Technological implications of neo-formed hematite crystals in ceramic lead glazes

Roberta Di Febo, J. Molera, T. Pradell, O. Vallcorba, C. Capelli
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引用次数: 11

Abstract

ABSTRACT Hexagonal neo-formed crystallites have been observed in thin section of different medieval and post-medieval lead-glazed ceramics. Although they are clearly visible in thin section using plane polarized light, their plate shape makes them barely seen on the polished cross sections. Basal sections have never been found on the polished sections and only few transversal very thin sections could be seen. In this case, the morphology resembles acicular and it is not possible to analyze them properly by SEM–EDX because the crystals are very thin and the glaze surrounding is analyzed as well. Micro-Raman microscopy was carried out directly on the polished thin sections. This technique allows specific areas as small as 1 μm in diameter to be analyzed and it is able to characterize inclusions that are not found on the glaze surface. However, the wavenumber features observed cannot be assigned to a specific compound. The thickness of the crystallites (a few hundred nanometers) seems to be responsible for the low sensitivity of the Raman instrumentation. 15 × 15 μm2 micro-X-ray diffraction patterns using synchrotron radiation (SR-μXRD) in transmission geometry were obtained from the crystals using the same thin section preparation. SR-μXRD was able to localize the crystallites and avoid the overlapping signals corresponding to other mineral phases. In this way, the hexagonal crystallites present in the glaze have been unambiguously identified as hematite crystallites. Finally, some replications were made under laboratory-controlled conditions to determine the firing conditions in the formation of those crystallites. The presence of hematite coexisting with melanotekite indicates a firing temperature <925°C, while the presence of only hematite suggests a firing temperature >925°C
陶瓷铅釉中新形成赤铁矿晶体的技术意义
在不同的中世纪和后中世纪铅釉陶瓷薄片中观察到六方新形成的晶体。虽然使用平面偏振光在薄片上可以清楚地看到它们,但它们的板状形状使它们在抛光截面上几乎看不见。在抛光剖面上从未发现基底剖面,只有少数横向非常薄的剖面可以看到。在这种情况下,形态类似针状,不可能通过SEM-EDX正确地分析它们,因为晶体非常薄,并且也分析了釉面周围。微拉曼显微镜直接在抛光薄片上进行。该技术允许对直径小至1 μm的特定区域进行分析,并且能够表征在釉面上没有发现的夹杂物。然而,所观察到的波数特征不能分配给特定的化合物。晶体的厚度(几百纳米)似乎是拉曼仪器灵敏度低的原因。利用同步辐射(SR-μXRD)在透射几何上获得了15 × 15 μm2的微x射线衍射图。SR-μXRD能够对晶体进行定位,避免了与其他矿相相对应的重叠信号。通过这种方法,釉中存在的六方晶已被明确地确定为赤铁矿晶。最后,在实验室控制的条件下进行了一些重复实验,以确定这些晶体形成的烧成条件。赤铁矿与黑曜石共存,表明烧成温度为925℃
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