云母在黄河口段沉积物中的形状系数与等效沉积

    MICA SHAPE FACTOR AND ITS EQUIVALENT SEDIMENTATION IN THE SEDIMENTS OF THE YELLOW RIVER ESTUARY

    • 摘要: 云母有着独特的片状结构和晶形,为了分析云母与其他粒状碎屑矿物的水力沉积差异,以黄河口段沉积物为对象,分粒级进行轻、重矿物鉴定,挑选出其中的白云母以及不同风化程度的黑云母,测量了5个样点、约12 000颗碎屑云母的粒径与厚度,以此比较片状云母与粒状石英和长石在水体中的等效沉积。结果表明,黄河口沉积物中云母含量约为1.8%~9.7%,其在不同样品和不同粒级之间差异很大,在1.5Φ~5.5Φ粒级之间云母含量由高至低急剧减少;云母厚度大都<20 μm,平均厚度仅8.93 μm,白云母的厚度一般小于黑云母;薄片状云母体积远小于相同粒径的粒状石英、长石,约为石英和长石的16%~55%;云母体积的变化可由其形状系数−径厚比来反映,云母的径厚比大都介于5~60。片状云母与粒状石英和长石在搬运与沉积过程中水力特性差异明显,等效沉积作用常使较大粒径云母与细粒泥质沉积密切共生。

       

      Abstract: Mica has a unique sheet-like structure and crystal form. In order to study the hydraulic difference between mica and other granular detrital minerals, light and heavy minerals were identified for the sediments of different size taken from the Yellow River Estuary. Muscovite and the biotite with different weathering degree were selected as research objects. The particle size and thickness of about 12 000 detrital mica from 5 samples were measured to study the equivalent size for sheet-like mica and granular feldspar and quartz in water. The results show that the content of mica in the Yellow River sediments is about 1.8%~9.7% in general, which vary greatly between different samples and different grain size grades and the content of mica decreases sharply from high to low around the grain size of 1.5Φ~5.5Φ. The thickness of mica is mostly less than 20 μm with an average of 8.93 μm. Muscovite is generally thinner than biotite. The volume of sheet shaped mica is approximately 16% to 55% of granular minerals, which is much smaller than those of feldspar and quartz. The volume change of mica can be described with shape factor and the diameter-thickness ratio, which varies between 5~60. According to the Corey and Stokes law, for mica and granular minerals such as feldspar and quartz, the sedimentation rate of mica is only 0.12%~0.33% of that for feldspar and quartz if they are the same in grain size. If the sedimentation rates are same for the two kinds of sediments, the grain size distribution of mica is wider than that of feldspar and quartz, with a difference of about 1.0Φ~1.5Φ. Therefore, the hydraulic behavior of sheet-like mica and granular feldspar and quartz are obviously different in the process of transportation and deposition. Equivalent deposition often makes large-particles of mica deposited together with fine-grained muddy deposits.

       

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