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显微CT技术用于隋唐礼冠腐蚀饰件的结构研究

  • 杜静楠1

    机 构:

    1. 西北工业大学文化遗产研究院,陕西西安 710072

    ×
  • 杨军昌1,2,3

    机 构:

    1. 西北工业大学文化遗产研究院,陕西西安 710072

    2. 西北工业大学材料学院,陕西西安 710072

    3. “一带一路”文化遗产科技保护国际联合研究中心(西北工业大学),陕西西安 710072

    ×
  • 卢艳平4

    机 构:

    4. 重庆真测科技股份有限公司,重庆 401332

    ×

1. 西北工业大学文化遗产研究院,陕西西安 710072;
2. 西北工业大学材料学院,陕西西安 710072;
3. “一带一路”文化遗产科技保护国际联合研究中心(西北工业大学),陕西西安 710072;
4. 重庆真测科技股份有限公司,重庆 401332;

Application of micro-CT to study the structures of corroded ornaments of ritual crowns from the Sui and Tang Dynasties

  • DU Jingnan1

    Affiliation:

    1. Institute of Culture and Heritage, Northwestern Polytechnical University, Xi’an 710072 , China

    ×
  • YANG Junchang1,2,3

    Affiliation:

    1. Institute of Culture and Heritage, Northwestern Polytechnical University, Xi’an 710072 , China

    2. School of Materials Science and Engineering, Northwestern Polytechnical University, Xi’an 710072 , China

    3. “Belt and Road” International Joint Research Center for Scientific and Technological Protection of Cultural Heritage (Northwestern Polytechnical University), Xi’an 710072 , China

    ×
  • LU Yanping4

    Affiliation:

    4. Chongqing Zhence Science and Technology Co., Ltd., Chongqing 401332 , China

    ×

1. Institute of Culture and Heritage, Northwestern Polytechnical University, Xi’an 710072 , China;
2. School of Materials Science and Engineering, Northwestern Polytechnical University, Xi’an 710072 , China;
3. “Belt and Road” International Joint Research Center for Scientific and Technological Protection of Cultural Heritage (Northwestern Polytechnical University), Xi’an 710072 , China;
4. Chongqing Zhence Science and Technology Co., Ltd., Chongqing 401332 , China;

作者简介:

杜静楠(1989—),女,助理教授,2016年毕业于中国科学院大学科学技术史专业,研究方向为硅酸盐质文物考古,E-mail:dujingnan@nwpu.edu.cn

通讯作者:

杨军昌(1962—),男,理学博士,教授,博士研究生导师,长期从事文物保护与科技考古工作,E-mail:yangjunchang@nwpu.edu.cn

中图分类号:K876.4;O434.1

文献标识码:A

文章编号:1005-1538(2022)06-0045-06

DOI:10.16334/j.cnki.cn31-1652/k.20220902674

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目录contents

    摘要

    X射线显微CT(X-ray micro-CT)是一种无损分析方法,在医学、材料学和地质学等领域得到了广泛的应用,并取得了良好的效果。为了了解隋唐冠饰的内部情况,探查冠饰内部的显微结构,获取饰件原始结构信息,本研究应用micro-CT技术,主要对西安东郊昆仑公司隋末唐初M2出土礼冠和马家沟唐代阎识微夫妇墓出土礼冠上的饰件结构进行CT检测,获得了高分辨率三维结构CT图像。图像清晰显示出饰件的结构:鎏金层、图案构件、饰件基体及图案构件与基体的连接部位。对于饰件结构的解读反映出饰件鎏金是饰件加工过程中的最后一道工序。该技术方法对古代制品,尤其是小件制品和劣化严重制品的结构、工艺研究及其保存状况评估,具有重要的现实意义。

    Abstract

    X-ray micro-CT is a nondestructive analysis method, which has been widely used with good results in the fields of medicine, materials science and geology, etc. In our study, micro-CT technology was used to detect the microstructures of crown ornaments unearthed from the Kunlun Company M2 of the late Sui and early Tang Dynasties in the eastern suburb of Xi’an and from the tomb of Yan Shiwei and his wife of the Tang Dynasty at Majiagou, respectively. High-resolution three-dimensional structure CT images were obtained. They clearly show the structure of the ornaments such as the gilding layer and patterns as well as the connection methods. The interpretation of the decorative part structure shows that the gilding is the last procedure in the processing of ornaments and their accessories. It is concluded that micro-CT is of great practical significance to the study of the structure and processing of ancient products, especially small and badly deteriorated ones, as well as the evaluation of their preservation status.

