广东化州大坡高岭土矿的物质成分和矿物学特性及其对造纸应用的影响

广东化州大坡高岭土矿属花岗岩风化残积型矿床,矿石矿物成分简单,以高岭石和石英为主,两者在粒级分布上差异明显,很易分选。精选后的高岭土中,高岭石含量可达91%,石英为1%以下。高岭石有序度较高,晶形规则,大多以叠片状和蠕虫状产出,但经机械处理后大部分可剥离成细小的高岭石单晶。矿石化学成分中Fe2O3,TiO2含量低,使高岭土具有较高的自然白度。造纸涂布试验表明高岭土的涂布性能良好,涂布纸具较高的平滑度,但涂料粘度偏高,这些性能和高岭石的矿物学特征有关。     

滕冲沙坡高岭土矿床矿石特征及其应用分析

文中系统地介绍了腾冲沙坡高岭土矿床矿石及高岭石特征，分析了高岭土涂布小试结果及在造纸工业上的应用。     

陕西府谷高岭土矿沉积环境与成矿关系研究

通过对高岭土矿及含矿沉积环境分析,认为府谷地区沉积型硬质高岭土矿分别形成于海岸后受淡水控制的湖泊、三角洲分流间湖泊、三角洲平原湖泊和曲流河岸后湖泊等。不同沉积环境其矿体特征、矿石类型及工业用途不同。海岸后受淡水控制的湖泊、三角洲分流间湖泊型沉积高岭土矿规模巨大,分布范围广,但高岭石含量低,杂质含量高,质量较差,工业用途受限用于制瓷业。而三角洲平原湖泊和曲流河岸后湖泊型矿床规模较前者小些,但高岭石含量高,杂质含量低,质量好,用于造纸、涂布原料及分子筛等。该项研究成果对高岭土矿勘查及其工业利用有所帮助。     

腾冲沙坡高岭土矿床矿石特征及其应用分析

文中系统地介绍了腾冲沙坡高岭土矿床矿石及高岭石特征，分析了高岭上涂布小试结果及在造纸工业上的应用。     

不同产地煤系高岭土的矿物学特征及插层复合物的制备

金洋、蒙西和雪纳高岭土化学成分以SiO₂和Al₂O₃为主,K、Na、Ca、Mg含量低,而Fe、Ti含量较高;矿物成分以高岭石为主,还含有少量一水软铝石、石英、蒙脱石等。XRD和IR分析结果表明,金洋和蒙西高岭石的有序度较高,HI结晶指数分别为1.19和1.23,而雪纳高岭石的衍射峰峰形弥散,对称程度差,HI结晶指数仅有0.56。二甲基亚砜和甲酰胺与煤系高岭土相互作用后均能进入高岭石层间并撑大其晶面间距,其中金洋高岭土的插层率最高,雪纳次之,蒙西高岭土的插层效果最差。     

鄂尔多斯盆地东胜煤田高岭土的物质组成及质量特征

东胜煤田延安组含煤岩系砂岩型高岭土矿石属杂砂岩，基质含量高，矿物组成简单，石英和高岭石分别构成砂岩的碎屑和基质，其它组分含量低碎屑与粘土在粒度和物性上的差异，使两者易于分离。精选漂白的高岭土纯工高，细料组分个体户量和自然白度均较高，是一种优良高岭土。分选出的石英等尾砂ＳｉＯ２含量大于９０％，可综合利用。     

龙岩高岭土矿床地质特征及成矿作用

福建龙岩高岭土矿床是蚀变花岗岩风化残余型矿床。花岗岩风化剖面具有明显的垂直分带性，各带有特征的粘土矿物组合、含量和化学组分。矿石矿物主要有高岭石、埃洛石、水白云母、石英及少量长石。高岭石的结晶有序度较低，粒度一般大于２μｍ。埃洛石粒度多小于２μｍ．龙岩高岭土矿石具有贫铁、钛和自然白度高的特征，属优质大型高岭土矿。其成矿作用经历了内生岩浆分异、热液蚀变和表生风化三大地质作用。     

高岭土矿物组分特征对纸张涂布粘浓度的影响

粘浓度是纸张涂布的一项重要指标，它受涂布高岭土的矿物组分特征所影响。蒙脱石、水云母类矿物的存在，特别是蒙脱石的混入对涂布高岭土是有害的。高岭石的结晶有序度与粘浓度存在一定联系。高岭石的结晶指数采用Ｈｉｎｃｋｌｅｙ方法测定，从０．３３变化至１．２７，其粘浓度的范围从４１．７－６６．５％。当结晶度指数大于１时，粘浓度大于６６％；当结晶度指数小于１时，粘浓度小于６６％。有序的高岭石有利于粘浓度的提高。进     

