A draw plate is type of die consisting of a hardened steel plate with one or more tapered holes through which wire is drawn to make it thinner. A typical plate will have twenty to thirty holes, so a wide range of diameters can be drawn.
88-446: A wire is a flexible, round, bar of metal . Wires are commonly formed by drawing the metal through a hole in a die or draw plate . Wire gauges come in various standard sizes, as expressed in terms of a gauge number or cross-sectional area . Wires are used to bear mechanical loads , often in the form of wire rope . In electricity and telecommunications signals , a "wire" can refer to an electrical cable , which can contain
176-578: A plasma (physics) is a metallic conductor and the charged particles in a plasma have many properties in common with those of electrons in elemental metals, particularly for white dwarf stars. Metals are relatively good conductors of heat , which in metals is transported mainly by the conduction electrons. At higher temperatures the electrons can occupy slightly higher energy levels given by Fermi–Dirac statistics . These have slightly higher momenta ( kinetic energy ) and can pass on thermal energy. The empirical Wiedemann–Franz law states that in many metals
264-435: A semiconducting metalloid such as boron has an electrical conductivity 1.5 × 10 S/cm. With one exception, metallic elements reduce their electrical conductivity when heated. Plutonium increases its electrical conductivity when heated in the temperature range of around −175 to +125 °C, with anomalously large thermal expansion coefficient and a phase change from monoclinic to face-centered cubic near 100 °C. There
352-534: A "solid core" of a single wire or separate strands in stranded or braided forms. Usually cylindrical in geometry, wire can also be made in square, hexagonal, flattened rectangular, or other cross-sections, either for decorative purposes, or for technical purposes such as high-efficiency voice coils in loudspeakers . Edge-wound coil springs , such as the Slinky toy, are made of special flattened wire. In antiquity , jewelry often contains large amounts of wire in
440-454: A base metal as it is oxidized relatively easily, although it does not react with HCl. The term noble metal (also for elements) is commonly used in opposition to base metal . Noble metals are less reactive, resistant to corrosion or oxidation , unlike most base metals . They tend to be precious metals, often due to perceived rarity. Examples include gold, platinum, silver, rhodium , iridium, and palladium. In alchemy and numismatics ,
528-443: A few—beryllium, chromium, manganese, gallium, and bismuth—are brittle. Arsenic and antimony, if admitted as metals, are brittle. Low values of the ratio of bulk elastic modulus to shear modulus ( Pugh's criterion ) are indicative of intrinsic brittleness. A material is brittle if it is hard for dislocations to move, which is often associated with large Burgers vectors and only a limited number of slip planes. A refractory metal
616-511: A lower atomic number) by neutron capture , with the two main modes of this repetitive capture being the s-process and the r-process . In the s-process ("s" stands for "slow"), singular captures are separated by years or decades, allowing the less stable nuclei to beta decay , while in the r-process ("rapid"), captures happen faster than nuclei can decay. Therefore, the s-process takes a more-or-less clear path: for example, stable cadmium-110 nuclei are successively bombarded by free neutrons inside
704-439: A machine may have six bobbins on one cage and twelve on the other. Solid wire, also called solid-core or single-strand wire, consists of one piece of metal wire. Solid wire is useful for wiring breadboards. Solid wire is cheaper to manufacture than stranded wire and is used where there is little need for flexibility in the wire. Solid wire also provides mechanical ruggedness; and, because it has relatively less surface area which
792-514: A real metal. In this respect they resemble degenerate semiconductors . This explains why the electrical properties of semimetals are partway between those of metals and semiconductors . There are additional types, in particular Weyl and Dirac semimetals . The classic elemental semimetallic elements are arsenic , antimony , bismuth , α- tin (gray tin) and graphite . There are also chemical compounds , such as mercury telluride (HgTe), and some conductive polymers . Metallic elements up to
880-407: A result of a neutron star merger, thereby increasing the abundance of elements heavier than helium in the interstellar medium . When gravitational attraction causes this matter to coalesce and collapse new stars and planets are formed . The Earth's crust is made of approximately 25% of metallic elements by weight, of which 80% are light metals such as sodium, magnesium, and aluminium. Despite
968-483: A role as investments and a store of value . Palladium and platinum, as of summer 2024, were valued at slightly less than half the price of gold, while silver is substantially less expensive. In electrochemistry, a valve metal is a metal which passes current in only one direction due to the formation of any insulating oxide later. There are many ceramic compounds which have metallic electrical conduction, but are not simple combinations of metallic elements. (They are not