  • 0 引言

  • 隋唐命妇礼冠是一类特殊的文物,从时代和制度的角度来说,它们有总结前朝女性冠饰形制,并影响后世制度制定的承上启下的特性,让女性冠饰和男性冠饰一样具有了“名贵贱,等秩序”的作用[1-2]。这些冠饰都是该时贵族妇女所佩戴的,出土实物和图像资料较少,因此出土文物珍贵,有损分析虽有开展[3-4]但数量不多,现有研究成果主要基于无损的宏观与显微观察,或是利用无损的成分分析手段取得[5-11]。隋唐礼冠由不同材质的饰件组合而成,且组成礼冠饰件构件的尺寸小、工艺多样,比如隋炀帝萧后冠、西安昆仑公司发现的隋末唐初M2出土礼冠、唐阎识微夫妇墓出土裴氏冠等。笔者所在团队在对这些冠饰开展保护修复研究的过程中发现,这些礼冠饰件大多保存状况较差、劣化严重,劣化产物与泥土的混合物覆盖表面,影响我们对饰件的技术研究。

  • 为了了解冠饰的内部情况,探查冠饰内部的显微结构,获取饰件原始结构信息,本研究引入了显微CT技术,亦称为micro-CT、微焦点CT或者微型CT[12]、μ-CT、X射线微断层摄影术[13]。它在医学、地质学和材料学等领域获得了广泛的应用,但针对文物材料的学术研究却很少[14],或是所用CT技术不具备显微功能[15]。该非侵入观察技术能逐层扫描到样品的微观结构,并根据一定的算法进行三维图像重建[16-17],获得内部高分辨率的三维结构信息。高分辨率显微CT无疑能为珍贵文物内部探视提供最先进的检测手段。

  • 本研究以裴氏冠和昆仑M2妇女冠上的金属饰件各一为样品,依托重庆真测科技股份有限公司,通过X射线显微CT技术,无损探测冠饰件内部结构。

  • 1 X射线显微CT原理

  • 显微CT(micro-CT)的基本结构由三个部分组成:X射线源、可旋转载物台和高分辨率探测器(图1)。锥形X射线束由X射线源出发,穿过在载物台上的样品并被其部分吸收,剩余未被吸收的X射线则被高分辨率探测器收集,最终在计算机中经由一定算法显示出某一角度的二维图像。X射线信号伴随样品的旋转源源不断地生成不同角度和层次的二维图像,这些二维图像则又通过投影和图像重建算法再现为三维图像。

  • 图1 显微CT的基本结构及成像原理图[13]

  • Fig.1 Basic structure and imaging principle diagram of micro-CT

  • 与单纯的X射线摄影相比,CT可以揭示更多关于样品内部微观结构的详细信息。而micro-CT又可以提供高分辨率二维截面图像和三维数值模型重建,micro-CT对样品的要求主要有材质和尺寸两方面。由于是利用X射线对样品进行扫描并获得内部微观结构信息的,这就使得样品的材质必须能被X射线穿透且尺寸需符合微观观察的要求,密度更大的金属物体需要更高的能量,且会导致分辨率方面有所下降[1518]。相较于一般CT,micro-CT具有更高的空间分辨率,耗损更低的能量和电流,特别适合研究毫米级别内的小体积物体[19]

  • 2 实验样品与设备

  • 2.1 实验样品

  • 本研究的样品为裴氏冠饰件GCG002和昆仑M2冠饰件XY-8(图2)。裴氏冠出土于西安马家沟,是阎识微夫人裴氏的礼冠,主要材质为纯铜鎏金[20]。昆仑M2冠饰件出土于西安昆仑公司基建时发现的墓葬内,缺少墓主人信息,饰件样品材质基体经表面检测推测为鎏金纯铜和黄铜[21],镶嵌有珍珠和钾钙硅酸盐玻璃[222]