湖南仙人岩高岭土矿床开发利用前景评价

通过仙人岩高岭土矿床的化学成分、矿物组成及部分工艺矿物学特征的详细研究，表明仙人岩高岭土矿石铁、钛含量高，高岭石结晶较差，矿石难以分选；因此，在目前的经济技术条件下不宜开发利用     

广东某地高岭土的特征研究

通过光学显微镜、X射线衍射（XRD）、X射线荧光光谱（XRF）、电子探针和扫描电镜（SEM）等手段,对广东某高岭土进行了系统研究。研究表明,该高岭土淘洗率为71%。石英和钾长石在+0.045 mm粒级中富集;白云母在+0.030 mm粒级富集;高岭石（埃洛石）在-0.045 mm粒级中富集。各粒级烧成白度较高,-0.010+0.005 mm粒级烧成白度最高,达到85.69%。目的矿物高岭石为片状和叠片状,埃洛石为管状。高岭土中Ti含量较低,为0.051%,Fe含量较高,为1.009%,主要以表面铁和晶格铁形式存在。     

RS和GIS技术集成及其应用

本文简要地介绍了ＲＳ（遥感图像处理系统）和ＧＩＳ（地理信息系统）技术及其集成的基本概念和方法。讨论了ＲＳ和ＧＩＳ技术及其集成的内在涵义、相互关系,认为ＲＳ是ＧＩＳ重要的外部信息源,是其数据更新的重要手段,尤其对于全球性的 地理动力学分析,更必须有ＲＳ所提供的覆盖全球的动态数据与ＧＩＳ的结合。反之,ＧＩＳ则可以提供ＲＳ所需要的一些辅助数据,以提高ＲＳ图像的信息量和分辨率,同时,ＧＩＳ可以将实地调查所     

红藻石和蓝藻石概念及分类归属的综述和修订

在分析和总结前人对红藻石和蓝藻石研究成果基础上,结合岩石薄片显微镜下观察实例,发现在以往碳酸盐岩颗粒分类中没有红藻石和蓝藻石的合适位置。鉴于红藻石重要的成因意义和造礁作用,有必要明确红藻石的概念和归属。珊瑚藻本身极易钙化,经生物矿化作用最终保存下来的珊瑚藻屑一直放在生物碎屑中,而红藻石是由非固着的珊瑚藻构成的钙质独立结核,因此也可以被划分到生物碎屑中。蓝藻石作为蓝细菌钙化作用的产物,同时鉴于蓝藻石的广泛存在,把钙化蓝细菌形成的核形石命名为蓝藻石,这一重要概念从提出到现在一直被使用。然而蓝绿藻概念已变更为蓝细菌,蓝藻石的形成与藻类无关,显然将其称作蓝菌石更加确切。因此,应将红藻石和蓝藻石分别归为生物碎屑和核形石当中,并用新的术语蓝菌石替代蓝藻石。其意义在于使红藻石和蓝藻石的概念及归属更为规范,并为碳酸盐岩颗粒的深入研究提供有益线索。     

自动化智能化地质岩芯钻探技术装备研发与应用

为解决5000 m地质岩芯钻探基础准则与依据缺失问题，提高钻探装备的自动化、智能化水平，启动了5000 m智能地质钻探技术装备研发工作，通过钻机装备、钻探器具研制，钻探工艺技术研究并经试验示范验证，取得多项创新成果，形成了5000 m地质岩芯钻探技术体系。通过特深孔钻孔口径与管柱规格优化研究、钻杆规格设计、装备性能参数选配，形成了5000 m地质岩芯钻探技术规范体系；基于5000 m特深孔地质岩芯钻机、孔口自动化作业装置等关键设备研制，实现了绳索取芯钻进的孔口作业全流程自动化，形成了轻量化钻机孔口管柱柔顺控制技术；基于复杂地层孔内工况判别、钻进参数优化与轨迹优化控制等技术问题研究，形成了多源信息融合的地面与孔底一体化钻进过程智能控制技术；基于高性能薄壁绳索取芯钻杆和系列小口径高效钻具研制，形成了大深度绳索取芯系列钻杆钻具技术；研发了耐高温环保型冲洗液、生物破胶废浆处理技术、“广谱型”双浆堵漏技术，形成了绿色环保型冲洗液体系与护壁堵漏技术。     

