- /tin/, n.taxpayer identification number.
* * *It is a soft, silvery white metal with a bluish tinge, employed since antiquity in the traditional form of bronze, its alloy with copper. It occurs chiefly as the dioxide (stannic oxide, SnO2) in cassiterite. Since it is nontoxic, ductile, malleable, and easily worked, it is used to plate steel cans ("tin cans") for use as food containers and to coat and plate other items. Pure tin is too weak to be used alone, but its many alloys include soft solder, pewter, bronze, and low-temperature casting alloys. It has valence 2 or 4 in compounds, including stannous chloride (used in tin galvanizing and manufacturing polymers and dyes), stannous oxide (used to make tin salts for chemical reagents and plating), stannous fluoride (used as an anticavity ingredient in toothpastes), stannic chloride (a stabilizer for perfumes and a source of other tin salts), and stannic oxide (a catalyst and a polishing powder for steel). Tin bonds with carbon to form organotin compounds, used to stabilize PVC and in biocides and fungicides.
* * *Introductiona chemical element belonging to the carbon family, Group 14 (IVa) of the periodic table. It is a soft, silvery-white metal with a bluish tinge, known to the ancients in bronze, an alloy with copper. Tin is widely used for plating steel cans used as food containers, in metals used for bearings, and in solder.The origins of tin are lost in antiquity. Bronzes, which are copper–tin alloys, were used by humans in prehistory long before pure tin metal itself was isolated. Bronzes were common in early Mesopotamia, the Indus Valley, Egypt, Crete, Israel, and Peru. Much of the tin used by the early Mediterranean peoples apparently came from the Scilly Isles and Cornwall in the British Isles, where tin mining dates to at least 300–200 BCE. Tin mines were operating in both the Inca and Aztec domains of South and Central America before the Spanish conquest. The symbol Sn for tin is an abbreviation of the Latin word for tin, stannum.Occurrence and distributionThe element is present in the igneous rocks of the Earth's crust to the extent of about 0.001 percent, which is scarce but not rare; its abundance is of the same order of magnitude as such technically useful elements as cobalt, nickel, copper, cerium, and lead, and it is essentially equal to the abundance of nitrogen. In the cosmos there are 1.33 atoms of tin per 1 × 106 atoms of silicon, an abundance roughly equal to that of niobium, ruthenium, neodymium, or platinum. Cosmically, tin is a product of neutron absorption. Its richness in stable isotopes is noteworthy.Tin occurs in grains of the native metal but chiefly as stannic oxide, SnO2, in the mineral cassiterite, the only tin mineral of commercial significance. The metal is obtained from cassiterite by reduction (removal of the oxygen) with coal or coke in smelting furnaces. No high-grade deposits are known. The major sources are alluvial deposits, averaging about 0.01 percent tin. The oldest tin mines were those in Cornwall, which were worked at least as early as Phoenician times but are no longer of major consequence, and Spain. Lode deposits, containing up to 4 percent, are found in Bolivia and Cornwall. Some 90 percent of world production comes from Malaysia, Thailand, Indonesia, Bolivia, Congo (Brazzaville), Congo (Kinshasa), Nigeria, and China. Several processes have been devised for reclaiming the metal from scrap tin or tin-plated articles. (For a full treatment of tin mining, refining, and recovery, see tin processing.)Properties of the elementTin is nontoxic, ductile, malleable, and adapted to all kinds of cold-working, such as rolling, spinning, and extrusion. The colour of pure tin is retained during exposure because a thin, invisible, protective film of stannic oxide is formed spontaneously by reaction with the oxygen of the air. The low melting point of tin and its firm adhesion to clean surfaces of iron, steel, copper, and copper alloys facilitate its use as an oxidation-resistant coating material. Tin exists in two different forms, or allotropes: the familiar form, white (or beta) tin, and gray (or alpha) tin, which is powdery and of little use. The gray form changes to the white above 13.2° C (55.8° F), rapidly at temperatures above 100° C (212° F); the reverse transformation, called tin pest, occurs at low temperatures and seriously hampers the use of the metal in very cold regions. This change is rapid only below −50° C (−58° F), unless catalyzed by gray tin or tin in the +4 oxidation state, but is prevented by small amounts of antimony, bismuth, copper, lead, silver, or gold normally present in commercial grades of tin.White tin has a body-centred tetragonal crystal structure, and gray tin has a face-centred cubic structure. When bent, tin makes an eerie, crackling “cry” as its crystals crush each other. Tin is attacked by strong acids and alkalies, but nearly neutral solutions do not affect it appreciably. Chlorine, bromine, and iodine react with tin, but fluorine reacts with it only slowly at room temperature. The relationships among the allotropic modifications of tin can be represented as transformations from one crystal type to another at specific temperatures:(The double arrows signify that the transformation occurs in both directions, as tin is heated or as it is cooled.)Tin exists in two oxidation states, +4 and +2. Elemental tin is readily oxidized to the dipositive ion in acidic solution, but this Sn2+ ion is converted to the Sn4+ ion by many mild oxidizing