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Volume 17 Issue 6
Nov.  2015
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Gemmological Characteristic of Nanhong Agate and Formation of Red StripeZHU Lin, YANG Mingxing, TANG Jianlei, YANG Xindi. Gemmological Characteristic of Nanhong Agate and Formation of Red StriDe[J]. Journal of Gems & Gemmology, 2015, 17(6): 31-38.
Citation: Gemmological Characteristic of Nanhong Agate and Formation of Red StripeZHU Lin, YANG Mingxing, TANG Jianlei, YANG Xindi. Gemmological Characteristic of Nanhong Agate and Formation of Red StriDe[J]. Journal of Gems & Gemmology, 2015, 17(6): 31-38.
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Gemmological Characteristic of Nanhong Agate and Formation of Red StriDe

  • Gemmological Institute, China University of Geosciences, Wuhan 430074, China

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  • Received Date: May 20, 2015
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  • The authors used X-ray powder diffraction (XRD), scanning electron microscope (SEM), infrared spectrometer, laser Raman spectrometer, laser induced breakdown spectroscopy (LIBS) and other modern advanced analytical instruments to study the mineral components of Nanhong agate in order to understand the influence factors of colour and to explain the formation of red stripes. The refractive index of Nanhong agate is about 1.54 to 1.55, and relative density is 2.642. These agates show no reaction under the ultraviolet lamps and show cryptocrystalline structure, conchoidal fracture and glassy luster. The major mineral component of Nanhong agate is quartz, with high content of Si, followed by Fe and trace elements such as K, Ca, Al, Mg and Cl. Furthermore, the intensity of red colour is directly proportion to the Fe contents. The laser Raman spectroscopy results show that the red parts show the presence of hematite. The reasons for the formation of the red stripes in Nanhong agate can be summarized as follows:the magmatic fluid in the cavity causes periodic crystallization of the agate. Fe is in the form of independent iron mineral (hematite), which makes the agate display red colour. And the higher iron oxide content, the deeper the red colour. In terms of pattern, when the crystallization rate is proper, the injected fluid can evenly distributed to form the parallel stripes. However, when the crystallization rate is too fast, the fluid does not have sufficient time to even distribution and thus it leads to the formation of messy lines which may look like flames.
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  • [1]
    曹妙聪,翟雨萌.南红玛瑙的宝石学性质及鉴别[J].长春工程学院学报(自然科学版),2013, 14(3):123-125.
    [2]
    苏然.吉祥盛世南红归来[J].中国收藏,2011(3):124-125.
    [3]
    臧洪贵,刘海,史子龙.古老的珍宝——玛瑙[J].赤峰学院学报,2011(12):174-177.
    [4]
    涂彩, 袁心强, 周钊.利用激光诱导离解光谱检测铍铝元素区分透闪石白玉产地[J].岩矿测试, 2012, 31(2):301-305.
    [5]
    李建军,刘晓伟,王岳.不同结晶程度SiO2的红外光谱特征及其意义[J].红外, 2010, 31(12):31-35.
    [6]
    谢天琪.辽宁阜新"战国红"玛瑙致色机理及结构成因探究[D].北京:中国地质大学,2014.
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