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#17327725272731056-432: A solid wire of the same diameter because the cross-section of the stranded wire is not all copper; there are unavoidable gaps between the strands (this is the circle packing problem for circles within a circle ). A stranded wire with the same cross-section of conductor as a solid wire is said to have the same equivalent gauge and is always a larger diameter. However, for many high-frequency applications, proximity effect
1144-400: A star until they form cadmium-115 nuclei which are unstable and decay to form indium-115 (which is nearly stable, with a half-life 30 000 times the age of the universe). These nuclei capture neutrons and form indium-116, which is unstable, and decays to form tin-116, and so on. In contrast, there is no such path in the r-process. The s-process stops at bismuth due to the short half-lives of
1232-401: Is a 2/0 wire made from 5,292 strands of No. 36 gauge wire. The strands are organized by first creating a bundle of 7 strands. Then 7 of these bundles are put together into super bundles. Finally 108 super bundles are used to make the final cable. Each group of wires is wound in a helix so that when the wire is flexed, the part of a bundle that is stretched moves around the helix to a part that
1320-403: Is a metal that is very resistant to heat and wear. Which metals belong to this category varies; the most common definition includes niobium, molybdenum, tantalum, tungsten, and rhenium as well as their alloys. They all have melting points above 2000 °C, and a high hardness at room temperature. Several compounds such as titanium nitride are also described as refractory metals. A white metal
1408-411: Is a piece of hard cast-iron or hard steel, or for fine work it may be a diamond or a ruby . The object of utilising precious stones is to enable the dies to be used for a considerable period without losing their size, and so producing wire of incorrect diameter. Diamond dies must be re-bored when they have lost their original diameter of hole, but metal dies are brought down to size again by hammering up
1496-611: Is any of a range of white-colored alloys with relatively low melting points used mainly for decorative purposes. In Britain, the fine art trade uses the term "white metal" in auction catalogues to describe foreign silver items which do not carry British Assay Office marks, but which are nonetheless understood to be silver and are priced accordingly. A heavy metal is any relatively dense metal, either single element or multielement. Magnesium , aluminium and titanium alloys are light metals of significant commercial importance. Their densities of 1.7, 2.7 and 4.5 g/cm range from 19 to 56% of
1584-484: Is composed mostly of iron, is thought to be the source of Earth's protective magnetic field. The core lies above Earth's solid inner core and below its mantle. If it could be rearranged into a column having a 5 m (54 sq ft) footprint it would have a height of nearly 700 light years. The magnetic field shields the Earth from the charged particles of the solar wind, and cosmic rays that would otherwise strip away
1672-492: Is compressed to allow the wire to have less stress. Prefused wire is stranded wire made up of strands that are heavily tinned , then fused together. Prefused wire has many of the properties of solid wire, except it is less likely to break. A braided wire consists of a number of small strands of wire braided together. Braided wires do not break easily when flexed. Braided wires are often suitable as an electromagnetic shield in noise-reduction cables. Wire has many uses. It forms
1760-611: Is due to the freely moving electrons which reflect light. Although most elemental metals have higher densities than nonmetals , there is a wide variation in their densities, lithium being the least dense (0.534 g/cm ) and osmium (22.59 g/cm ) the most dense. Some of the 6d transition metals are expected to be denser than osmium, but their known isotopes are too unstable for bulk production to be possible Magnesium, aluminium and titanium are light metals of significant commercial importance. Their respective densities of 1.7, 2.7, and 4.5 g/cm can be compared to those of
1848-624: Is evidence that this and comparable behavior in transuranic elements is due to more complex relativistic and spin interactions which are not captured in simple models. All of the metallic alloys as well as conducting ceramics and polymers are metals by the same definition; for instance titanium nitride has delocalized states at the Fermi level. They have electrical conductivities similar to those of elemental metals. Liquid forms are also metallic conductors or electricity, for instance mercury . In normal conditions no gases are metallic conductors. However,
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#17327725272731936-453: Is exposed to attack by corrosives, protection against the environment. Stranded wire is composed of a number of small wires bundled or wrapped together to form a larger conductor. Stranded wire is more flexible than solid wire of the same total cross-sectional area. Stranded wire is used when higher resistance to metal fatigue is required. Such situations include connections between circuit boards in multi-printed-circuit-board devices, where