agents, including elemental oxygen. Oxidation under alkaline conditions normally gives the tetrapositive (Sn4+) state. In an alkaline medium, dipositive tin (Sn2+) disproportionates readily to tetrapositive tin and the free element.Tin has 10 stable isotopes, occurring in the following percentages in natural tin: tin-112, 0.97; tin-114, 0.65; tin-115, 0.36; tin-116, 14.53; tin-117, 7.68; tin-118, 24.22; tin-119, 8.58; tin-120, 32.59; tin-122, 4.63; and tin-124, 5.79.UsesTin-plating of iron protects the latter from corrosion; tin piping and valves maintain purity in water and beverages; molten tin is the base for (float) plate-glass production. Because pure tin is relatively weak, it is not put to structural uses unless alloyed with other metals in such materials as bronzes, pewter, bearing metals, type metals, lead-based solders, bell metal, babbitt metal, and low-temperature casting alloys. Tin oxide, in which tin is in the +4 oxidation state, is useful in making ceramic bodies opaque, as a mild abrasive, and as a weighting agent for fabrics. Tin fluoride and tin pyrophosphate, in which tin is in the +2 oxidation state, are used in dentifrices. Organic tin compounds act as stabilizers in certain plastics and as wood preservatives. A crystalline alloy with niobium is a superconductor at temperatures as high as 18 K (−427° F) and retains this property in very strong magnetic fields.Elemental tin is apparently nontoxic, and quantities of tin up to 300 parts per million, as dissolved by foods packaged in tin-plated containers and cooking utensils, are not harmful. Organic tin compounds commonly used as biocides and fungicides are, however, toxic to human beings.CompoundsTin forms two series of compounds: stannous, in which tin is in the +2 oxidation state, and stannic, in which it is in the +4 state. Some of the more commercially important stannous compounds are stannous chloride, SnCl2, used in tin galvanizing and as a reducing agent in the manufacture of polymers and dyes; stannous oxide, SnO, employed in making tin salts for chemical reagents and for plating; and stannous fluoride, SnF2, an active ingredient in toothpastes. Stannic compounds of significance include stannic chloride, SnCl4, widely used as a stabilizer for perfumes and as a starting material for other tin salts; and stannic oxide, SnO2, a useful catalyst in certain industrial processes and a polishing powder for steel.Tin can form a bond with carbon, as in the more than 500 known organotin compounds. Organotin stabilizers are used to prevent changes in polyvinyl chloride upon exposure to light and heat. A number of organotin compounds are major ingredients in biocides and fungicides.atomic number50atomic weight118.69melting point231.97° C (449.54° F)boiling point2,270° C (4,100° F)densitywhite7.28gray5.75 g/cm3oxidation states+2, +4electron config.[Kr]4d105s25p2
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Tin — is a chemical element with the symbol Sn ( la. stannum) and atomic number 50. This silvery, malleable poor metal that is not easily oxidized in air and resists corrosion, is found in many alloys and is used to coat other metals to prevent… … Wikipedia
Tin — Tin, n. [As. tin; akin to D. tin, G. zinn, OHG. zin, Icel. & Dan. tin, Sw. tenn; of unknown origin.] 1. (Chem.) An elementary substance found as an oxide in the mineral cassiterite, and reduced as a soft silvery white crystalline metal, with a… … The Collaborative International Dictionary of English
tin — (tĭn) n. 1. Symbol Sn A crystalline, silvery metallic element obtained chiefly from cassiterite, and having two notable allotropic forms. Malleable white tin is the useful allotrope, but at temperatures below 13.2°C it slowly converts to the… … Word Histories
Tin Oo — est un nom birman ; les principes des noms et prénoms ne s appliquent pas ; U et Daw sont des titres de respect. Tin Oo (né en 1927 et souvent appelé Thura Tin Oo ou U Tin Oo) est un général birman en retraite, ancien commandant en chef … Wikipédia en Français
TIN — Tin was essential for the production of bronze, which is an alloy of copper and tin. It was always a precious commodity and, like all metals, had to be imported to Mesopotamia. The first experiments in casing true tin bronze occurred in the… … Historical Dictionary of Mesopotamia
tin — /tɪn / (say tin) noun 1. a low melting, metallic element nearly approaching silver in colour and lustre, used in making alloys and in plating. Symbol: Sn; relative atomic mass: 118.69; atomic number: 50; density: 7.31 at 20°C. 2. tin plate. 3.… … Australian English dictionary
tin — [ tɛ̃ ] n. m. • 1465; du moy. fr. tin, tind ♦ Mar. Pièce de bois qui supporte la quille d un navire en construction. ⇒ béquille, billot, chantier. Tin de ber. ⊗ HOM. Tain, teint, thym. ● tin nom masculin Pièce de bois soutenant la quille d un… … Encyclopédie Universelle
tin — O.E. tin, from P.Gmc. *tinom (Cf. M.Du., Du. tin, O.H.G. zin, Ger. Zinn, O.N. tin), of unknown origin, not found outside Germanic. Other Indo European languages often have separate words for вЂњtinвЂќ as a raw metal and вЂњtin plate;вЂќ e.g. Fr.… … Etymology dictionary
tin — [tin] n. [ME < OE, akin to Ger zinn; only in Gmc languages] 1. a soft, silver white, crystalline, metallic chemical element, malleable at ordinary temperatures and used in making shiny alloys and tinfoils, solders, utensils, tin plate,… … English World dictionary
TIN — taxpayer identification number Nolo’s Plain English Law Dictionary. Gerald N. Hill, Kathleen Thompson Hill. 2009. TIN … Law dictionary