  • 图2 实验样品

  • Fig.2 Experimental samples

  • 2.2 实验设备

  • 本研究使用的是型号为CD-130BX μ-CT(重庆真测科技股份有限公司)的micro-CT扫描设备,能量150 kV,电流66 μA,X射线波长在0.012~0.050 nm范围内,属于硬X射线。针对裴氏冠饰件样品的CCD探测器的空间分辨率为30.0 μm,曝光时间为500 ms,扫描角度为360°。针对昆仑冠饰件样品的CCD探测器的空间分辨率为100.0 μm,曝光时间为800 ms,扫描角度为360°。

  • 3 结果与讨论

  • 3.1 裴氏冠饰件GCG002

  • 采用micro-CT扫描了GCG002的一小部分,获得了高分辨率的内部特征信息(图3),呈现了样品的三个不同维度的扫描结果。这三个扫描面互相垂直,图3d是这样不同维度各层扫描后的拟合结果。图3a~图3c可见GCG002被扫描部分的内部结构,所显示出的不同灰度值可在一定情况下说明材料的区别,肉眼观察图片可见约四种明显不同的组织,结合以往的研究结果,样品表面的高亮薄封层和内部的灰色使得这个鎏金纯铜饰件的鎏金层的情况可以被清楚地观察到,根据图片可以估测GCG002的鎏金层厚度约为40 μm,金属粒和金属丝的深灰色和灰色区域表明它们被严重腐蚀,颗粒之间与焊丝连接处为浅灰色参杂灰色的物质,该物质应与基体被腐蚀的纯铜材质不同,结合以往研究,推测是焊接用的焊料,后经有损分析,推测是银铜焊料。整体来看可知GCG002是先焊接成一个整体再进行鎏金的。

  • 为了使结果更直观,图片还进行了颜色的拟合(图4),虽然micro-CT不能直接确定具体材质,但是不同的颜色能更直观地表达出材料的区别。根据图片和以往成分分析结果推测GCG002样品中蓝色包裹紫色的部分为鎏金层,黄色部分主要为铜的锈蚀产物,绿色部分为纯铜,蓝色与绿色混杂的部分是银铜焊料。由于金(密度19.32 g/cm3)、银(密度10.49 g/cm3)和铜(密度8.96 g/cm3)的密度区别明显,同等强度的X射线穿透这些不同金属的能力区别明显,所以在之后的研究中仅通过颜色也可以对材质做出大致的判断。不过需要注意的是,X射线穿透力与样品自身厚度也有关系,所测物品需注意整体的厚度差别是否过大。

  • 图3 裴氏冠饰件GCG002的micro-CT结果

  • Fig.3 Micro-CT results of Lady Pei’s Crown ornament GCG002

  • 图4 裴氏冠饰件GCG002的micro-CT色彩处理结果

  • Fig.4 Micro-CT color simulation of Lady Pei’s Crown ornament GCG002

  • 3.2 昆仑冠饰件XY-8

  • 本研究又对昆仑M2冠饰件XY-8进行了micro-CT拍照(图5),从中可以观察到饰件背后的支撑环也是以焊接的形式结合于饰件整体,且制作支撑环用的铜片表面不平整。除此之外也可以观察到鎏金层和铜锈蚀,但是XY-8的锈蚀程度比GCG002的要低,基体保存状况更好。

  • 为了观察micro-CT对饰件整体的观测能力,还对昆仑M2冠饰件XY-8杏叶饰整体做了CT扫描和三维重建并做以色彩拟合处理。其中图6a是XY-8杏叶饰整体的平面图,当因观测范围放大导致样品厚度差别较大且材料复合程度增加时,micro-CT的色彩拟合对材质的区分并不明显,更多是材质和厚度同时对X射线穿透能力产生了影响,特别是饰件外围的一圈“连珠纹”虽然和内部一样都是鎏金纯铜,但是这部分的纯铜厚度较大,显示出了紫色乃至深红色。

  • 图5 昆仑M2冠饰件XY-8杏叶饰部分micro-CT结果

  • Fig.5 Micro-CT results of Kunlun M2 Crown ornament XY-8

  • 图6 昆仑M2冠饰件XY-8杏叶饰整体micro-CT色彩处理结果

  • Fig.6 Micro-CT color simulation of Kunlun M2 Crown ornament XY-8

  • 4 结论

  • 检测结果显示了裴氏冠饰件GCG002和昆仑M2冠饰件XY-8杏叶饰的内部显微结构,二者均能观察到明显的表面封层、基体、锈蚀和焊接痕迹。结合以往研究可基本确定它们是鎏金层、铜基体和铜锈蚀,裴氏冠的焊料为银铜硬焊料,昆仑冠的焊料不明,在制作时不同形式的铜基体(铜片、铜丝、铜珠粒)是先焊接在一起后再通体鎏金的。这两件隋唐时期的冠饰基体制作在选材和工艺上具有高度的一致性。

