Oval bracelet with surface decorations of lines and indentations MAH anc. 2662
Marianne. Senn (EMPA, Dübendorf, Zurich, Switzerland) & Christian. Degrigny (HE-Arc CR, Neuchâtel, Neuchâtel, Switzerland)
Bracelet with a dense, black lake patina (Fig. 1). The bracelet corresponds to the type of bracelet decorated on the outside with alternate of dashes and meanders (Paszthory 1985, 164). Two samples were taken from this object – only one is presented here (Fig. 2). Dimensions: Ø = around 6.1cm; WT = 98g.
Jewellery
Les Eaux-Vives, Genève, Geneva, Switzerland
None
Late Bronze Age
Hallstatt B2/3 (1000BC _ not defined)
Lake
Musées d'art et d'histoire, Genève, Geneva
Musées d'art et d'histoire, Genève, Geneva
MAH anc. 2662
Not conserved
Nothing to report.
Stratigraphic representation: none.
The sample is a section from one end of the bracelet (Fig. 2). Its dimensions are: L = 1.3mm and W = 0.3mm. The corrosion layer is relatively thick (Fig. 3).
Leaded Bronze
As-cast
MAH 77-110-1a
Musées d'art et d'histoire, Genève, Geneva
Musées d'art et d'histoire, Genève, Geneva
1977, study of black and iron rich surface deposit on the object
Nothing to report.
Analyses performed:
Metallography (etched with ferric chloride reagent), Vickers hardness testing, ICP-OES, SEM/EDS.
The remaining metal is a leaded bronze (Table 1) with low porosity, light and dark-grey inclusions (Fig. 5). In bright field the unetched alpha-delta eutectoid appears light-blue (Fig. 5). Etching reveals the dendritic structure of an as-cast metal (Fig. 6) with an average hardness of HV1 100. The inclusions appear as dark-grey (Pb-rich) and light-grey (copper sulphide) (Fig. 6 and Table 2) while the alpha-delta eutectoid is white (Fig. 6). The pink alpha phase is cored.
Elements | Cu | Sn | Pb | Sb | As | Ni | Ag | Zn | Fe | Co | Bi |
---|---|---|---|---|---|---|---|---|---|---|---|
mass% | 87.62 | 6.98 | 4.36 | 0.42 | 0.23 | 0.18 | 0.13 | 0.04 | 0.03 | 0.02 | 0.02 |
Table 1: Chemical composition of the metal. Method of analysis: ICP-OES, Laboratory of Analytical Chemistry, Empa.
Elements |
S | Cu | Pb | Total |
---|---|---|---|---|
Light-grey inclusion | 21 | 82 | < | 103 |
Dark-grey inclusion | < | 2 | 92 | 94 |
Table 2: Chemical composition (mass %) of the inclusions on Fig. 5. Method of analysis: SEM/EDS, Laboratory of Analytical Chemistry, Empa.
Dentritic structure with pores and inclusions
Cu
Ni, As, Ag, Sn, Sb, Pb
Nothing to report.
The corrosion crust has an average thickness of 80µm. It is composed of two layers (Fig. 7). The inner layer (CP2), which appears grey in bright field (Fig. 5), retains a Sn-rich dendritic ghost structure (Table 3 and Fig. 8). In polarized light, this layer is a mixture of reddish and yellow-brown corrosion products with some green areas (Fig. 7). The reddish parts have a composition similar to cuprite/Cu2O (Table 3). The adjacent dense, cracked layer, which appears dark-grey in bright field (CP1), is mainly composed of Fe,O and Sn with Sn,O and Fe-rich and Fe and O-rich zones contaminated with Si while being depleted of Cu (Fig. 8). In polarised light, it is dark, almost black with some red areas. In areas it contains Ag, Fe and Sn-rich inclusions with traces of Pb and Cu (Fig. 8 and Table 3).
Elements |
O | Pb | Fe | Cu | Si | Sn | Ag | Total |
---|---|---|---|---|---|---|---|---|
CP1, light-grey in Fig. 8 | 40 | 5.7 | 8.1 | 21 | 3.5 | < | < | 106 |
CP1, dark-grey in Fig. 8 | 30 | 5.3 | 19 | 3.7 | 3.1 | < | < | 99 |
CP1, bright inclusion | 4.5 | 9.8 | 45 | 2.4 | < | 28 | 28 | 98 |
CP2, dendritic ghost structure | 39 | 5.5 | 17 | 32 | 3 | < | < | 109 |
CP2, reddish part | 14 | < | 77 | 3 | < | < | < | 96 |
Table 3: Chemical composition (mass %) of the corrosion layers from Figs. 7 and 8. Method of analysis: SEM/EDS, Laboratory of Analytical Chemistry, Empa.
Fig. 7: Micrograph similar to Fig. 5 and corresponding to the stratigraphy of Fig. 4, polarised light. From bottom left to top right: the metal in brown, the dendritic ghost structure in red, yellow-brown and green and the outer corrosion layer in black with some red areas. The thin white line is a crack,
Uniform - selective
Type II (Robbiola)
Nothing to report.
Corrected stratigraphic representation: none.
The surface of the cast leaded bronze has been replaced by a Sn-rich corrosion that retains a dendritic ghost structure. It is composed of a mixture of copper oxides (cuprite?) and a Sn-rich corrosion product (cassiterite?). The outer corrosion layer is composed of Fe-O and Sn-O-Fe areas depleted of Cu, but contaminated with Si. The enrichment in Fe seems to be the same as for the formation of patinas from lake contexts. However the outer corrosion layer was not formed in anaerobic conditions (Fig. 7). Since the original surface is absent (destroyed) we refer to type corrosion 2 after Robbiola et al. 1998.
References on object and sample |
1. Boll, P. (1991) Empa-Bericht n° 137'695/1991, not published. 2. Mottier, Y., Schweizer, F. (1977, 1991) Rapport du Laboratoire de recherche des musées d'art et d'histoire, not published. 3. Paszthory, K. (1985) Der bronzezeitliche Arm- und Beinschmuck in der Schweiz. Prähistorische Bronzefunde X-Bd. 3, München 1985, 164, Tafel 82. |
References on analytic methods and interpretation |
4. Mottier, Y., Schweizer, F. (1977, 1991) Rapport du Laboratoire de recherche des musées d'art et d'histoire, not published. 5. Robbiola, L., Blengino, J-M., Fiaud, C. (1998) Morphology and mechanisms of formation of natural patinas on archaeological Cu-Sn alloys, Corrosion Science, 40, 12, 2083-2111. |