alloy with iron as main component. | ||
| While the ferrite ] of iron, which is normally what we see as wrought iron will not absorb much carbon, when heated to a higher temperature, it becomes ] which is then capable of combining with carbon to form steel. Additional metals are usually added to carbon steel to change its charatistics. ] in steel adds to the tensle strength, ] increases the hardness, ] also increases the hardness, while reducing the effects of metal fatigue. | While the ferrite ] of iron, which is normally what we see as wrought iron will not absorb much carbon, when heated to a higher temperature, it becomes ] which is then capable of combining with carbon to form steel. Additional metals are usually added to carbon steel to change its charatistics. ] in steel adds to the tensle strength, ] increases the hardness, ] also increases the hardness, while reducing the effects of metal fatigue. | ||
| After the heating process, the cooling of the steel must be controlled in order to control the crystal form of the steel. This is known as quenching. The steel must be cooled quickly in order to achieve the desired crystal form, but cooling too quickly will cause the metal to crack. ] cools the steel too quickly, and thus ] is traditionally used. | After the heating process, the cooling of the steel must be controlled in order to control the crystal form of the steel. This is known as quenching. The steel must be cooled quickly in order to achieve the desired crystal form, but cooling too quickly will cause the metal to crack. ] cools the steel too quickly, and thus ] is traditionally used. | ||
| There is also ], which does not ], and isn't magnetic. It is an alloy of iron with ] and ]. | There is also ], which does not ], and isn't magnetic. It is an alloy of iron with ] and ]. | ||
Revision as of 15:43, 25 February 2002
Steel is a metallic alloy that consists mainly of iron and shares most of its features. As steel is the most widely used metalic alloy, there is no clear agreement on the definition of the term. One classical definition is that steel are iron-carbon alloys with up to 2.1% carbon. Presently there are several classes of steels in which carbon is an undesirable alloying element. Examples are insterstitial free steels. A more recent definition is that steels are iron-based alloys that can be plastically formed. The importance of carbon in most steels is associated to its effect on steel properties and phase transformations. With the increased carbon, steel is harder and has a much higher tensile strength that iron, but also more brittle. The first steels were probably created accidentally when the iron sword blanks were heated in charcoal forges. The original Japanese samurai steel sword blades ( katanas) were not steel as such, but a layered composite of wrought iron, and carbon which when worked created boundry layers of steel. Damascus steel, which was famous in ancient times for its flexibitity, was created from a number of different materials (some only in miniscule traces), essentially a complicated alloy with iron as main component.
While the ferrite allotrope of iron, which is normally what we see as wrought iron will not absorb much carbon, when heated to a higher temperature, it becomes austenite which is then capable of combining with carbon to form steel. Additional metals are usually added to carbon steel to change its charatistics. Nickel in steel adds to the tensle strength, Chromium increases the hardness, Vanadium also increases the hardness, while reducing the effects of metal fatigue.
After the heating process, the cooling of the steel must be controlled in order to control the crystal form of the steel. This is known as quenching. The steel must be cooled quickly in order to achieve the desired crystal form, but cooling too quickly will cause the metal to crack. Water cools the steel too quickly, and thus oil is traditionally used.
There is also stainless steel, which does not rust, and isn't magnetic. It is an alloy of iron with chromium and vanadium.