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150 THE METALLURGY OF ANTIMONY. crucible, and, after its fusion, add 1 kilo, of copper, in shreds of plate, 5 kilos, of lead, and finally, after strong heating, 2 kilos, of antimony. Add to this mixture 1 kilo, of common type-metal (made from 25 kilos, of lead and 5 kilos, of antimony). The following is a list of the common type-metals :— Type-metal Stereotype plate Linotype metal Type-metal . . . . Lead. 55 60 70 82 55 61*3 69*2 80 50 65*1 8571 70 84*5 72 Antimony. 30 25 18 14*8 227 18*8 19*5 20 2777 5-82 33 34 14-29 15 13*5 18 Tin. 15' 15 10 3-2 22-1 20-2 9-1 ... 2 25 Copper. 2* 17 bismuth 22-23 bis. 29*58 •• • ... bismuth 15 (d) Hard Lead.—It is a particularly useful alloy, suitable for many technical purposes in which the lead, when used alone, possesses too low a melting-point; and further, it is used to make cocks and valves that come into contact with acids in chemical works. It is obtained from antimony ore containing much lead, and also as a by-product from smelting works. Its usual composition is 22 per cent. Sb and 78 per cent. Pb. Antimony-lead alloys, according to Matthiessen :— Antimony. 100 54-1 37-1 227 16-4 10-5 5-5 2*3 ... Composition. i Tjftarf i Atomic Leadc • Formula. I ... | Sb 45-9 i SboPb 62-9 i SbPb 77*3 ! SbPbo 83-6 SbPb3 8S-5 SbPb5 94-5 SbPb,0 97-7 SbPba, 00 . Pb Found. 6713 8-201 8-989 9*811 10-144 10-586 10-930 11-194 11-37(5 Calculated. 8*268 9*045 9-822 10-211 10*599 10-952 11-196 ... Specific Gravity. Difference. ... Exp. j Cont. 0-067 0-056 0-011 0*067 0*013 0'022 0-002 ;
THE ANTIMONY PREPARATIONS AND THEIR USES. 151 (e) Other Alloys of Less Importance.—An alloy for making the nails to be used in ships consists of : tin 50 per cent., lead 33 per cent., and antimony 17 per cent.; or 3 parts tin, 2 parts lead, and 1 part antimony. It is specially resistant against the continued action of water and atmosphere. Metallic mirrors, buttons, etc., have been made from the following alloys:— Antimony, silver, copper, zinc. „ tin, zinc, steel. ,, copper, iron, lead. ,, copper, tin, zinc. ,, copper, tin, lead. Alloys of Antimony and Hydrogen.—Antimony hydride is rather a chemical compound than an alloy, and is generally in the form of a gas. As a solid alloy it can be obtained by sending a current through a dilute sulphuric acid bath, the metal antimony being then negative. The hydrogen thus disengaged unites with the antimony to form brown flakes. If bichloride of mercury is introduced into the bath, an alloy consisting of hydrogen, antimony, and mercury is obtained, which becomes very unstable as soon as the galvanic current is stopped. The phenomenon of dissociation is accompanied by a development of heat and electricity, thus producing a reversing secondary current. Although the study of this curious and delicate reaction is still not far advanced, yet the results already obtained promise well for its future use in thp manufacture of secondary poles and ticcumulators. Antimony Amalgam.—Mercury dissolves antimony in different proportions, and forms white alloys, the fluidity of which decreases proportionately as the percentage of antimony increases. When in a solid state they are so fragile that they break up under the slightest shock. They are of theoretical interest only. Alloys of Antimony and the Alkalies.—Potash and soda are reduced with great facility by carbon in the presence of antimony, forming alloys which may contain the alkaline metals up to 25 per cent. This alloy is ordinarily prepared by heating to red heat for two or three hours a mixture of 6 parts of tartar emetic and 1 part of nitre, or equal parts of antimony and roasted cream of tartar. The metallic button thus obtained is very compact, greenish gray in colour, brittle, and lamellar in structure. It possesses some of the properties of potassium; when exposed to humid air it inflames rapidly; in water, it sets the hydrogen free, leaving behind a residue of antimony, while the potash remains in solution. In contact with mercury, the anti-
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A N T I M O N Y : ITS HISTORY, CHEM
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PREFACE. A METALLURGICAL work in En
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TABLE OF CONTENTS. CHAPTER I. THE H
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THE METALLURGY OF ANTIMONY. CHAPTER
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THE HISTORY OF ANTIMONY. 3 Basil Va
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THE HISTORY OF ANTIMONY. 3 precipit
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THE CHEMISTRY OF ANTIMONY. 7 antimo