自动化智能化地质岩芯钻探技术装备研发与应用

为解决5000 m地质岩芯钻探基础准则与依据缺失问题,提高钻探装备的自动化、智能化水平,启动了5000 m智能地质钻探技术装备研发工作,通过钻机装备、钻探器具研制,钻探工艺技术研究并经试验示范验证,取得多项创新成果,形成了5000 m地质岩芯钻探技术体系。通过特深孔钻孔口径与管柱规格优化研究、钻杆规格设计、装备性能参数选配,形成了5000 m地质岩芯钻探技术规范体系;基于5000 m特深孔地质岩芯钻机、孔口自动化作业装置等关键设备研制,实现了绳索取芯钻进的孔口作业全流程自动化,形成了轻量化钻机孔口管柱柔顺控制技术;基于复杂地层孔内工况判别、钻进参数优化与轨迹优化控制等技术问题研究,形成了多源信息融合的地面与孔底一体化钻进过程智能控制技术;基于高性能薄壁绳索取芯钻杆和系列小口径高效钻具研制,形成了大深度绳索取芯系列钻杆钻具技术;研发了耐高温环保型冲洗液、生物破胶废浆处理技术、“广谱型”双浆堵漏技术,形成了绿色环保型冲洗液体系与护壁堵漏技术。     

矿物——成矿与找矿

单颗粒矿物微量元素激光原位定量分析测试数据的大量积累和研究,使矿物成为矿床地球化学研究和矿床勘查的重要示踪剂。本文重点选择磁铁矿、磷灰石、石榴子石、榍石、锆石、绿泥石和绿帘石等的原位分析研究所获得的认识,介绍单颗粒矿物成分组合及变化在矿床类型划分、成矿年龄测定、氧逸度、成矿过程与物质来源、找矿与勘探等方面的应用。不同矿床类型中普遍存在的矿物,如磁铁矿、磷灰石等的微量元素含量及组合差异,提供了矿床类型识别的标志。单颗粒矿物,特别是矿石矿物和密切共生矿物如锡石、铌钽铁矿、赤铁矿、石榴子石、方解石等的原位定年,使成矿年龄的直接准确测定成为现实。矿物中变价元素,如Fe、V、Mn、Ce、Eu含量和/或比值的变化,指示了成矿过程氧逸度及其变化特点。从矿物核部向震荡环带与边部的微量元素含量或同位素组成的变化,示踪了成矿过程中流体来源或性质的变化。斑岩和矽卡岩矿床中与成矿作用关系密切的蚀变矿物,如绿泥石、绿帘石的形成温度、特征微量元素比值,如Ti/Sr、Ti/Co、V/Ni、Mg/Sr等,与距矿床中心距离呈线性函数关系,可定量预测距矿床中心的距离,使以绿泥石、绿帘石为代表的找矿指示矿物研究迅速发展。     

桩-岩摩擦黏着特性的试验与分析

研究桩与岩石的侧摩阻力组成及影响因素,有助于准确地把握桩与岩石的侧摩阻力取值原则。在对桩与岩层的摩擦黏着机制分析的基础上,指出界面力与岩层抗剪力的区别,并提出岩层的极限侧摩阻力由界面强度及岩石强度两者较弱一方决定的观点。进行了中风化岩中4组混凝土短桩的抗压及抗拔极限摩阻力对比试验,获得了相应的极限侧摩阻力值以及抗拔与抗压极限侧摩阻力值的比值。抗拔时由于上部岩层对桩侧岩层的约束作用较弱,会使侧摩阻力相对抗压时有较大降低。通过有限元计算及其与试验值的比较分析,研究短桩与岩层的界面强度条件,发现岩层和混凝土灌注桩间的侧摩阻力中界面黏着力占很大比例。     

