TY - JOUR
T1 - Analysis of the corroded layers of ancient bronze mirrors found in clay
AU - Yokota, Masaru
AU - Sugaya, Fuminori
AU - Mifune, Haruhisa
AU - Kobori, Yoshiyuki
AU - Shimizu, Katsuro
AU - Nakai, Kazuo
AU - Miyahara, Shin Ichi
AU - Shimizu, Yasuji
PY - 2002/10
Y1 - 2002/10
N2 - Excavated bronze objects are, depending on how long they were in the ground and under what conditions, generally corroded externally as well as having intricately corroded layers inside. To date, our group has performed metallurgical investigations on 18 ancient bronze mirrors and confirmed that pure copper lumps and several varieties of unidentified corrosion products are formed in and on the corroded layers of the mirrors. Accordingly, we investigated the corrosion products by using EPMA, SEM, μ-XRD and XPS, and discussed the possible causes of corrosion. The results are as follows; (1) Amorphous SiO2 had formed in the outermost corroded layer I. (2) Cu2O (cuprite) and Cu (OH)2 had formed in the layers II and III, which comprise the first two internal layers adjacent to layer I. (3) Cu-Sn-Pb- complex oxide had formed in layer IV, the next internal layer. Small amounts of PbSO4 and an Sn-organic compound were also detected. (4) We observed that Cu2S (chalcocite) forms like mold on the polished surface of the corroded layers, especially notable on layer IV, after being mechanically polished and left to stand for about one month. Cu2S is presumed to be the resultant of sulfate reducing bacteria. (5) Numerous pure copper lumps appeared in layers or particles and tended to form in the vicinity of layer IV. (6) The evidence from these analyses suggest that microorganisms could have been the cause of the corrosion found in ancient bronze mirrors excavated from clay.
AB - Excavated bronze objects are, depending on how long they were in the ground and under what conditions, generally corroded externally as well as having intricately corroded layers inside. To date, our group has performed metallurgical investigations on 18 ancient bronze mirrors and confirmed that pure copper lumps and several varieties of unidentified corrosion products are formed in and on the corroded layers of the mirrors. Accordingly, we investigated the corrosion products by using EPMA, SEM, μ-XRD and XPS, and discussed the possible causes of corrosion. The results are as follows; (1) Amorphous SiO2 had formed in the outermost corroded layer I. (2) Cu2O (cuprite) and Cu (OH)2 had formed in the layers II and III, which comprise the first two internal layers adjacent to layer I. (3) Cu-Sn-Pb- complex oxide had formed in layer IV, the next internal layer. Small amounts of PbSO4 and an Sn-organic compound were also detected. (4) We observed that Cu2S (chalcocite) forms like mold on the polished surface of the corroded layers, especially notable on layer IV, after being mechanically polished and left to stand for about one month. Cu2S is presumed to be the resultant of sulfate reducing bacteria. (5) Numerous pure copper lumps appeared in layers or particles and tended to form in the vicinity of layer IV. (6) The evidence from these analyses suggest that microorganisms could have been the cause of the corrosion found in ancient bronze mirrors excavated from clay.
KW - Amorphous silicon (IV) dioxide
KW - Ancient bronze mirror
KW - Copper(I) oxide
KW - Copper(II) hydroxide
KW - Copper(II) sulfide
KW - Corrosion in clay
KW - Instrumental analysis
KW - Lead(II) sulfate
KW - Microbial corrosion
KW - Pure copper lump
KW - Resultant by corrosion
KW - Tin organic compound
UR - http://www.scopus.com/inward/record.url?scp=0036817094&partnerID=8YFLogxK
U2 - 10.2320/jinstmet1952.66.10_1030
DO - 10.2320/jinstmet1952.66.10_1030
M3 - 学術論文
AN - SCOPUS:0036817094
SN - 0021-4876
VL - 66
SP - 1030
EP - 1038
JO - Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals
JF - Nippon Kinzoku Gakkaishi/Journal of the Japan Institute of Metals
IS - 10
ER -