  • 通过micro-CT还可以观察到微观的锈蚀形态,而且可以看到裴氏冠饰件GCG002比昆仑M2冠饰件XY-8杏叶饰内部的锈蚀更为严重。

  • 在观察的范围足够小且样品整体的厚度较为均匀的情况下,micro-CT的色彩拟合处理可以很直观地表现出复合材质样品中不同密度材料的区别,结合形貌的观察可以得到更多文物内部细节信息。而当观察范围较大且厚度差别较大时,micro-CT的色彩拟合直接受X射线穿透样品的能力影响,即同时受材质和样品厚度尺寸的影响。

  • 以往因无损科学分析手段有限,冠饰件类文物的内部细节情况无法获知,而通过micro-CT可以观察文物样品内部的微观详细信息,结合表面成分分析可以无损地对被测样品的材质、工艺和保存情况做出以往靠有损分析才能做出的判断。相信随着CT技术的不断发展,未来可以获取更加详细的文物内部信息,同时服务于文物和文物保护研究。

  • 参考文献

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    • [7] 马大勇.珠花龙凤冠高髻——风华绝代的传统冠饰[J].文化记事,2020(4):46-57.MA Dayong.Pearl flower dragon crown with updo:a traditional crown ornament of the most elegant age[J].Cultural Events,2020(4):46-57.

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    • [11] 杨军昌,束家平,党小娟,等.江苏扬州市曹庄M2隋炀帝萧后冠实验室考古简报[J].考古,2017(11):66-76.YANG Junchang,SHU Jiaping,DANG Xiaojuan,et al.Bulletin of archaeology for the crown of Emperor Yang’s Queen Xiao of Sui Dynasty,M2 Caozhuang,Yangzhou City,Jiangsu Province in Laboratory[J].Archaeology,2017(11):66-76.

    • [12] RYOO R,JOO S H,KRUK M,et al.Ordered mesoporous carbons[J].Advanced Materials,2001,13(9):677-681.

    • [13] 朱小洁,钱付平,张浩.X射线显微CT的应用现状及发展[J].化工新型材料,2011,39(增刊1):5-8,44.ZHU Xiaojie,QIAN Fuping,ZHANG Hao.Application status and extension of X-ray Micro-CT[J].New Chemical Materials,2011,39(Suppl 1):5-8,44.

    • [14] 邱云亮.X射线“显微CT”在象牙与仿制品鉴定中的应用[J].森林公安,2015(3):24-26.QIU Yunliang.Application of X-ray “micro-CT” in the identification of ivory and its imitation products[J].Forest Public Security,2015(3):24-26.

    • [15] 丁忠明,周亚,吴来明.计算机断层扫描技术(X-CT)在子仲姜盘制作工艺研究中的应用[J].文物保护与考古科学,2017,29(5):12-25.DING Zhongming,ZHOU Ya,WU Laiming.X-CT computed tomography studies on the manufacturing techniques of Zi Zhong Jiang Pan[J].Sciences of Conservation and Archaeology,2017,29(5):12-25.

    • [16] FOLEY H C.Carbogenic molecular sieves:synthesis,properties and applications[J].Microporous Materials,1995,4(6):407-433.

    • [17] 詹亮,张睿,王艳莉,等.Pd在超级活性炭上的负载对其储氢性能的影响[J].新型炭材料,2005,20(1):33-38.ZHAN Liang,ZHANG Rui,WANG Yanli,et al.Properties of super-activated carbon coated with palladium for hydrogen storage[J].New Carbon Materials,2005,20(1):33-38.

    • [18] BETTUZZI M,CASALI F,MORIGI M,et al.Computed tomography of a medium size Roman bronze statue of Cupid[J].Applied Physics A,2015,118(4):1161-1169.

    • [19] ROSSI M,CASALI F,ROMANI D,et al.MicroCT Scan in paleobiology:application to the study of dental tissues[J].Nuclear Instruments and Methods in Physics Research Section B:Beam Interactions with Materials and Atoms,2004,213:747-750.