2024-408: Is in no less demand for fencing, and much is consumed in the construction of suspension bridges , and cages, etc. In the manufacture of stringed musical instruments and scientific instruments, wire is again largely used. Carbon and stainless spring steel wire have significant applications in engineered springs for critical automotive or industrial manufactured parts/components. Pin and hairpin making;
2112-533: Is inserted into a tapered hole with a final diameter just smaller than its current width. Special pliers , called draw tongs are used to hold the tip of the wire and pull it through, sometimes with the aid of grease or wax as a lubricant . Small-diameter wire may be drawn manually, while very thick wire may require a drawing bench with a crank to produce enough force. Typically, a wire can be drawn three times in sequence before it needs to be re-annealed. This must be done because drawing wire hardens it, which causes
2200-485: Is more severe than skin effect, and in some limited cases, simple stranded wire can reduce proximity effect. For better performance at high frequencies, litz wire , which has the individual strands insulated and twisted in special patterns, may be used. The more individual wire strands in a wire bundle, the more flexible, kink-resistant, break-resistant, and stronger the wire becomes. However, more strands increases manufacturing complexity and cost. For geometrical reasons ,
2288-548: Is no external voltage . When a voltage is applied some move a little faster in a given direction, some a little slower so there is a net drift velocity which leads to an electric current. This involves small changes in which wavefunctions the electrons are in, changing to those with the higher momenta. Quantum mechanics dictates that one can only have one electron in a given state, the Pauli exclusion principle . Therefore there have to be empty delocalized electron states (with
2376-474: Is not. In the context of metals, an alloy is a substance having metallic properties which is composed of two or more elements . Often at least one of these is a metallic element; the term "alloy" is sometimes used more generally as in silicon–germanium alloys. An alloy may have a variable or fixed composition. For example, gold and silver form an alloy in which the proportions of gold or silver can be varied; titanium and silicon form an alloy TiSi 2 in which
2464-620: Is nowadays done by passing them through an extruder. Formerly, materials used for insulation included treated cloth or paper and various oil-based products. Since the mid-1960s, plastic and polymers exhibiting properties similar to rubber have predominated. Two or more wires may be wrapped concentrically, separated by insulation, to form coaxial cable . The wire or cable may be further protected with substances like paraffin , some kind of preservative compound, bitumen, lead , aluminum sheathing, or steel taping. Stranding or covering machines wind material onto wire which passes through quickly. Some of
2552-584: Is only from these and certain of their alloys with other metals, principally brass and bronze , that wire is prepared. By careful treatment, extremely thin wire can be produced. Special purpose wire is however made from other metals (e.g. tungsten wire for light bulb and vacuum tube filaments, because of its high melting temperature). Copper wires are also plated with other metals, such as tin, nickel, and silver to handle different temperatures, provide lubrication, and provide easier stripping of rubber insulation from copper. Metallic wires are often used for
2640-575: Is positioned at the center of a cube of eight others. In fcc and hcp, each atom is surrounded by twelve others, but the stacking of the layers differs. Some metals adopt different structures depending on the temperature. Many other metals with different elements have more complicated structures, such as rock-salt structure in titanium nitride or perovskite (structure) in some nickelates. The electronic structure of metals means they are relatively good conductors of electricity . The electrons all have different momenta , which average to zero when there
2728-462: Is the lowest that should be used (7 should only be used in applications where the wire is placed and then does not move), and 49 is much better. For applications with constant repeated movement, such as assembly robots and headphone wires, 70 to 100 is mandatory . For applications that need even more flexibility, even more strands are used (welding cables are the usual example, but also any application that needs to move wire in tight areas). One example
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2816-425: Is the proportion of its matter made up of the heavier chemical elements. The strength and resilience of some metals has led to their frequent use in, for example, high-rise building and bridge construction , as well as most vehicles, many home appliances , tools, pipes, and railroad tracks. Precious metals were historically used as coinage , but in the modern era, coinage metals have extended to at least 23 of
