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Technological Analyses of the Violet Pigments in the Site of Eastern Gate Tower of Han Yang Mausoleum |
SUN Feng1,3, SUN Man-li1, ZHAO Xi-chen2 |
1. School of Cultural Heritage (Northwest University), Key Laboratory of Cultural Heritage Research and Conservation (Northwest University), Xi’an 710069, China
2. Shaanxi Provincial Institute Archaeology, Xi’an 710043, China
3. Shaanxi Provincial Institute of Cultural Relics Protection, Xi’an 710075, China |
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Abstract In consideration of the advantage of micro X-ray diffraction (micro-XRD) technology, such as micro area, trace, in situ, undamaged and so on, the author attempts to use this technology combined with the super depth of field microscopy, scanning electron microscopy, energy spectrum analysis (SEM-EDX) and micro laser raman spectroscopy(MLRM) for the first time in this paper, to observe microscopic, nondestructive analyse and identify the violet pigment sample unearthed in the site of eastern gate tower of Han Yang mausoleum. The results confirm that the composition of this violet pigment is Chinese Purple (BaCuSi2O6), accompanied by lanarkite (Pb2[SO4]O) and barite (BaSO4). Chinese Purple like type of copper barium silicate pigment was found in the ruins of western han dynasty mausoleum, which reflects that the purple colour has a high social status level at that time. And it appeared in the eastern gate tower shows that the design and decoration of western han dynasty emperor’s mausoleum in terms of the influence of theory of Five Elements. Furthermore, the discovery of lanarkite and barite makes the author to speculate that barite is Barium raw material, and lanarkite plays the part of fluxing agent and catalyst as lead additives in the process of synthesis Chinese Purple. And then it further reflects that the synthetic technology is mature enough from the perspective of the history of chemistry at that time.
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Received: 2017-04-18
Accepted: 2017-10-20
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[1] GUO Qing(郭 青). Shaanxi Daily(陕西日报), 2011, 1: 1.
[2] SUN Jian-jun(孙建军). Journal of China Youth College for Political Sciences(中国青年政治学院学报), 2006, 3: 128.
[3] XIA Yin, WU Shuang-cheng, CUI Sheng-kuan, et al(夏 寅,吴双成,崔圣宽,等). Sciences of Conservation and Archaeology(文物保护与考古科学), 2008, 20(2): 13.
[4] WANG Xue-pei, ZHAO Hong-xia, LIU Song, et al(王雪培,赵虹霞,刘 松,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2016, 36(12): 4045.
[5] FAN Guang, GE Xiang-kun(范 光,葛祥坤). World Nuclear Geoscience(世界核地质科学), 2010, 27(2): 85.
[6] Berke H, Chemical Society Reviews, 2007, 36: 15.
[7] MA Qing-li, ZHANG Zhi-guo, GAO Xi-sheng(张治国,马清林,高西省). Cultural Relics(文物), 2008, 8: 83.
[8] ZHANG Zhi-guo, MA Qing-li, Heinz Berke, et al(张治国,马清林,海内兹·贝克,等). China Cultural Heritage Scientific Research(中国文物科学研究), 2011, 4: 44.
[9] ZHANG Zhi-guo, MA Qing-li, MEI Jian-jun, et al(张治国,马清林,梅建军,等). Journal of National Museum of China(中国国家博物馆馆刊), 2012, 2: 128.
[10] MA Qing-li, ZHANG Zhi-guo, XIA Yin(马清林,张治国,夏 寅). Cultural Heritage Scientific Research(文物科技研究), 2009, 6: 64. |
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