| 应用钻石观测仪-红外光谱仪-激光诱导击穿光谱仪鉴定无机材料充填翡翠 |
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| 引用本文: | 杨春梅,黄梓芸,覃静雯,陆真平,陆太进,汤紫薇.应用钻石观测仪-红外光谱仪-激光诱导击穿光谱仪鉴定无机材料充填翡翠[J].岩矿测试,2022(2):281-290. |
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| 作者姓名: | 杨春梅 黄梓芸 覃静雯 陆真平 陆太进 汤紫薇 |
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| 作者单位: | 自然资源部珠宝玉石首饰管理中心(国家珠宝玉石质量监督检验中心)广州实验室, 广东 广州 511483;自然资源部珠宝玉石首饰管理中心北京珠宝研究所, 北京 100013;广州番禺职业技术学院, 广东 广州 511483 |
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| 基金项目: | 自然资源部珠宝玉石首饰管理中心(国家珠宝玉石质量监督检验中心)科研基金项目(NGTC2019029,NGTC20200911) |
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| 摘 要: | 通过走访翡翠市场得知存在无机材料充填的翡翠,目前与其相关的研究资料较少,对无机材料充填翡翠缺少鉴定依据。本模拟实验使用水玻璃和硅溶胶这两类无机材料对低档翡翠进行充填以了解其鉴定特征。利用常规宝石学测试、钻石观测仪荧光观察、红外光谱分析(FTIR)、激光诱导击穿光谱分析(LIBS)对无机充填翡翠样品进行测试。结果表明:(1)翡翠充填后其透明度、颜色、密度及结构均有所改善。(2)通过钻石观测仪观察,样品中的翡翠颗粒显示出绿色荧光,实验充填材料在裂隙以及颗粒间显示蓝色荧光且颜色分布不均匀。(3)通过中红外反射光谱测试,硅溶胶与水玻璃的谱图有微弱差别,经无机材料充填的样品在1162cm-1、1070cm-1、949cm-1,以及579cm-1、529cm-1、470cm-1处的吸收峰逐渐减弱,峰形逐渐变圆滑或消失,结合近红外光谱7062cm-1、5204cm-1、 4537cm-1范围的波谱形态和吸...
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| 关 键 词: | 翡翠 水玻璃 硅溶胶 钻石观测仪 红外光谱 激光诱导击穿光谱分析 |
| 收稿时间: | 2021/6/30 0:00:00 |
| 修稿时间: | 2021/9/17 0:00:00 |
Identification of Jadeite Filled with Inorganic Materials Using UV Fluorescence, Infrared Spectroscopy and LIBS Techniques |
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| YANG Chunmei,HUANG Ziyun,QIN Jingwen,LU Zhenping,LU Taijin,TANG Ziwei.Identification of Jadeite Filled with Inorganic Materials Using UV Fluorescence, Infrared Spectroscopy and LIBS Techniques[J].Rock and Mineral Analysis,2022(2):281-290. |
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| Authors: | YANG Chunmei HUANG Ziyun QIN Jingwen LU Zhenping LU Taijin TANG Ziwei |
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| Institution: | Guangzhou Laboratory, National Gems & Jewelry Technology Administrative Center (National Gemstone Testing Center), Guangdong 511483, China;Beijing Research Institute, National Gems & Jewelry Technology Administrative Center, Beijing 100013, China; Guangzhou Panyu Polytechnic, Guangzhou 511483, China |
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| Abstract: | BACKGROUND: Through visiting the jadeite market, the existence of inorganic material-filled jadeite is known, but there is a lack of identification basis due to rare references.OBJECTIVES: To understand the identification characteristics of inorganic material-filled jadeite.METHODS: Two types of inorganic materials, water glass and silica sol, were used to fill low-grade jadeite in the simulation experiment. Conventional gemological tests, fluorescence image observation with DiamondViewTM, Fourier transform infrared (FTIR) spectroscopy, and laser-induced breakdown spectroscopy (LIBS) were used to test the inorganic filled jadeite samples.RESULTS: The transparency, color, density and structure of jadeite were improved after filling. Under the DiamondViewTM, the jadeite particles in the sample showed green fluorescence, and the filling around the cracks and between the particles displayed blue fluorescence with non-uniform distribution. Mid-infrared reflectance spectrum analysis showed that the spectra of silica sol and water-glass were slightly different from each other. The absorption peaks of the samples filled with inorganic materials at 1162cm-1, 1070cm-1, 949cm-1, 579cm-1, 529cm-1 and 470cm-1 gradually weakened, and the peak shape gradually became smooth or disappeared. In addition, the differences between the jadeite and inorganic filled jadeite can be determined by the near-infrared spectral morphology and the shape of the absorption peak changed in the range of 7062cm-1, 5204cm-1 and 4537cm-1. The laser-induced breakdown spectroscopy demonstrated that the content of the silicon in the jadeite filled with silicon sol or sodium and potassium water-glass was higher. The high potassium content was an important feature for the jadeite filled by sodium and potassium water-glass.CONCLUSIONS: The samples effect of the simulation experiment needs to be improved, but the identification characteristics of the filled jadeite with inorganic materials are recognized, which has caused a further breakthrough in the enhancement and treatment of jadeite identification. |
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| Keywords: | jadeite water-glass silica sol DiamondViewTM infrared spectroscopy laser-induced breakdown spectroscopy |
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