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THE CHEMISTRY OF ANTIMONY. the red
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THE CHEMISTRY OF ANTIMONY. 11 The m
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THE CHEMISTRY OF ANTIMONY. 13 SECTI
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THE CHEMISTKY OF ANTIMONY. compound
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Chemical Formulae. K3SbCl6 Na3SbCl6
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THE CHEMISTRY OF ANTIMONY. 19 The o
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THE CHEMISTKY OF ANTIMONY. 21 a cop
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THE CHEMISTRY OF ANTIMONY. 23 (2b)
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THE CHEMISTRY OF ANTIMONY. 25 Boili
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Chemical Composition. (STH4)2Sb4S7
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THE CHEMISTRY OF ANTIMONY* 29 by di
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THE CHEMISTRY OF AOTIMONY. 227° =
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THE CHEMISTRY OF ANTIMONY. 33 Some
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CHAPTER TIT. THE MINERALOGY OF ANTI
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THE MINERALOGY OF ANTIMONY. 37 Occu
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THE MINERALOGY OF ANTIMONY. 39 Occu
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THE MINERALOGY OF ANTIMONY. 41 Miar
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THE MINEIIALOGY OF ANTIMONY. 43 Occ
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THE MINERALOGY OF ANTIMONY. 45 3. D
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THE GEOLOGICAL OCCURRENCE OF ANTIMO
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THE GEOLOGICAL OCCURRENCE OK ANTIMO
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TI1K ISKOIJOGIOAL OOCURUKNOK OV ANT
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THE GEOLOGICAL OCCUERENCE OF ANTIMO
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THE GEOLOGICAL OCCUBRENCE OF ANTIMO
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TIIK GEOLOGICAL OCCUKUENCK OF ANTIM
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THE GEOLOGICAL OCCUKRENCE OF ANTIMO
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GENERAL SCHEME OF THE METALLURGY OF
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CHAPTER V.* THE METALLUBGY OF ANTIM
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THE METALLURGY OF ANTIMONY. 71 rows
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THE METALLUKi'iY OF ANTIMONY. A goo
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THE METALLURGY OF ANTIMONY. The cos
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THE METALLURGY OF ANTIMONY. 77 fuel
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THE METALLURGY OF ANTIMONY. to furt
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THE METALLURGY OF ANTIMONY. with a
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THE METALLURGY OF ANTIMONY. 83 a re
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THE METALLURGY OF ANTIMONY. 85 (2)
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THE METALURGY OF ANTIMONY. 87 roast
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THE METALLURGY OF ANTIMONY. 89 Chat
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FIG. 28. ¥m. 29. a, Roasting furna
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THE METALLURGY OF ANTIMONY. '13 The
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THE METALLURGY OF ANTIMONY. of the
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THE METALLURGY OK ANTIMONY. The inf
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Cross Section C.D.E.F Cross Section
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200 THE METALLURGY OF ANTIMONY. Yea
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202 THE METALLUEGY OF ANTIMONY. Now
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204 THE METALLURGY OF ANTIMONY. ITA
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206 THE METALLURGY OF ANTIMONY. (13
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INDEX. AAEON, C. H., 191. Abegg, 34
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0 INDEX. bierre, 66, 67. 86, 154 ck
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212 INDEX. Gross-Gbllnitz, 70. Grii
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214 INDEX. Mines, antimony, 205, 20
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216 INDEX. Spain, antimony ores of,
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