深源流体—老王寨金矿床含矿流体来源的一种可能性

老王寨金矿床含矿流体是一种富含矿化剂Ｃｌ＾－、ＣＯ２和Ｓ＾２－的高温高压深源流体。石英中流体包裹体的δ＾１８ＯＨ２Ｏ值在＋６．９１‰￣＋１１．７６‰之间，δＤＨ２Ｏ值为－６８．１０‰￣－１０１．１０‰之间，辉锑矿的δ＾３４Ｓ值为－０．１５‰￣－１．０３‰，方解石的δ＾１３Ｃ值为－０．３４‰￣－３．１２‰。研究结果表明，这种流体既不是岩浆热液也不是大气降水，而是一种深源流体。     

滇中及邻区前地台大地构造演化与铜成矿作用

通过构造层的划分，探讨滇中及邻区前边台演化与运动特征。认为该地区前地台经历了萌陆壳稳定阶段、原陆壳活动阶段、稳定阶段和地槽阶段。壳体演化与运动是幔交替活动与壳体成熟之间互相联系互相制约的结果。最后总结了钢成矿作用与构造演化的若干关系。     

四川呷村黑矿型矿床硅质岩的硅,氧同位素组成及其与现代海底硅质烟…

本文首次报道了川西呷村黑矿型矿床硅质岩的硅，氧同位素组成，其δ＾１８Ｏ为１２．８‰－１８．３－‰形成温度约９９－１２０℃，δ＾３０Ｓｉ为０．０‰－１．６‰，与Ｍａｒｉａｎａ和Ｇａｌａｐａｇｏｓ热液硅质烟囱的δ＾３０Ｓｉ值范围基本相当，揭示两者具相似的形成机制。     

华北地台北缘中段构造演化及成矿控矿作用

本文以华北地台北缘中段的构造演化为主线，论述了地质构造了成矿控矿作用。研究认为前燕山期古亚洲域构造演化阶段，华北地台北缘作为华北板块陆缘活动带形成了多条东西向韧性剪切变形质带。     

柴厂金帮田的成矿作用特征

通过柴厂金矿田的地质特征及成矿作用研究，认为成矿物质主要来自深源，部分萃取自含矿围岩，矿质来源，运移通道和储矿构造扩容带是金矿成矿的主要控制因素，其中构造活动是主导性控制因素。据此提出了进一步找矿方向。     

邛莫金矿床中的灰硒汞矿

灰硒汞矿是一种少见的矿物。该文叙述的灰硒汞矿产于西秦岭南亚带邛莫微细浸染型金矿床中。与其共生的矿物有自然金、灰硒铅矿、硒锑矿、硒镍矿、硒－辉锑矿、硒－块硫锑铜矿、硒－辉砷镍矿等。     

X射线荧光测井的井液效应及其校正

本文从Ｘ射线的性质，以及Ｘ射线与物质作用的机理出发，对井液效应进行了研究，并对其影响过程进行模拟。在理想井液模型上，推导出Ｘ射线活度与钻孔参数的数理关系。在此基础上，进一步研究得到了能适应野外多变情况的井液效应校正公式（ＣＢＷＥ）和方法。     

不透明矿物所含单个低盐度流体包裹体液相组分SAM／AES实验研究…

针对与矿石矿物共存透明脉石矿物所含流体包裹体并不完全代表成矿流体，红外显微技术及ＥＰＭＡ、ＳＥＭ常规表面分析手段无法满足不透明矿石矿物所含单个低盐度流体包裹体研究的实际困难，本文首次成功地应用具同步扫描成象功能，电子束斑空间分辨率较高、信噪比较好的ＰＨＩ ５９５ ＳＡＭ／ＡＥＳ这一当代高灵敏表面分析技术，按单矿物分选→二次去离子水反复超声清洗→外真空热爆→在金属铟片上压制成样的实验流程对新疆阿尔泰     

A Study on the Geological—Geochemical Dynamics of Hydrothermal Ore Deposition as Exemplified by the Muping—Rushan Gold Deposit Belt,Eastern Shandong,China

This paper presents a method of establishing a hydrothermal ore-forming reaction system.On the basis of the study of four typical hydrothermal deposits,the following conclusions concerning geochemical dynamic controlling during hydrothermal mineralization have been sions concerning geochemical dynaamic controlling during hydrothermal mineralization have been drawn:(1)The regional tectonic activities control the concentration and dispersion of elements in the ore-forming process in terms of their effects on the thermodynamic nature and conditions of the ore-forming reaction system.(2)During hydrothermal mineralization the activites of ore-bearing faults can be divideb into two stages:the brittle splitting stage and the brittle-tough tensing stage,which would create characteristically different geodynamic conditions for the geochemical thermodynamic ore-forming system.(3)The hydrothermal ore-forming reaaction system is an open dynamic system.At the brittle splitting stage the system was so strongly supersaturated and unequilibrated as to speed up and enhance the crystallization and differentiation of ore-forming fluids.And at the brittle-tough tensing stage,the ore-forming system was in a weak supersaturated state;with decreasing temperature and pressure the crystallization of oreforming material would show down,and it can be regarded as an equilibrated state.(4)In the lates stages of hydrothermal evolution,gold would be concentrated in the residual ore-forming solution.The pulsating fracture activite in this stage led to the crush of pyrite ore and it was then filled with gold-enriched solution,forming high-grage“fissure”gold ore.This ore-forming process could be called the coupling mechanism of ore formation.