四川“雅翠”的宝石学特征及命名探讨

周川杰, 胡瑶, 郝爽, 沈佳妮

周川杰, 胡瑶, 郝爽, 沈佳妮. 四川“雅翠”的宝石学特征及命名探讨[J]. 宝石和宝石学杂志, 2013, 15(3): 43-49.
引用本文: 周川杰, 胡瑶, 郝爽, 沈佳妮. 四川“雅翠”的宝石学特征及命名探讨[J]. 宝石和宝石学杂志, 2013, 15(3): 43-49.
ZHOU Chuan-jie, HU Yao, HAO Shuang, SHEN Jia-ni. Gemmological Characteristics of“Yacui”from Sichuan Province and Discussion of Naming[J]. Journal of Gems & Gemmology, 2013, 15(3): 43-49.
Citation: ZHOU Chuan-jie, HU Yao, HAO Shuang, SHEN Jia-ni. Gemmological Characteristics of“Yacui”from Sichuan Province and Discussion of Naming[J]. Journal of Gems & Gemmology, 2013, 15(3): 43-49.

四川“雅翠”的宝石学特征及命名探讨

详细信息
    作者简介:

    周川杰(1984-),男,CGC,FGA,GIC,主要从事珠宝检测及教学。

  • 中图分类号: TS93

Gemmological Characteristics of“Yacui”from Sichuan Province and Discussion of Naming

  • 摘要: 四川省雅安市石棉县近年来出产一种颜色以绿色为主、质感柔和细腻、晶莹剔透、硬度适中的珍贵玉石材料,商业上称之为“雅翠”。为了深入认识“雅翠”,并对其进行准确、规范的定名,对产自石棉县白水河矿区具有代表性的“雅翠”原石采用常规宝石学测试方法、矿物薄片偏光显微镜观察、红外吸收光谱测试、X射线粉末衍射、波长色散X射线荧光光谱分析等技术手段进行分析。结果表明,“雅翠”的主要组成是密集定向排列的绢云母,其次还含有石英、高岭石、滑石、方解石等矿物。基于此,本文提出了将符合“细、洁、温、润、腻、凝”之“六德”标准的“雅翠”纳入绢云母型青田石范畴。
    Abstract: Shimian county, Ya'an City, Sichuan Province produces in recent years a precious green jade material with soft texture, delicate and sparkling quality, and moderate hardness, known commercially as "Yacui".For an in-depth analysis of its category and naming, "Yacui" samples from Baishuihe mine in Shimian county are tested by using conventional gemmological methods, polarizing microscope, FTIR, XRD and WDXRF.First, physical properties of "Yacui" samples are observed.Samples have massive structure and rare granular metal minerals, and some samples have some dendritic inclusions and yellow dyeing fabric.The main colour is green, bluish green, yellowish green, and light bluish green.Samples are being of waxy luster to oily luster and from opaque to transparent.Second, conventional gemmological methods are used to get the basic gemmological characteristics of the stone samples.The refractire index is between 1.56 and 1.57 (point measurement).The density is between 2.81 and 2.91g/cm3 (due to minor differences in mineral component).The Mosh hardness is between 2 and 3 (soft than a knife).The green parts show no fluorescence under both SW and LW, while the white part shows pale yellow in LW.The green parts show weakly narrow absorption band in the red area under the spectroscope, and turn red under the Chelsea colour filter, and do not react with HCl, while the parts bubble.Third, the mineral slices observed under polarizing microscope show that the main mineral component is closely packed mica with structure of microscopic flakes or fibrous aggregates.The interference colour is gorgeous and average size of mineral particles is about 0.050.20mm.Secondary minerals are calcite, quartz, pyrite, the proportions of which are as microscopic as trace elements, and they are mainly enriched in surrounding rocks.Fourth, samples are tested under infrared spectrometer.The spectra of the seven stone samples are the same as sericite in the standard map, and it can be inferred, from the interlayer water content concerned absorption peak at 3 475cm-1 and 1 645cm-1, that interlayer water content has a certain effect on the quality of the samples.Fifth, X-ray powder diffraction analyses of the green parts, which are obtained from grinded samples, show that the principal mineral is sericite, about 74%, and minor minerals are kaolinite, talc, quartz, with content of 15%, 3%, 8% respectively.Sixth, analysis by wavelength dispersive X-ray fluorescence spectrometer shows that high concentration of Al, Si, K in the chemical composition match those of sericite.Appearance of trace element Cr2O3 in samples, together with characterisations under the colour filter and the spectroscope, indicates that Cr is colouring element of "Yacui".The results show that the main components of the "Yacui" are densely aligned sericite, with minor elements of quartz, kaolinite, talc, calcite and other minerals.Based on analyses above, this paper categorizes "Yacui", conforming to "Six virtues standards" of "fine, clean, warm, moist, greasy and condensate", into sericite QingTian stone.
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出版历程
  • 收稿日期:  2013-01-21

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