2904-417: The skin effect , resulting in increased power loss in the wire. Stranded wire might seem to reduce this effect, since the total surface area of the strands is greater than the surface area of the equivalent solid wire, but ordinary stranded wire does not reduce the skin effect because all the strands are short-circuited together and behave as a single conductor. A stranded wire will have higher resistance than
2992-602: The Bronze and Iron Ages in Europe for torcs and fibulae . Twisted square-section wires are a very common filigree decoration in early Etruscan jewelry. In about the middle of the 2nd millennium BCE, a new category of decorative tube was introduced which imitated a line of granules. True beaded wire, produced by mechanically distorting a round-section wire, appeared in the Eastern Mediterranean and Italy in
3080-474: The Burgers vector of the dislocations are fairly small, which also means that the energy needed to produce one is small. In contrast, in an ionic compound like table salt the Burgers vectors are much larger and the energy to move a dislocation is far higher. Reversible elastic deformation in metals can be described well by Hooke's Law for the restoring forces, where the stress is linearly proportional to
3168-488: The Fermi level , as against nonmetallic materials which do not. Metals are typically ductile (can be drawn into wires) and malleable (they can be hammered into thin sheets). A metal may be a chemical element such as iron ; an alloy such as stainless steel ; or a molecular compound such as polymeric sulfur nitride . The general science of metals is called metallurgy , a subtopic of materials science ; aspects of
3256-415: The periodic table . If there are several, the most stable allotrope is considered. The situation changes with pressure: at extremely high pressures, all elements (and indeed all substances) are expected to metallize. Arsenic (As) has both a stable metallic allotrope and a metastable semiconducting allotrope at standard conditions. A similar situation affects carbon (C): graphite is metallic, but diamond
3344-539: The strain . A temperature change may lead to the movement of structural defects in the metal such as grain boundaries , point vacancies , line and screw dislocations , stacking faults and twins in both crystalline and non-crystalline metals. Internal slip , creep , and metal fatigue may also ensue. The atoms of simple metallic substances are often in one of three common crystal structures , namely body-centered cubic (bcc), face-centered cubic (fcc), and hexagonal close-packed (hcp). In bcc, each atom
3432-486: The vicinity of iron (in the periodic table) are largely made via stellar nucleosynthesis . In this process, lighter elements from hydrogen to silicon undergo successive fusion reactions inside stars, releasing light and heat and forming heavier elements with higher atomic numbers. Heavier elements are not usually formed this way since fusion reactions involving such nuclei would consume rather than release energy. Rather, they are largely synthesised (from elements with
3520-470: The 8th and 10th centuries AD. There is some evidence for the use of drawing further East prior to this period. Square and hexagonal wires were possibly made using a swaging technique. In this method a metal rod was struck between grooved metal blocks, or between a grooved punch and a grooved metal anvil . Swaging is of great antiquity, possibly dating to the beginning of the 2nd millennium BCE in Egypt and in
3608-439: The Fermi energy. Many elements and compounds become metallic under high pressures, for example, iodine gradually becomes a metal at a pressure of between 40 and 170 thousand times atmospheric pressure . Sodium becomes a nonmetal at pressure of just under two million times atmospheric pressure, and at even higher pressures it is expected to become a metal again. When discussing the periodic table and some chemical properties
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3696-452: The added wire may be circular in cross-section ("round-wound"), or flattened before winding ("flat-wound"). Examples include: Metal A metal (from Ancient Greek μέταλλον ( métallon ) 'mine, quarry, metal') is a material that, when polished or fractured, shows a lustrous appearance, and conducts electricity and heat relatively well. These properties are all associated with having electrons available at
3784-483: The addition of chromium , nickel , and molybdenum to carbon steels (more than 10%) results in stainless steels with enhanced corrosion resistance. Other significant metallic alloys are those of aluminum , titanium , copper , and magnesium . Copper alloys have been known since prehistory— bronze gave the Bronze Age its name—and have many applications today, most importantly in electrical wiring. The alloys of
3872-599: The air to form oxides over various timescales ( potassium burns in seconds while iron rusts over years) which depend upon whether the native oxide forms a passivation layer that acts as a diffusion barrier . Some others, like palladium , platinum , and gold , do not react with the atmosphere at all; gold can form compounds where it gains an electron (aurides, e.g. caesium auride ). The oxides of elemental metals are often basic . However, oxides with very high oxidation states such as CrO 3 , Mn 2 O 7 , and OsO 4 often have strictly acidic reactions; and oxides of
