1. RISE PROJECT: MÜNSTER PHILOSOPHICUM
Emilie Lozier1, Ferdinand Drünert1, Doris Möncke1, Lothar Wondraczek1
1 Otto-Schott-Institute of Materials Research, Friedrich-Schiller-University Jena, Germany

2. Introduction Hundreds of shards of corroded soda-lime-silicate glass
Discovered by Peter Steppuhn
From the Münster Philisophicum
We received 70+
Samples date to 13th-14th century CE
One set of samples is about 200 years younger
Dating is relative, likely based on stratigraphic evidence
Our Goals
Classify glass types
Compositionally distinguish the younger glasses from the older ones
Draw conclusions as to the types of resources that were used

4. Methods UV-vis spectrophotometry X-ray fluorescence (XRF)
CARY instrument at OSI
Measured absorption
X-ray fluorescence (XRF)
Museum für Ur- und Frühgeschichte Thüringens
Took 3 measurements, averaged wt% values for 21 elements
IR microscopy
Instrument at OSI
Measured reflected light

5. Sample Preparation 13 samples were broken and polished
Destructive methods authorized by Steppuhn
Polishing improved UV-vis spectra quality
Increased accuracy of XRF measurements
Na2O
MgO
Al2O3
SiO2
P2O5
K2O
CaO
TiO2
MnO
Fe2O3
ZnO
Average
0.86
2.7
2.3 54
2.4 11 21
0.23
1.0
0.72
0.04
Corrosion
2.0
0.46
3.8 62
1.9
0.56
6.0 17
1.6
0.21

6. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

7. Red
Brown
Yellow
Pale Green Type 1
Pale Green Type 2
Pale Green Type 3
Dark Green
Blue Type 1
Blue Type 2

8. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

9. Red Glass Description Pale green base glass Flashed red layer
030-1
Description
Pale green base glass
Flashed red layer
Brown corrosion
Includes sample sets 030, 031
Compositionally distinct from other sets

10. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

11. Brown Glass Description Brown base glass Brown corrosion
213-7
Description
Brown base glass
Brown corrosion
Some surface painting
Includes 213-3, 213-7, , , , 220-4

12. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

13. Yellow Glass Description Dark yellow glass
213-11
Description
Dark yellow glass
Varying levels of brown corrosion
Includes 213-2, 213-5, ,

14. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

15. Pale Green Glass Type 1 Description Pale green glass Brown corrosion
213-11
Description
Pale green glass
Brown corrosion
Includes 213-1, 213-4, 213-6, 213-9

16. Pale Green Glass Type 2 Description Pale green to pale blue glass
220-3
Description
Pale green to pale blue glass
Varying levels of brown corrosion
Includes sample sets 220 (excluding 220-4), 222, 223

17. Pale Green Glass Type 3 Description Pale green glass
Brown to iridescent corrosion
200 years younger
Includes sample set 174
Compositionally distinct from other sample sets by K2O/BaO ratio, Wedepohl et al [2010]

18. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

19. Dark Green Glass Description Dark green glass Minimal corrosion
064-1
Dark Green Glass
Description
Dark green glass
Minimal corrosion
Partial surface painting
Includes sample sets 064, 067
XRF indicates presence of lead

20. Sample Divisions
Red glass Brown glass Yellow glass Pale green glass, 3 types Dark green glass Blue glass, 2 types

21. Blue Glass Types 1, 2 Description Deep blue glass
037-2
Blue Glass Types 1, 2
Description
Deep blue glass
Minimal corrosion (Type 1)
Gray corrosion layer (Type 2)
Type 1 – sample set 037
Type 2 – sample set 216
Cobalt peaks for Type 2 are shifted left
216-5

22. Summary Data allows us to group samples
Excluding younger glasses (174)
Excluding flashed red glasses (030, 031) and lead-containing glasses (064, 067)
Main body of samples may have used beech ash
CaO/K2O ratio for samples is ~2
CaO/K2O ratio for beech trunks is 1 to 2, Wedepohl et al [2010]
CaO/MgO ratio is too high for beech, but lime may have been added to melt
Impure silica source (river sand?) was likely used
Alumina content of samples is >1%, Verita et al [2013]

23. Outlook Determine concentrations of coloring agents
Estimate standard deviation of XRF data
Use LA-ICP-MS to evaluate trace elements
Lower LOD than XRF or UV-vis
Could help determine providence of resources
Calculate Fe2+/Fe3+ ratio
Evaluate collected IR data

24. Bibliography
Verita, M. et al Compositional analysis of 14th-15th century enamels from the altar of San Giovanni in Florence: An Integrated study by portable X-ray fluorescence and electron probe microanalysis. Archaeom; 55(6):
Wedepohl, H.K. et al The chemical composition of medieval wood ash glass from Central Europe. Chemie der Erde; 70:89-97

25. Thank you very much for your attention!
Contact
Otto-Schott Institute of Materials Research
Fraunhoferstr. 6
07743 Jena