    • [20] 张煦.唐阎识微夫妇墓出土女性冠饰复原研究[D].西安:陕西师范大学,2014.ZHANG Xu.Study on the restoration of female crowns unearthed from the tomb of Yan Shiwei couple in Tang Dynasty[D].Xi’an:Shaanxi Normal University,2014.

    • [21] SHAO Y,JIANG F,DU J,et al.Brass products in the coronet excavated from an M2-numbered Sui-Tang-Dynasty tomb situated in Kun Lun Company in Xi’an,Shaanxi[J].Heritage Science,2021,9(1):1-10.

    • [22] 张全民,杨军昌,杜静楠,等.陕西西安昆仑公司隋唐墓葬M2出土冠饰的实验室清理与保护[M]//中国社会科学院考古研究所文化遗产保护研究中心.文化遗产研究(第4辑).北京:科学出版社,2021:141-152.ZHANG Quanmin,YANG Junchang,DU Jingnan,et al.Laboratory cleaning and protection of unearthed crown ornaments from Sui and Tang tombs M2 in Xi’an Kunlun Company,Shaanxi Province[M]//CCHC of the Institute of Archaeology,CASS.Cultural Heritage Studies(Series 4).Beijing:Science Press,2021:141-152.

  • 基本信息

    中图分类号: K876.4;O434.1
    文献标识码: A
    DOI: 10.16334/j.cnki.cn31-1652/k.20220902674
    文章编号: 1005-1538(2022)06-0045-06

    基金信息

    引用信息

    稿件历史

    收稿日期: 2022-09-14

  • 参考文献

    • [1] 顾梦宇.隋唐贵族妇女冠饰研究——以礼冠为中心[D].西安:陕西师范大学,2018.GU Mengyu.A study on the crowns of noble women in the Sui and Tang Dynasties[D].Xi’an:Shaanxi Normal University,2018.

    • [2] DU J,ECKFELD T,YANG J,et al.A Sui-Tang Dynasty woman’s crown:analyzing form,glass and class[J].Heritage Science,2022,10(1):1-26.

    • [3] 党小娟,杨军昌,李睿,等.隋炀帝萧后墓出土发钗材料与工艺初步研究[J].文物保护与考古科学,2018,30(4):1-10.DANG Xiaojuan,YANG Junchang,LI Rui,et al.Research on materials and craftsmanship of hairpins unearthed from the tomb of Empress Xiao of Emperor Sui Yang[J].Sciences of Conservation and Archaeology,2018,30(4):1-10.

    • [4] TAN P,YANG J,ZHENG Y,et al.Copper granulation:scientific analysis on the ornaments from the coronet of Lady Pei of the early Tang Dynasty(618—712 A.D.)in Xi’an,Shaanxi,China[J].Archaeological and Anthropological Sciences,2019,11(12):6603-6613.

    • [5] 张晓妍.中古时代女性冠饰演变与丝绸之路妆饰文化交流[J].服饰导刊,2022,11(4):16-25.ZHANG Xiaoyan.Evolution of women’s tiaras in the medieval times and the exchange of makeup culture along the Silk Road[J].Fashion Guide,2022,11(4):16-25.

    • [6] 丁凌云.隋唐宫廷女性礼冠冠饰源流及应用[J].美术大观,2021(2):127-129.DING Lingyun.The origin and application of women’s ceremonial crowns in Sui and Tang Dynasties[J].Art Panorama,2021(2):127-129.

    • [7] 马大勇.珠花龙凤冠高髻——风华绝代的传统冠饰[J].文化记事,2020(4):46-57.MA Dayong.Pearl flower dragon crown with updo:a traditional crown ornament of the most elegant age[J].Cultural Events,2020(4):46-57.

    • [8] 陈中慧.隋唐时期玻璃器的研究[D].西安:西北大学,2015.CHEN Zhonghui.A study of the Sui Dynasty and the Tang Dynasty glassware[D].Xi’an:Northwest University,2015.

    • [9] 陕西省考古研究院,美茵茨罗马-日耳曼中央博物馆.西安市唐代李倕墓冠饰的室内清理与复原[J].考古,2013(8):36-45.Shaanxi Acedemy of Archaeology,Romano-Germanic Central Museum in Mainz.Laboratory cleaning and restoration of the crown of Li Chui’s tomb in the Tang Dynasty in Xi’an[J].Archaeology,2013(8):36-45.