3960-428: The bobbins; the latter being revolved at a suitable speed bodily with their disks, the cotton is consequently served on to the wire, winding in spiral fashion so as to overlap. If many strands are required the disks are duplicated, so that as many as sixty spools may be carried, the second set of strands being laid over the first. For heavier cables that are used for electric light and power as well as submarine cables,
4048-445: The chemical elements. There is also extensive use of multi-element metals such as titanium nitride or degenerate semiconductors in the semiconductor industry. The history of refined metals is thought to begin with the use of copper about 11,000 years ago. Gold, silver, iron (as meteoric iron), lead, and brass were likewise in use before the first known appearance of bronze in the fifth millennium BCE. Subsequent developments include
4136-406: The densities of other structural metals, such as iron (7.9) and copper (8.9) and their alloys. The term base metal refers to a metal that is easily oxidized or corroded , such as reacting easily with dilute hydrochloric acid (HCl) to form a metal chloride and hydrogen . The term is normally used for the elements, and examples include iron, nickel , lead , and zinc. Copper is considered
4224-495: The detailed structure of the metal's ion lattice. Taking into account the positive potential caused by the arrangement of the ion cores enables consideration of the electronic band structure and binding energy of a metal. Various models are applicable, the simplest being the nearly free electron model . Modern methods such as density functional theory are typically used. The elements which form metals usually form cations through electron loss. Most will react with oxygen in
4312-440: The earliest known written references to wire-making is Exodus 39:3 , which suggests that gold was hammered into sheets, cut into strips, and then these strips were made into gold wire, but the precise technique is not clear. The oldest clear written descriptions of the method are the twelfth-century De diversis artibus by Theophilus Presbyter and the sixteenth-century De la pirotechnia by Vannoccio Biringuccio . As of 2023,
4400-429: The electronic and thermal properties are also within the scope of condensed matter physics and solid-state chemistry , it is a multidisciplinary topic. In colloquial use materials such as steel alloys are referred to as metals, while others such as polymers, wood or ceramics are nonmetallic materials . A metal conducts electricity at a temperature of absolute zero , which is a consequence of delocalized states at
4488-456: The elements from fermium (Fm) onwards are shown in gray because they are extremely radioactive and have never been produced in bulk. Theoretical and experimental evidence suggests that these uninvestigated elements should be metals, except for oganesson (Og) which DFT calculations indicate would be a semiconductor. Metallic Network covalent Molecular covalent Single atoms Unknown Background color shows bonding of simple substances in
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#17327725272734576-433: The f-block elements. They have a strong affinity for oxygen and mostly exist as relatively low-density silicate minerals. Chalcophile elements are mainly the less reactive d-block elements, and the period 4–6 p-block metals. They are usually found in (insoluble) sulfide minerals. Being denser than the lithophiles, hence sinking lower into the crust at the time of its solidification, the chalcophiles tend to be less abundant than
4664-526: The form of chains and applied decoration that is accurately made and which must have been produced by some efficient, if not technically advanced, means. In some cases, strips cut from metal sheet were made into wire by pulling them through perforations in stone beads. This causes the strips to fold round on themselves to form thin tubes. This strip drawing technique was in use in Egypt by the 2nd Dynasty ( c. 2890 – c. 2686 BCE ). From
4752-724: The higher momenta) available at the highest occupied energies as sketched in the Figure. In a semiconductor like silicon or a nonmetal like strontium titanate there is an energy gap between the highest filled states of the electrons and the lowest unfilled, so no accessible states with slightly higher momenta. Consequently, semiconductors and nonmetals are poor conductors, although they can carry some current when doped with elements that introduce additional partially occupied energy states at higher temperatures. The elemental metals have electrical conductivity values of from 6.9 × 10 S /cm for manganese to 6.3 × 10 S/cm for silver . In contrast,
