Spectroscopic Investigation of the Coloration and Fabrication Conditions of Medieval Blue Glasses

Hunault, Myrtille O.J.Y.; Bauchau, Fanny; Loisel, Catherine; Hérold, Michel; Galoisy, Laurence; Newville, Matthew; Calas, Georges

doi:10.1111/jace.13783

Cited by 28 publications

(54 citation statements)

References 43 publications

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“…This study focuses on a set of seven ancient blue glass pieces, for which identification was already described elsewhere . Briefly, they were removed from French medieval stained glass windows during former restorations and were never replaced.…”

Section: Methodsmentioning

confidence: 99%

“…This study focuses on a set of seven ancient blue glass pieces, for which identification was already described elsewhere. 13 Briefly, they were removed from French medieval stained glass windows during former restorations and were never replaced. Although their exact origin is not known, they are dated from the 13th and 16th centuries by comparison with well-dated other glass pieces.…”

Section: Methodsmentioning

confidence: 99%

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Thermodynamic insight into the evolution of medieval glassworking properties

et al. 2017

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We present differential scanning calorimetry (DSC) analyses of seven French stained glasses from the 13th to 16th centuries. These glasses illustrate the dramatic compositional change from the antique soda‐rich glasses to potash‐ and lime‐rich compositions, resulting in drastic temperature and viscosity increases. We investigate the influence of chemical composition on glass thermal properties: glass‐transition (Tg), crystallization, and melting temperatures. We find that Tg varies from 533°C (soda type) to 638°C±17°C (potash type) to 685°C±5°C (lime type). The viscous slowdown of the melt as a function of the temperature, close to Tg, was modeled using the Vogel‐Tammann‐Fulcher equation. This enables temperature‐viscosity profile calculations, and suggests that recipes have been empirically optimized to reach similar thermoelastic properties suitable for glassmaking despite changing the nature of raw materials.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Thermodynamic insight into the evolution of medieval glassworking properties

et al. 2017

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“…2 , 3 Only a few studies of medieval glasses have discussed quantitatively the relation among the chemical composition, the quantitative speciation of the coloring elements, and the observed color. They have allowed the rediscovery of the fabrication technique of red glasses 4 or proved the specific reducing fabrication conditions of blue glasses 5 and other glasses. 6 − 8 Quantitative chemical analyses are crucial for building historical inferences from the comparison between different samples.…”

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Nondestructive Redox Quantification Reveals Glassmaking of Rare French Gothic Stained Glasses

et al. 2017

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The sophisticated colors of medieval glasses arise from their transition metal (TM) impurities and capture information about ancient glassmaking techniques. Beyond the glass chemical composition, the TM redox is also a key factor in the glass color, but its quantification without any sampling is a challenge. We report a combination of nondestructive and noninvasive quantitative analyses of the chemical composition by particle-induced X-ray emission–particle-induced γ-ray emission mappings and of the color and TM element speciation by optical absorption spectroscopy performed on a red-blue-purple striped glass from the stained glass windows of the Sainte-Chapelle in Paris, France, during its restoration. These particular glass pieces must have been produced as a single shot, which guarantees that the chemical variations reflect the recipe in use in a specific medieval workshop. The quantitative elemental mappings demonstrate that the colored glass parts are derived from the same base glass, to which TMs were deliberately added. Optical absorption spectra reveal the origin of the colors: blue from CoII, red from copper nanoparticles, and purple from MnIII. Furthermore, the derivation of the quantitative redox state of each TM in each color shows that the contents of Fe, Cu, and Mn were adjusted to ensure a reducing glass matrix in the red stripe or a metastable overoxidized glass in the purple stripe. We infer that the agility of the medieval glassmaker allowed him to master the redox kinetics in the glass by rapid shaping and cooling to obtain a snapshot of the thermodynamically unstable glass colors.

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“…The same evaluations can be done for Z1‐OG and Z2‐OG, respectively. The change in coloration can be explained considering the presence of chromophore elements in the sieved powders employed in Z2‐F frit, as cobalt and chromium in particular, even if present in low amount as shown in Table . Taking in account the light greenish coloration achieved we can assume also that in this case cobalt ion is fourfold coordinated .…”

Section: Resultsmentioning

confidence: 65%

“…The change in coloration can be explained considering the presence of chromophore elements in the sieved powders employed in Z2-F frit, as cobalt and chromium in particular, even if present in low amount as shown in Table 5. 24,25 Taking in account the light greenish coloration achieved we can assume also that in this case cobalt ion is fourfold coordinated. 26 Considering this result, the frit formulated with the sieved fraction of Z2AR powder must be discarded because, even if low, the amount of metallic pollutant prevents the achievement of a white glaze.…”

Section: Frits and Glazed Tiles Characterizationmentioning

confidence: 99%

Recycling of yttria‐stabilized zirconia waste powders in glazes suitable for ceramic tiles

Siligardi

Barbi

Casini³

et al. 2017

Int J Applied Ceramic Tech

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The aim of this work is to demonstrate the feasibility of valorizing and recycling Yttria-stabilized Zirconia thermal spray waste into high value products for industrial and residential use. Based on the powders chemistry and morphology, this work aims to realize products, like frits suitable for white glazes and ceramic tiles. The focus is on one class of powder: high-temperature and abrasion-resistant ceramics, like Yttria-stabilized zirconia. This study has revealed that the substitution of pure zirconia with waste Yttria-stabilized zirconia is possible in high percentages, up to 100% to prepare frits suitable for white glaze

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Spectroscopic Investigation of the Coloration and Fabrication Conditions of Medieval Blue Glasses

Cited by 28 publications

References 43 publications

Thermodynamic insight into the evolution of medieval glassworking properties

Thermodynamic insight into the evolution of medieval glassworking properties

Nondestructive Redox Quantification Reveals Glassmaking of Rare French Gothic Stained Glasses

Recycling of yttria‐stabilized zirconia waste powders in glazes suitable for ceramic tiles

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