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7130570 
Journal Article 
Non-destructive evaluation of Roman coin patinas from the 3(rd) and 4(th) century 
Fawcett, TG; Blanton, , JR; Blanton, TN; Arias, L; Suscavage, T; , 
2018 
Powder Diffraction
ISSN: 0885-7156 
J C P D S-INT CENTRE DIFFRACTION DATA 
NEWTOWN SQ 
33 
88-97 
WOS:000437156500003 
Roman bronze coins from the 3(rd) and 4(th) century AD exhibit a wide variety of chemistries on their surfaces. This variation has been attributed to the variable methods used to produce the coins, a large number of mints producing bronze currency, and the periods of currency devaluation within the Roman Empire. Besides the base bronze metallurgy (Cu,Sn), Ag, Pb, and Zn were frequently used as coinage metals. Silver coatings were often applied to increase the apparent value of the coins. Over the centuries these surfaces corroded producing a range of patinas. Non-destructive Xray diffraction and X-ray fluorescence methods were used to evaluate ancient bronze coins. These methods are limited by their half depth of penetration into the coins, so the focus was on the chemistry of the patina's and how they related to the current appearance. Several 3(rd)-century bronze coins exhibited a very dark patina that was often composed of CuCl, Cu2O (cuprite) and several forms of copper hydroxyl chloride, resulting from surface deterioration caused by corrosion and is often referred to as bronze disease. Coins of the latter 3(rd) century and 4(th) century often exhibit patinas that are corrosion products of lead, silver, and tin, as lead and tin preferentially oxidize relative to the bronze alloys. (C) 2018 International Centre for Diffraction Data. 
Roman coins; XRD; XRF