4840-550: The hole and then drifting it out to correct diameter with a punch." Wire is often reduced to the desired diameter and properties by repeated drawing through progressively smaller dies, or traditionally holes in draw plates . After a number of passes the wire may be annealed to facilitate more drawing or, if it is a finished product, to maximise ductility and conductivity . Electrical wires are usually covered with insulating materials , such as plastic, rubber-like polymers, or varnish. Insulating and jacketing of wires and cables
4928-431: The hollow shaft. This disk has perforations through which each of the strands pass, thence being immediately wrapped on the cable, which slides through a bearing at this point. Toothed gears having certain definite ratios are used to cause the winding drum for the cable and the cage for the spools to rotate at suitable relative speeds which do not vary. The cages are multiplied for stranding with many tapes or strands, so that
5016-436: The known examples of half-metals are oxides , sulfides , or Heusler alloys . A semimetal is a material with a small energy overlap between the bottom of the conduction band and the top of the valence band , but they do not overlap in momentum space . Unlike a regular metal, semimetals have charge carriers of both types (holes and electrons), although the charge carriers typically occur in much smaller numbers than in
5104-482: The less electropositive metals such as BeO, Al 2 O 3 , and PbO, can display both basic and acidic properties. The latter are termed amphoteric oxides. The elements that form exclusively metallic structures under ordinary conditions are shown in yellow on the periodic table below. The remaining elements either form covalent network structures (light blue), molecular covalent structures (dark blue), or remain as single atoms (violet). Astatine (At), francium (Fr), and
5192-408: The lithophiles. On the other hand, gold is a siderophile, or iron-loving element. It does not readily form compounds with either oxygen or sulfur. At the time of the Earth's formation, and as the most noble (inert) of metallic elements, gold sank into the core due to its tendency to form high-density metallic alloys. Consequently, it is relatively rare. Some other (less) noble ones—molybdenum, rhenium,
5280-432: The lower-pitched sound-producing "strings" in stringed instruments , such as violins , cellos , and guitars , and percussive string instruments such as pianos , dulcimers , dobros , and cimbaloms . To increase the mass per unit length (and thus lower the pitch of the sound even further), the main wire may sometimes be helically wrapped with another, finer strand of wire. Such musical strings are said to be "overspun";
5368-416: The lowest number of strands usually seen is 7: one in the middle, with 6 surrounding it in close contact. The next level up is 19, which is another layer of 12 strands on top of the 7. After that the number varies, but 37 and 49 are common, then in the 70 to 100 range (the number is no longer exact). Larger numbers than that are typically found only in very large cables. For application where the wire moves, 19
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#17327725272735456-408: The machines are somewhat different in construction. The wire is still carried through a hollow shaft, but the bobbins or spools of covering material are set with their spindles at right angles to the axis of the wire, and they lie in a circular cage which rotates on rollers below. The various strands coming from the spools at various parts of the circumference of the cage all lead to a disk at the end of
5544-407: The metallic alloys in use today, the alloys of iron ( steel , stainless steel , cast iron , tool steel , alloy steel ) make up the largest proportion both by quantity and commercial value. Iron alloyed with various proportions of carbon gives low-, mid-, and high-carbon steels, with increasing carbon levels reducing ductility and toughness. The addition of silicon will produce cast irons, while
5632-400: The middle of the 2nd millennium BCE most of the gold wires in jewelry are characterized by seam lines that follow a spiral path along the wire. Such twisted strips can be converted into solid round wires by rolling them between flat surfaces or the strip wire drawing method. The strip twist wire manufacturing method was superseded by drawing in the ancient Old World sometime between about
5720-519: The needle and fish-hook industries; nail, peg, and rivet making; and carding machinery consume large amounts of wire as feedstock. Not all metals and metallic alloys possess the physical properties necessary to make useful wire. The metals must in the first place be ductile and strong in tension, the quality on which the utility of wire principally depends. The principal metals suitable for wire, possessing almost equal ductility, are platinum , silver , iron , copper , aluminium, and gold ; and it
5808-401: The next two elements, polonium and astatine, which decay to bismuth or lead. The r-process is so fast it can skip this zone of instability and go on to create heavier elements such as thorium and uranium. Metals condense in planets as a result of stellar evolution and destruction processes. Stars lose much of their mass when it is ejected late in their lifetimes, and sometimes thereafter as
