Determination of Silver and Base Metal in Precious Metal Bullion

weighed. The difference between the weight of the button of gold and silver, when corrected by the proof, and the sample taken, is called base metal t...
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T H E J O U R N A L O F I i Y D U S T R I A L A N D ENGI-VEERING C H E M I S T R Y

after experience h a s been gained, t h e a m o u n t of water, a n d in due ratio t h e t o t a l a m o u n t of alcohol, m a y be somewhat reduced. T h e solution, still a t 40 t o 45' C., is r u n through a n u m b e r of fine jets into four liters of g j per cent alcohol, with continuous stirring. T h e whole is left for at least 48 hours with a n occasional thorough stirring after which most of t h e s u p e r n a t a n t alcohol is decanted a n d t h e rest used t o transfer t h e starch t o a two-quart percolator provided with a filter plate which is covered with filter paper or cloth. Here i t is percolated with 9j per cent alcohol, being stirred u p with a stick at intervals t o prevent t h e formation of clumps or fissures, until alcohol comes through t h e percolator of a specific gravity indicating a strength of 90 per cent. T h e starch is t h e n transferred t o a Buchner funnel, well drained with suction a n d spread out t o d r y i n a moderately warm place. T h e resulting product is a fine white voluminous powder, more or less compacted t o friable lumps which completely disintegrate under slight pressure. I n less t h a n a minute, a little of i t €hrown i n t o cold water dissolves sufficiently t o yield a good blue upon t h e addition of potassium iodide a n d iodine. Moistened with water o r dilute alcohol, i t becomes g u m m y a n d subsequently dries o u t t o a horny mass, very slowly soluble in cold water. T h e efficiency of t h e preparation, therefore, resides largely in i t s fine s t a t e of subdivision a n d care must be t a k e n during t h e process of preparation not t o expose i t t o air until after thorough digestion with alcohol of 90 per cent strength. After drying i t should be preserved from moist air, though i t is not injured b y exposure t o ordinary atmospheric conditions. T h e advantages of t h e material for iodine titrations made in t h e field with a portable outfit are sufficiently obvious. It id also a very convenient substance t o have a b o u t a laboratory, although for highly accurate titrations it is somewhat inferior in sensitiveness a n d delicacy t o a properly prepared fresh solution made from r a w starch. Since t h e above described process was worked o u t , Fernbach' has described very similar observations; namely, t h a t a dilute starch paste or solution r u n in a fine stream into a large excess of absolute alcohol or acetone, produces a finely divided precipitate a-hich is soluble in cold water. H e apparently a t t r i b u t e s t h e soluble qualities of t h e resulting product t o t h e dehydrating action of t h e alcohol or acetqne. Inasmuch as t h e horny form of precipitated starch previously mentioned, a n d indeed r a w starch as well, becomes soluble in cold water when finely ground, t h e present writer believes t h a t t h e prime factor which determines t h e readiness with which precipitated starch dissolves in water is simply t h e degree of fineness of i t s mechanical subdivision. It was early found t h a t t h e more dilute t h e original starch solution a n d t h e greater t h e excess of alcohol, t h e finer, more voluminous a n d more readily soluble in water became t h e resulting product, b u t n a t urally, t h e less practical became t h e process. BIOCHEMIC DIVISION, BUREAUO F ANIMALI N D U S T R Y s. DEPARTMENT O F AGRICULTURE, W A S H I N G T O N

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Ongrnal Communicatrons, Eighth International Congress of A p p l r e d Chemistry. 13 (1912). 131. 1

Vol. 6 , No. 8

DETERMINATION OF SILVER AND BASE METAL IN PRECIOUS METAL BULLION' By FREDERIC P. D E W E Y ~

Received May 15. 1914

T h e determination of silver in gold bullion b y cupellation methods is such a simple m a t t e r a n d so easily executed t h a t i t has long been t h e s t a n d a r d a n d almost universally accepted method, b u t t h e investigations described in this paper show t h a t i t has most serious a n d incurable defects. I n making a n assay of gold bullion for base metal, which is t h e basis for t h e silver determination, t h e base metal is n o t entirely removed f r o m t h e b u t t o n , a n d n o means are a t present available f o r insuring t h e presence of even approximately t h e same a m o u n t of remaining base metals in duplicate buttons. T h e judgment of t h e cupeller is t h e only guide in t h e matter. T h e a m o u n t of gold a n d silver absorbed b y t h e cupel m a y v a r y greatly in duplicates. T h e proofs are subject t o t h e same variations as t h e assays, a n d i t is purely a m a t t e r of chance whether t h e y give t h e proper correction figures or n o t , a n d t h e y m a y fall f a r short of doing so. These difficulties are inherent in t h e work of a n y one assayer, b u t when different assayers work upon t h e same sample, particularly in different laboratories, t h e opportunities for variation are multiplied; when t h e y work upon different samples of t h e same bullion, there is n o telling how widely they m a y differ in their reports, even upon apparently docile bullion. There is urgent need for a better method, b u t a thoroughly better one is not yet available a n d undoubtedly t h e cupellation method will remain in use for m a n y years t o come. This paper further describes a n a t t e m p t t o establish a better method b y means of fusion with cadmium a n d titration with sulfocyanate, which, while not entirely successful, is very promising. Comparative tests b y cadmium fusion a n d Gay-Lussac titrations are also described. During t h e fiscal year ended June 30, 1912,t h e M i n t service of t h e United States Treasury purchased 7 4 , 1 j 9 deposits a n d redeposits of bullion, most of which contained more or less silver. I n t h e vest majority of cases t h e fineness of t h e silver i n t h e bars was not determined directly, b u t b y a method of differences based upon cupellations b y which t h e fineness of gold a n d base metal present were determined, t h e difference between these t w o actual determinations a n d 1000 being called t h e silver fineness. There are two general methods of arriving a t t h e silver result. T h e actual assaying work in both cases is t h e same, b u t t h e methods of calculzting t h e results differ. I n both of t h e m t h e gold fineness is first determined b y a separate assay. T h e n , in one method of calculating, t h e combined gold a n d silver fineness are determined by a second assay a n d t h e gold figure subtracted from t h e combined gold a n d silver figure t o give t h e silver fineness. I n t h e second method of calculating, t h e result of t h e second cupellation is s t a t e d as t h e loss on cupellation, or base metal, a n d t h e s u m of this determination a n d t h e gold determination is subtracted from 1000 t o give t h e silver fineness. 1