    • [10] 陈亚锋.中国传统装饰图案“连珠纹”纹样研究[D].乌鲁木齐:新疆师范大学,2019.CHEN Yafeng.Study on the pattern of “continuous pearl pattern” in Chinese traditional decorative pattern[D].Urumqi:Xinjiang Normal University,2019.

    • [11] 杨军昌,束家平,党小娟,等.江苏扬州市曹庄M2隋炀帝萧后冠实验室考古简报[J].考古,2017(11):66-76.YANG Junchang,SHU Jiaping,DANG Xiaojuan,et al.Bulletin of archaeology for the crown of Emperor Yang’s Queen Xiao of Sui Dynasty,M2 Caozhuang,Yangzhou City,Jiangsu Province in Laboratory[J].Archaeology,2017(11):66-76.

    • [12] RYOO R,JOO S H,KRUK M,et al.Ordered mesoporous carbons[J].Advanced Materials,2001,13(9):677-681.

    • [13] 朱小洁,钱付平,张浩.X射线显微CT的应用现状及发展[J].化工新型材料,2011,39(增刊1):5-8,44.ZHU Xiaojie,QIAN Fuping,ZHANG Hao.Application status and extension of X-ray Micro-CT[J].New Chemical Materials,2011,39(Suppl 1):5-8,44.

    • [14] 邱云亮.X射线“显微CT”在象牙与仿制品鉴定中的应用[J].森林公安,2015(3):24-26.QIU Yunliang.Application of X-ray “micro-CT” in the identification of ivory and its imitation products[J].Forest Public Security,2015(3):24-26.

    • [15] 丁忠明,周亚,吴来明.计算机断层扫描技术(X-CT)在子仲姜盘制作工艺研究中的应用[J].文物保护与考古科学,2017,29(5):12-25.DING Zhongming,ZHOU Ya,WU Laiming.X-CT computed tomography studies on the manufacturing techniques of Zi Zhong Jiang Pan[J].Sciences of Conservation and Archaeology,2017,29(5):12-25.

    • [16] FOLEY H C.Carbogenic molecular sieves:synthesis,properties and applications[J].Microporous Materials,1995,4(6):407-433.

    • [17] 詹亮,张睿,王艳莉,等.Pd在超级活性炭上的负载对其储氢性能的影响[J].新型炭材料,2005,20(1):33-38.ZHAN Liang,ZHANG Rui,WANG Yanli,et al.Properties of super-activated carbon coated with palladium for hydrogen storage[J].New Carbon Materials,2005,20(1):33-38.

    • [18] BETTUZZI M,CASALI F,MORIGI M,et al.Computed tomography of a medium size Roman bronze statue of Cupid[J].Applied Physics A,2015,118(4):1161-1169.

    • [19] ROSSI M,CASALI F,ROMANI D,et al.MicroCT Scan in paleobiology:application to the study of dental tissues[J].Nuclear Instruments and Methods in Physics Research Section B:Beam Interactions with Materials and Atoms,2004,213:747-750.

    • [20] 张煦.唐阎识微夫妇墓出土女性冠饰复原研究[D].西安:陕西师范大学,2014.ZHANG Xu.Study on the restoration of female crowns unearthed from the tomb of Yan Shiwei couple in Tang Dynasty[D].Xi’an:Shaanxi Normal University,2014.

    • [21] SHAO Y,JIANG F,DU J,et al.Brass products in the coronet excavated from an M2-numbered Sui-Tang-Dynasty tomb situated in Kun Lun Company in Xi’an,Shaanxi[J].Heritage Science,2021,9(1):1-10.

    • [22] 张全民,杨军昌,杜静楠,等.陕西西安昆仑公司隋唐墓葬M2出土冠饰的实验室清理与保护[M]//中国社会科学院考古研究所文化遗产保护研究中心.文化遗产研究(第4辑).北京:科学出版社,2021:141-152.ZHANG Quanmin,YANG Junchang,DU Jingnan,et al.Laboratory cleaning and protection of unearthed crown ornaments from Sui and Tang tombs M2 in Xi’an Kunlun Company,Shaanxi Province[M]//CCHC of the Institute of Archaeology,CASS.Cultural Heritage Studies(Series 4).Beijing:Science Press,2021:141-152.

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