5896-493: The nitrogen. However, unlike most elemental metals, ceramic metals are often not particularly ductile. Their uses are widespread, for instance titanium nitride finds use in orthopedic devices and as a wear resistant coating. In many cases their utility depends upon there being effective deposition methods so they can be used as thin film coatings. There are many polymers which have metallic electrical conduction, typically associated with extended aromatic components such as in
5984-623: The older structural metals, like iron at 7.9 and copper at 8.9 g/cm . The most common lightweight metals are aluminium and magnesium alloys. Metals are typically malleable and ductile, deforming under stress without cleaving . The nondirectional nature of metallic bonding contributes to the ductility of most metallic solids, where the Peierls stress is relatively low allowing for dislocation motion, and there are also many combinations of planes and directions for plastic deformation . Due to their having close packed arrangements of atoms
6072-702: The other three metals have been developed relatively recently; due to their chemical reactivity they need electrolytic extraction processes. The alloys of aluminum, titanium, and magnesium are valued for their high strength-to-weight ratios; magnesium can also provide electromagnetic shielding . These materials are ideal for situations where high strength-to-weight ratio is more important than material cost, such as in aerospace and some automotive applications. Alloys specially designed for highly demanding applications, such as jet engines , may contain more than ten elements. Metals can be categorised by their composition, physical or chemical properties. Categories described in
6160-400: The overall scarcity of some heavier metals such as copper, they can become concentrated in economically extractable quantities as a result of mountain building, erosion, or other geological processes. Metallic elements are primarily found as lithophiles (rock-loving) or chalcophiles (ore-loving). Lithophile elements are mainly the s-block elements, the more reactive of the d-block elements, and
6248-420: The platinum group metals (ruthenium, rhodium, palladium, osmium, iridium, and platinum), germanium, and tin—can be counted as siderophiles but only in terms of their primary occurrence in the Earth (core, mantle, and crust), rather the crust. These otherwise occur in the crust, in small quantities, chiefly as chalcophiles (less so in their native form). The rotating fluid outer core of the Earth's interior, which
6336-547: The polymers indicated in the Figure. The conduction of the aromatic regions is similar to that of graphite, so is highly directional. A half-metal is any substance that acts as a conductor to electrons of one spin orientation, but as an insulator or semiconductor to those of the opposite spin. They were first described in 1983, as an explanation for the electrical properties of manganese -based Heusler alloys . Although all half-metals are ferromagnetic (or ferrimagnetic ), most ferromagnets are not half-metals. Many of
6424-401: The production of early forms of steel; the discovery of sodium —the first light metal —in 1809; the rise of modern alloy steels ; and, since the end of World War II, the development of more sophisticated alloys. Most metals are shiny and lustrous , at least when polished, or fractured. Sheets of metal thicker than a few micrometres appear opaque, but gold leaf transmits green light. This
6512-408: The ratio between thermal and electrical conductivities is proportional to temperature, with a proportionality constant that is roughly the same for all metals. The contribution of a metal's electrons to its heat capacity and thermal conductivity, and the electrical conductivity of the metal itself can be approximately calculated from the free electron model . However, this does not take into account
6600-415: The ratio of the two components is fixed (also known as an intermetallic compound ). Most pure metals are either too soft, brittle, or chemically reactive for practical use. Combining different ratios of metals and other elements in alloys modifies the properties to produce desirable characteristics, for instance more ductile, harder, resistant to corrosion, or have a more desirable color and luster. Of all
6688-579: The raw material of many important manufacturers , such as the wire netting industry, engineered springs, wire-cloth making and wire rope spinning, in which it occupies a place analogous to a textile fiber . Wire-cloth of all degrees of strength and fineness of mesh is used for sifting and screening machinery, for draining paper pulp, for window screens, and for many other purposes. Vast quantities of aluminium , copper , nickel and steel wire are employed for telephone and data cables , and as conductors in electric power transmission , and heating . It
6776-416: The rigidity of solid wire would produce too much stress as a result of movement during assembly or servicing; A.C. line cords for appliances; musical instrument cables; computer mouse cables; welding electrode cables; control cables connecting moving machine parts; mining machine cables; trailing machine cables; and numerous others. At high frequencies, current travels near the surface of the wire because of