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Published by permission of the Director of the Mint. Assayer, Bureau of the Mint.

Aug., 1914

T H E J O U R N A L OF I N D U S T R I A L A N D E N G I N E E R I N G C H E M I S T R Y

M a n y of these deposits were purchased a t t h e smaller assay offices of t h e United States, scattered all over t h e country, a n d were subsequently shipped t o t h e larger offices t o be refined.. These larger offices necessarily treated t h e smaller ones just as though t h e y were outsiders, making their own weights a n d assays a n d often remelting t h e bullion before accepting t h e bar. Naturally there are a t times differences between purchasing a n d redeposit offices. Taking t h e figures of t h e purchasing offices as a basis, Table I shows t h e relation between t h e silver determinations of t h e purchasing offices a n d those of t h e redeposit offices upon j j 9 redeposits last year which were not remelted a t the redeposit offices. I t gives t h e number of times they agreed in their silver determinations a n d t h e number of times t h e y differed in fineness b y t h e a m o u n t stated. TABLE1-SILVER

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3 21

7

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F r o m Table I i t is a p p a r e n t t h a t t h e general tendency of t h e redeposit office is t o get higher results on t h e silver t h a n t h e purchasing office. It is barely possible t h a t a very few of t h e results a t one redeposit office were not obtained b y cupellation. Of course, some of t h e differences shown are due t o differences in t h e samples used for t h e assay work, b u t t h e differences are still much t o o large in m a n y cases a n d call for improvement in t h e assaying or for t h e substitution of some other method for determining t h e silver. I t is evident t h a t t h e silver result is naturally open t o considerable variation, because i t s accuracy is dependent upon t h e accuracy of t h e t w o determinations which are actually made. When t h e net errors of t h e t w o actual determinations are opposite it m a y happen t h a t t h e silver figure will be close t o t h e t r u t h , b u t when they are both on t h e same side t h e error in t h e silver determination m a y be quite large. I have published t w o papers1 dealing with t h e accuracy of t h e determination of gold i n bullion, showing t h a t t h e accuracy often claimed for this determination is not generally obtained a n d t h a t in some bullions t h e gold determination cannot be depended upon within one fine. I n t h e presence of certain elements, such as arsenic a n d antimony a n d in t h e case of very impure bullion, such as some cyanide bars a n d some jewelry scrap, t h e go1.d assay is subject ta much wider variations a n d is entirely unsatisfactory of itself, to s a y nothing of its baneful influence upon t h e silver determinations b y cupellation differences. T h e cupellation for base. metal in gold bullion is a ridiculously simple operation a n d m a y be described in a very few words. T h e assay sample of t h e bullion is weighed, wrapped in t h e proper a m o u n t of sheet lead a n d cupelled, accompanied by t h e proper proofs, t o a b u t t o n of gold a n d silver, which is cleaned a n d “The Assay and Valuation of Gold Bullion.” Trans. A . I . M. E.. 40, A n n . Rept., Directov of the M i n t , 1908-9, p. 25. “The Sampling of Gold Bullion,’’ Trans. A . I . .M. E . , 44, 853. Orig. Com., 8th I n l . Cangr. A p p l . Chem., 1, 155. 1

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weighed. T h e difference between t h e weight of t h e b u t t o n of gold a n d silver, when corrected b y t h e proof, a n d t h e sample t a k e n , is called base metal t h a t has been driven off or absorbed b y t h e cupel. Aside from carelessness, there appear t o be b u t few chances for variation in t h e operation, b u t I shall show t h a t some of these chances are exceedingly potent. I t is a fair assumption t h a t t h e chances of error in weighing t h e assay sample a n d t h e resulting b u t t o n will be approximately t h e same as i n weighing t h e sample a n d cornet in t h e gold assay. I n view of t h e wide errors t h a t m a y occur further on in t h e work i t is safe enough t o p u t down t h e vitiation of t h e silver determination from this cause as being negligible for the present. I n t h e actual cupellation in t h e furnace for removal of t h e base metal, t h e first point t o a t t r a c t attention

h S A Y S ON

Redeposit office agreed with purchase office... . . . . . . . . . . . . . . . . . . . . . . . . . Redeposit office differed from purchase office. . . . . . . . . . . . . . . . . . . . . . . . . . . Difference in fineness.. . . . . . . . . . . . 112 1 11/2 2 21/2 . . . . . . . 5 7 56 44 28 32 Above.. . . . . . . . . . . . . . . . . . 59 43 41 21 .......................... 44 .......................... 101 115 87 69 53

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5 i 9 REDEPOSITS

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