454 BOOK X. 



consist of half a libra of brick dust, a quarter of a libra of salt, an uncia of salt- 

 petre, half an uncia of sal-ammoniac, and half an uncia of rock salt. The bricks 

 or tiles from which the dust is made must be composed of fatty clays, free from 

 sand, grit, and small stones, and must be moderately burnt and very old. 

 Another cement is made of a bes of brick dust, a third of rock salt, an 

 uncia of saltpetre, and half an uncia of refined salt. Another cement is made 

 of a bes of brick dust, a quarter of refined salt, one and a half unciae of 

 saltpetre, an uncia of sal-ammoniac, and half an uncia of rock salt. Another 

 has one libra of brick dust, and half a libra of rock salt, to which some add a 

 sixth of a libra and a sicilicus of vitriol. Another is made of half a libra of 

 brick dust, a third of a libra of rock salt, an uncia and a half of vitriol, and 

 one uncia of saltpetre. Another consists of a bes of brick dust, a third of 

 refined salt, a sixth of white vitrioP^, half an uncia of verdigris, and likewise 

 half an uncia of saltpetre. Another is made of one and a third librae of brick 

 dust, a bes of rock salt, a sixth of a libra and half an uncia of sal-ammoniac, 

 a sixth and half an uncia of vitriol, and a sixth of saltpetre. Another contains 

 a libra of brick dust, a third of refined salt, and one and a half unciae of vitriol. 



The process as here described falls into five operations : a, granulation of the bulUon 

 or preparation of leaves ; b, heating alternate layers of cement and bullion in pots ; c, 

 washing the gold to free it of cement ; d, melting the gold with borax or soda ; e, 

 treatment of the cement by way of melting with lead and cupellation to recover the silver. 

 Investigation by Boussingalt (Ann. De Chimie, 1833, p. 253-6), D'Elhuyar (Bergbatikunde, 

 Leipzig, 1790, Vol. 11, p. 200), and Percy (Metallurgy of Silver and Gold, p. 395), of the 

 action of common salt upon silver under cementation conditions, fairly well demonstrated 

 the reactions involved in the use of this species of cement. Certain factors are essential 

 besides salt : a, the admission of air, which is possible through the porous pots used ; b, the 

 presence of some moisture to furnish hydrogen ; c, the addition of alumina or silica. The 

 first would be provided by Agricola in the use of new pots, the second possibly by use of wood 

 fuel in a closed furnace, the third by the inclusion of brickdust. The alumina or silica at 

 high temperatures decomposes the salt, setting free hydrochloric acid and probably also free 

 chlorine. The result of the addition of vitriol in Agricola's ingredients is not discussed by 

 those investigators, but inasmuch as vitriol decomposes into sulphuric acid under high 

 temperatures, this acid would react upon the salt to free hydrochloric acid, and thus assist 

 to overcome deficiencies in the other factors. It is possible also that sulphuric acid under 

 such conditions would react directly upon the silver to form silver sulphates, which would 

 be absorbed into the cement. As nitric acid is formed by vitriol and saltpetre at high tem- 

 peratures, the use of these two substances as a cementing compound would produce nitric 

 acid, which would at once attack the silver to form silver nitrate, which would be absorbed into 

 the melted cement. In this case the brickdust probably acted merely as a vehicle for the 

 absorption, and to lower the melting point of the mass and prevent fusion of the metal. 

 While nitric acid will only part gold and silver when the latter is in great excess, yet when 

 applied as fumes under cementation conditions it appears to react upon a minor ratio of 

 silver. While the reactions of the two above species of compounds can be accounted for in a 

 general way, the problem furnished by Agricola's statements is by no means simple, for 

 only two of his compounds are simply salt cements, the others being salt and nitre mixtures. 

 An inspection of these compounds produces at once a sense of confusion. Salt is present in 

 every compound, saltpetre in all but two, vitriol in all but three. Lewis [Traite Singulier de 

 Metallique, Paris, 1743, 11, pp. 48-60), in discussing these processes, states that salt and salt- 

 petre must never be used together, as he asserts that in this case aqua regia would be formed 

 and the gold dissolved. Agricola, however, apparently found no such difficulty. As to 

 the other ingredients, apart from nitre, salt, vitriol, and brickdust, they can have been of no 

 use. Agricola himself points out that ingredients of " metallic origin " corrupt the gold and that 

 brickdust and common salt are sufficient. In a description of this process in the Probierbiichlein 

 (p. 58), no nitre is mentioned. This booklet does mention the recovery of the silver from 

 the cement by amalgamation with mercury — the earliest mention of silver amalgamation. 



i^While a substance which we now know to be natural zinc sulphate was known to 

 Agricola (see note 11, p. 572), it is hardly possible that it is referred to here If green vitriol 

 be dehydrated and powdered, it is white. 