6864-425: The sale price of the metal(s) involved make it economically feasible to mine lower concentration sources. Draw plate Before drawing, the draw plate is held securely in a vise or other fixture. The plate is oriented so that the wider end of a tapered opening can receive a metal wire which is to be pulled through it. Annealed soft, ductile wire is filed at one end to give it an initial taper. The tapered end
6952-416: The same as cermets which are composites of a non-conducting ceramic and a conducting metal.) One set, the transition metal nitrides has significant ionic character to the bonding, so can be classified as both ceramics and metals. They have partially filled states at the Fermi level so are good thermal and electrical conductors, and there is often significant charge transfer from the transition metal atoms to
7040-419: The second half of the 17th century. Despite the existence of mills, the drawing of wire down to fine sizes continued to be done manually. According to a description in the early 20th century, "[w]ire is usually drawn of cylindrical form; but it may be made of any desired section by varying the outline of the holes in the draw-plate through which it is passed in the process of manufacture. The draw-plate or die
7128-558: The seventh century BCE, perhaps disseminated by the Phoenicians . Beaded wire continued to be used in jewellery into modern times, although it largely fell out of favour in about the tenth century CE when two drawn round wires, twisted together to form what are termed 'ropes', provided a simpler-to-make alternative. A forerunner to beaded wire may be the notched strips and wires which first occur from around 2000 BCE in Anatolia . Wire
7216-430: The smallest machines for cotton covering have a large drum, which grips the wire and moves it through toothed gears; the wire passes through the centre of disks mounted above a long bed, and the disks carry each a number of bobbins varying from six to twelve or more in different machines. A supply of covering material is wound on each bobbin, and the end is led on to the wire, which occupies a central position relatively to
7304-635: The subsections below include ferrous and non-ferrous metals; brittle metals and refractory metals ; white metals; heavy and light metals; base , noble , and precious metals as well as both metallic ceramics and polymers . The term "ferrous" is derived from the Latin word meaning "containing iron". This can include pure iron, such as wrought iron , or an alloy such as steel . Ferrous metals are often magnetic , but not exclusively. Non-ferrous metals and alloys lack appreciable amounts of iron. While nearly all elemental metals are malleable or ductile,
7392-474: The term base metal is contrasted with precious metal , that is, those of high economic value. Most coins today are made of base metals with low intrinsic value ; in the past, coins frequently derived their value primarily from their precious metal content; gold , silver , platinum , and palladium each have an ISO 4217 currency code. Currently they have industrial uses such as platinum and palladium in catalytic converters , are used in jewellery and also
7480-634: The term metal is often used to denote those elements which in pure form and at standard conditions are metals in the sense of electrical conduction mentioned above. The related term metallic may also be used for types of dopant atoms or alloying elements. In astronomy metal refers to all chemical elements in a star that are heavier than helium . In this sense the first four "metals" collecting in stellar cores through nucleosynthesis are carbon , nitrogen , oxygen , and neon . A star fuses lighter atoms, mostly hydrogen and helium, into heavier atoms over its lifetime. The metallicity of an astronomical object
7568-496: The upper atmosphere (including the ozone layer that limits the transmission of ultraviolet radiation). Metallic elements are often extracted from the Earth by mining ores that are rich sources of the requisite elements, such as bauxite . Ores are located by prospecting techniques, followed by the exploration and examination of deposits. Mineral sources are generally divided into surface mines , which are mined by excavation using heavy equipment, and subsurface mines . In some cases,
7656-483: The wire to become brittle. Brittle wire that has not been annealed may snap during the drawing process (or develop microscopic or macroscopic cracks, which may weaken the piece or "grow" with further working). With a mandrel , a draw plate can be used to draw tubes of metal. Plates are available in many different sizes and shapes for drawing different shapes of wire, including round, square, oval, half-round, and hexagonal. The origins of wire-drawing are uncertain. One of
7744-608: Was drawn in England from the medieval period. The wire was used to make wool cards and pins, manufactured goods whose import was prohibited by Edward IV in 1463. The first wire mill in Great Britain was established at Tintern in about 1568 by the founders of the Company of Mineral and Battery Works , who had a monopoly on this. Apart from their second wire mill at nearby Whitebrook, there were no other wire mills before
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