现代新技术新方法与工程地质

本文阐述了瓣技术，新方法应用于工程地质研究取得的进展，内容涉及原位测试技术，数值模拟技术，物理模拟技术和物探测技术，这些方面的研究推动了工程地质学的发展。     

Cumulate and Cumulative Granites and Associated Rocks

Abstract. Processes that move crystals relative to melt, that is crystal fractionation, are of major importance in producing variations that are observed within cogenetic suites of granites. In low‐temperature granite suites, crystal fractionation initially involves the progressive separation of crystals residual from partial melting from that partial melt. Once separation of those crystals, or restite, has been completed, further fractionation may occur through the separation of crystals that had precipitated from the melt, the process known as fractional crystallization. High‐temperature granite magmas are largely or completely molten and elements such as Ca, Mg and Fe, and their associated minor elements, are in that case dissolved in the melt. Such magmas, particularly those that are more potassic and hence contain a higher fraction of low temperature melt, may evolve compositionally through fractional crystallization. Cumulate rocks result, comprising a framework of cumulus minerals with interstitial melt. In this process some of the melt is also displaced to form more felsic rocks. Such cumulate rocks may have distinctive chemical compositions, but that is often not the case. Distinctive features include SiC>2 contents near or below 50 % in rocks that are transitional in the field to more felsic granites, very high Cr and Ni, very low K, P, Ba, Rb and Zr, and anomalous abundances of the anorthite components Ca and Al. These rocks may also have positive Eu anomalies. Cumulate rocks do not necessarily have distinctive textures, at least as such features are understood at this time. Fractional crystallization can also involve the movement of precipitated crystals relative to melt. We refer to rocks as cumulative when formed from the fractions in which the abundance of crystals has increased. The production of cumulative granites typically occurs at more felsic melt compositions than is the case for cumulate granites, and this process may have its greatest significance in the fractional crystallization of the felsic haplogranites. Relative to felsic granites of broadly similar compositions lying on a liquid line of descent, cumulative granites contain more Ca, reflecting the addition from elsewhere of plagioclase crystals with solidus compositions. The abundances of Sr and Ba may be high to very high, and sometimes there are positive Eu anomalies. Cumulative I‐type granites may have low abundances of Y and the heavy REE, while the S‐type granites can be very distinctive with anomalously high abundances of Th and the heavy REE resulting from the concentrating of monazite. Generally, but not always, those who propose fractional crystallization as a mechanism for producing compositional variation within a suite of granites do not state whether the rocks in that particular case are thought to lie on a liquid line of descent or are cumulates/cumulative, although it is generally presumed that they were melts. Our experiences in eastern Australia have shown that the mechanism of fractional crystallization was quantitatively not as important during granite evolution as many workers would expect. However, there are some excellent examples of that process, most notably the Boggy Plain Supersuite. Overall in eastern Australia, varying degrees of separation of restite is a much more common mode of crystal fractionation, and that may also be seen to be the case for some other granite provinces if they are examined with that possibility in mind.     

中国东部中生代高Sr低Yb和低Sr高Yb型花岗岩：对比及其地质意义

中国东部在晚中生代时（晚侏罗世-旱白垩世）有广泛的中酸性岩浆活动,按照花岗岩的地球化学特征,大致可以划分为东北、华北和华南3个岩区。本文研究表明,按照Sr和Yb的含量,大致可以将花岗岩分为5类．即：高Sr低Yb型（Sr〉400μg／g,Yb〈2μg／g）、低Sr低Yb（Sr〈400μg／g,Yb〈2μ/g）、低Sr高Yb（Sr〈400μg／g,Yb〉2μg／g）、高Sr高Yb型（Sr〉400μg／g,Yb〉2μg／g）以及非常低Sr高Yb型（Sr〈100μg／g,Yb=2—18μg／g）花岗岩。东北和华南以发育低Sr高Yb花岗岩为主,有少量高Sr低Yb和非常低Sr高Yb类型的花岗岩分布;而华北则以高Sr低Yb型花岗岩（埃达克岩）最发育,低Sr高Yb、低Sr低Yb型和非常低Sr高Yb型花岗岩有少量分布。本文着重探讨了华北和华南花岗岩的特征,认为华北和华南花岗岩地球化学的区别可能主要与花岗岩源区成分和深度有关,且主要受源区深度的控制。如果花岗岩熔融的源区残留相由榴辉岩组成（石榴石＋辉石＋金红石＋／一角闪石）,则花岗岩明显亏损HREE、Nb、Ta和Ti,而富集Sr和Al,无明显的负铕异常,属于高Sr低Yb（埃达克岩）类型;如果源区深度浅,由斜长角闪岩或麻粒岩组成（斜长石＋辉石＋角闪石）,则花岗岩相对贫Sr富Yb。作者认为,华北和华南花岗岩地球化学特征上的上述差异,表明在晚中生代时（晚侏罗世．早白垩世）。华北和华南的地壳厚度不同：华北较厚,华南较薄;华北经历了下地壳拆沉而华南无;华北和华南的下地壳成分不同,华北较基性的下地壳拆沉后,留下的地壳平均成分与华南比偏中性。     

Etch and intracutaneous landforms and their implications

Many landforms, major and minor, and including plains of various types, inselbergs, boulders, flared slopes, Rillen and rock basins, are initiated beneath the land surface, at the weathering front. They have evolved in various lithological settings. Most are formed by differential moisture attack, either controlled, or strongly influenced, by bedrock structure. Such forms of subsurface derivation may be differentiated into etch or subcutaneous features that were initiated at the base of the regolith, and intracutaneous forms that had their origin within the weathering zone. Although the agent or agents responsible for eroding the regolith and exposing the bedrock forms have varied in space and time, the similarity of etch and intracutaneous forms is such that their basic morphology persists regardless of the climatic regime in which they now occur. As the regolith is widely developed on the land surface, the forms initiated beneath and within it cannot be taken as climatic indicators. Indeed, like structural forms, these convergent forms represent a varied but significant azonal element in the physiographic landscape.