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24 THE METALLUBGV OF ANTIMONY. The sulphide readily dissolves metallic antimony. In fact, antimony and antimony trisulphide are soluble in each other. This solution gives rise to" two layers, which have been studied by Chretien and Guinchant, and Pelabon. The specific density of a solution of antimony and antimony trisulphide is :— Temperature. 13 643 69S 1116 115o The Sb Layer. 6-75 ... 6*55 6*45 The composition of the Sb phase:— Temperatu Percent. re \ Metal. 539 595 640 660 698 I 11-28 1 13*2 i 14-34 ! 15-7 ! 16-5 Temperature. 702 : 750 ! 800 : 825 : 960 Specific Density. The SI.2Sa Layer. Per cent. Metal. 16-8 17-96 20-0 20-6 i 4*63 3*85 8-82 Temperature. 1036 1108 1130 1167 1180 Above 360° the reaction between SbJ33 and H is thus :— 2 + 3HoS Per cent. Metal. 21-0 21-8 21-3 21-2 211 {Berthier, Schneider, Rose). The relative importance of this reaction has been studied by Pelabon. Fluorine decomposes it in the cold, with the production of a blue flame and fluoride of antimony {Moissari). Chlorine reacts upon the crystallised surface in the cold; if heat is applied, the trichloride and chloride of sulphur are formed {Rose). Bromine attacks it when heated {Jannash and Remmler). With iodine it gives rise to iodine sulphide and the tri-iodide {Schneider). Air and oxygen oxidise it easily to Sb2O3 when heated. Biichner says, however, that the very finely pulverised powder can be acted upon by oxygen at ordinary temperatures. With ozone it forms the sulphate (Mailfert).
THE CHEMISTRY OF ANTIMONY. 25 Boiling water oxidises it slowly. According to De Clermont and Frommel, hydrogen sulphide is evolved at 89°. Oxidation is only accelerated in the presence of the vapour (Regnault). Hydrogen peroxide, according to Thenard, gives rise to the sulphate. If water is in excess, antimonic acid is produced (Zambelli and Zuzzato), and in the presence of the alkalies antimonates are formed (Hampe. Raschig). Hydrogen sulphide combines with it to form salts of sulphantimonites with the metals. Phosphorus hydride attacks it, with the formation of hydrogen sulphide and antimony phosphoride (E. Rose). With chloride of phosphorus it forms chloride of antimony and sulphide of phosphorus, and also sulphophosphoride of antimony (Brandimont). Carbon monoxide reduces it only partially, while carbon reduces it completely to the metallic state. The sulphide is desulphurised by potassium, sodium, copper, iron, and zinc. By heating the sulphide in a solution of ammonium chloride there is produced the chloride together with ammonium sulphide, which passes off with the aqueous vapour (Ph. de Glerrnont). A boiling alkaline solution decomposes it into the oxide, while sulphide of the alkalies is formed ; by a secondary reaction autimonites and sulphanthnonites are formed. The same result can be obtained by fusion. Sulpho-salts and sulphantimonites are formed by the reaction between the sulphide and alkaline sulphide. Carbonates of the alkalies act like the alkaline hydrate : they give rise to the formation of the oxide and sulphides of the alkalies, with evolution of carbonic acid; secondary actions produce sulphantimonites, antimonites, and antimony sulphide. The solution of the sulphide is never complete, even when it is heated; and, according to Terreil, carbonate of potassium does not help it. This has been demonstrated by Weppen and affirmed by Terreil. When a solution of sodium carbonate, to which the sulphide has been added, is being cooled, there are formed the sulphide, neutral and acid antimonites of sodium, and antimonious acid, constituting what is called " Kermes mineral." A solution of sulphurous gas has no action upon it (Berthier); but, according to Goverant, a small quantity of the sulphide is attacked, with the production of hydrogen sulphide and sulphur. Dilute sulphuric acid has no action upon the sulphide crystals, but attacks
Page 1 and 2: A N T I M O N Y : ITS HISTORY, CHEM
Page 3 and 4: PREFACE. A METALLURGICAL work in En
Page 5 and 6: TABLE OF CONTENTS. CHAPTER I. THE H
Page 7 and 8: THE METALLURGY OF ANTIMONY. CHAPTER
Page 9 and 10: THE HISTORY OF ANTIMONY. 3 Basil Va
Page 11 and 12: THE HISTORY OF ANTIMONY. 3 precipit
Page 13 and 14: THE CHEMISTRY OF ANTIMONY. 7 antimo
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Page 19 and 20: THE CHEMISTRY OF ANTIMONY. 13 SECTI
Page 21 and 22: THE CHEMISTKY OF ANTIMONY. compound
Page 23 and 24: Chemical Formulae. K3SbCl6 Na3SbCl6
Page 25 and 26: THE CHEMISTRY OF ANTIMONY. 19 The o
Page 27 and 28: THE CHEMISTKY OF ANTIMONY. 21 a cop
Page 29: THE CHEMISTRY OF ANTIMONY. 23 (2b)
Page 33 and 34: Chemical Composition. (STH4)2Sb4S7
Page 35 and 36: THE CHEMISTRY OF ANTIMONY* 29 by di
Page 37 and 38: THE CHEMISTRY OF AOTIMONY. 227° =
Page 39 and 40: THE CHEMISTRY OF ANTIMONY. 33 Some
Page 41 and 42: CHAPTER TIT. THE MINERALOGY OF ANTI
Page 43 and 44: THE MINERALOGY OF ANTIMONY. 37 Occu
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Page 53 and 54: THE GEOLOGICAL OCCURRENCE OF ANTIMO
Page 55 and 56: THE GEOLOGICAL OCCURRENCE OK ANTIMO
Page 57 and 58: TI1K ISKOIJOGIOAL OOCURUKNOK OV ANT
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Cross Section C.D.E.F Cross Section
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G. Y, Wang's Antiinony. [To face pa
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CHAPTER VIT. THE ANALYSIS OP ANTIMO
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CHAPTER VIII. THE PBODUCTION AND VA
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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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