REFERENCIAS
1. GOWLAND, W.
|Ihe Metallurgy of Non-Ferrous
Meta
|l
|s. 3rd. ed., C. Griffin, l.ondon (1921)
2. NEEDHAM, 1.
|Science and Civilization in China, vol. 5,
Cambridge University Press (1974), págs. 245-257.
3. CRADDOCK, P. T.
|Gold in Antique Copper Alloys. En:
,Gold Bulletin 15 (1982), págs. 69-72.
4. TYLECOTE, R. R. A History of Metallurgy. The Metals Society,
London (1976), págs. 37-38.
5. CIARKE, R. R. The early iron age treasure from Snettisham,
Norfolk. En:
|Proceedings of the Prehistoric Society 20
(1954), págs. 27-86.
6. LECHTMAN, H. N.
|The gilding of metals in pre-Columbian
Perú. En: Application 01 Science in mination of Worb of Art.
Ed. W. J. YOUNG, Museum of Fine Arts, Boston (1973), págs.
38-52.
7. DAS, H. A. Y ZONDERHUlS, J. T
|he analysis of electrum
coins. En: Archaeometry, 7. (1964), págs. 90-97.
8. SCOTI, D. A. Depletion gilding and surface treatment of gold
alloys from the Nariño area of ancient Colombia. En:
|Journal of
the Historical Metallurgy Society. (En proceso de
publicación).
9. RAPSON, W, S.
|Effects of biological systems on gold.
En: Gold Bulletin, 15 (1982) págs. 19-20.
10. VERNON, W. H. J. Tarnishing of silver and silver alloys.
Section IV of first experimental report to !he atmospheric
corrosion research committee. En:
|Transactions of the Faraday
Society, 19 (1 3), págs. 882-886.
11. VINAL, G. W. and SCHRAMM, G. N. The tarnishing and
detarnishing of silver. En: Metallndustry, 22 (1 4), págs. 1, 15,
100, 151, 231.
12. WEISSER, T. Structured questions section. En:
|Corrosion
and Metal Artifacts. Ed. B. F. BROWN el, al., NBS Special
Publication 479, US National Bureau of Standards. Washington D.C.
(1977), pág. 228.
13. TAMMANN, G., Y BRAUNS, E. Das Verhalten van Gold und
legierungen mil Silber und Kudfer gegen Saltpetersaure and
Schwelsaure. En:
|Zeitschrift fur anorganische und allgemeine
Chemie, 200 (1931), págs. 209-231.
14. GERMAN, R. M. The role of rnicrostructure in !he tarnish of
low gold alloys. En:
|Metallography, 14 (1981), págs.
253-266.
15. WISE, E. M. Gold and gold alloys. En: The Corrosion
Handbook. Ed. H. H. UHLIG, J. WilIey & Sons, New York
(1984), págs. 112-119.
16. TUCCILLO, J. J. Y NIELSEN, J. P. Observations of onset of
sulph ide tarniksh on gold based alloys. En:
|Journal of
Prostheric Denristry, 25 (1971), pág. 629.
17. McDONALD, A. y SISTARE, G. 11. The metallurgy of some carat
gold jewellery alloys: Part I - colourcd gold alloys. En:
|Gold
Bulletin 11, (1978), págs. 66-73.
18. TAMMANN, G. Die Chemischcn und galvanischen Eigenschaften
van Mischkristaleallrcinhen und ihre Atomverteilung. En:
|Zeitschrift f
|ur anorganische und
|allgemeine
Chemie, 107 (1919) págs. 1-240.
19. TAMMANN, G. Y WILSON C. Die Anderung des galvanischen
Potentials del Metalle usw. En: Z
|eitschrift f
|ur
anorganische Chemie, 173 (1928), págs. 156-263.
20. GRAF, L. Y ATA, H. D. K. Untersuchung del
Spannnungskorrosions-empfindlichkeit von Einund Vielkristallen aus
Messing und Kupfer-Gold-Legierungen. En:
|Zeilschrift
|fur
Metallk
|cunde, 64 (1973), págs.. 366-371.
21. GRAF. L. The causes and the mechanism of stress corrosion
cracking of homogeneus non-supersaturated alloys as derived from
experimental work with alloys containing noble metal components.
En:
|the theory of Stress Corrosien Cracking in Alloys - the
Proceeding of a Research Evaluation Conference: Ed. J. C., SCULL Y,
NATO Scientific
|Affair Division, Brussels (1971), págs.
399-417.
22. FORTY, A J. Micromorphological studies of the corrosion of
gold alloys. En: Gold Bulletin, 14 (1981), págs. 25-35.
23. KUHN, A T. Anodic dissolution, oxygen reduction and
corrosion of gold alloys. En:
|Surface Technology, 31 (1981),
págs. 17-31.
24. TISS0T P., LUTHY, H., Y MONNIER, D. Comportement anodique
d'alliages orcuivre en solution aqueuse de NaCI. En:
|Chimia,
27 (1973), págs. 15-18.
25. JULEFF J. X-Ray diffraction studies of gold. BSc
Dissertation, University of London, Institute of Archaeology, 1981
(Sin publicar).
26. WISE, E. M. (Ed).
|Gold: Recovery, Properties and
Applications. Van Nostrand, New Jersey (1964).
27. GRAF, L., BUDKE, J Zum problem del Spannungskorrosion
homogener Mschkristalle III: Abhangigkeir del
Spannungskorrosions-empfindlichkeit van Kupfer-Gold und Silber-Gold
Mischkristallen van Goldgehalt und Zusammenhang mit dem
"Mischkristallen -Effect". En:
|Zeitschift fur
Mata
|lkunde, 46 (1955), págs. 378-385.
28. PICKERING, H. W. y WAGNER, C. Electrolytic dissolution of
binary alloys containing a noble metal. En: Journal of the
Electrochemical Society, 114 (1967), págs. 698-706.
29. FORTY, A J. Y ROWLANDS. G. A possible model for corrosion
pitting and tunneling in noble metal alloys. En: Phillosophical
Magazine, 43 (1981), págs. 171-188.
30. SCOTT, D. A Y SEELEY, N. J. The examination of a gold alloy
chisel from ancient Colombia. En: Journal of Archaeological
Science. (En proceso de publicación).
31. Archivo General de Indias. Averiguaciones en Tamalameque
sobre los Manyllas que mandó hacer Juan de Azpeleta a los Yndios de
su encomienda de Anpihuegas (155.5). Justicia, legajo 610-612,
folios 25-20-25 manuscrito. Archivo General de Indias Sevilla
(traducción que reposa en el archivo del Museo del Oro de
Bogotá).
32. HULTGREN, R. y TARNAPOL, L. Effect of silver on gold copper
superlatice Au - Cu. En: T
|ransacti
|ons of the American
lnstitute of Mining and Metallurgical Engineers, 133 (1939),
págs. 228-237.
33. YAMAUCHI, H. YOSHIMATSU, AR. FORDUIII, A, y DEFONTAINE, D.
Phase reactions in copper-silver-gold ternary alloys. En:
|Precious Metals, Proceedings
|f the Fourth lnternational
Precious Metals lnstitute Conf
|erence, Pergamon Press,
Toronto (1981), págs. 214-249.
34. PINNEL, M.R. Y BENNEIT, J. E. On the formation of the
ordered phases CuAu and Cu3Au at a cooper/gold planar interface.
En:
|Metallurgical Transactions A 1 A (1979), págs.
741-747.
35. EILERTSEN, K. A Mounting technique for fragile metal
objects. En: Studies in Conservation, 26 (1981), págs.
77-79.