Mg-Fe云母化学成分的解释和分类(Ⅰ)——基本置换和黑云母平面          下载免费PDF全文

孙世华  于洁 《地质科学》1989,(1):33-48

中国东部花岗岩类141个Mg-Fe云母的化学成分将近90%的变化属于八面体层内的类质同象置换,置换矢量Mg ₁Fe⁺²和Fe_-3⁺²(R_Ⅵ⁺³)_-2□_Ⅵ组成了天然黑云母平面,大约80%的变化应当解释为基本置换8Mg ₁Fe⁺²+Fe_-3⁺²(R_Ⅵ⁺³)₂□_Ⅵ.这些是Mg-Fe云母在广泛的自然条件下表现出来的最主要的晶体化学关系。文中还提出了置换矢量的长度、分量和以及电价和三个参数,用以识别矿物化学成分变化的类质同象置换特征。  相似文献   

南岭中段一六矿床绿柱石和白云母矿物学特征及其地质意义     

秦锦华  王成辉  陈毓川  赵如意 《矿床地质》2022,41(5):1025-1041

南岭多金属成矿带中段南部的一六矿床新发现了花岗伟晶型的Be矿化。为进一步查明其矿化特征和成矿机制,文章对一六矿床中的绿柱石及共生的白云母开展了系统的矿物学和矿物化学研究。结果表明,绿柱石富集Li、Rb、Cs等,贫V、Cr、Mg、Mn,属于低碱-无碱绿柱石。云母的类型为白云母-多硅白云母,富集Li、W、Sn、Nb、Ta、Rb、Cs、Ba、Ga、Zn等元素,相对亏损Be、Mg、Cu、Pb等元素。绿柱石类质同象形式为Al³⁺→Me²⁺,其中Fe²⁺对Al³⁺的替换是绿柱石呈淡蓝色-蓝绿色的主要致色机制。白云母中稀有金属元素富集的机制为：① Li+Al^VI↔Fe²⁺+Mg（Li₃Al_-1□_-1和Si₂LiAl_-3）;② Rb⁺↔K⁺,Na⁺。绿柱石中高Cs/Na（apfu）比值,低Mg/Fe（apfu）比值,白云母高Nb、Ta、Cs,低K/Rb、K/Cs比值的特征指示一六矿床Be矿化花岗伟晶岩具有较高的分异演化程度。本次发现和研究为区域Be矿化作用研究提供了基础地质资料,也进一步为稀有金属、钨等矿种的找矿预测提供了思路。  相似文献   

Mg-Fe云母化学成分的解释和分类(Ⅱ)——Mg-Fe云母的自然分类   总被引：3，自引：0，他引：3       下载免费PDF全文

孙世华  于洁 《地质科学》1989,(2):176-189

给出云母化学成分比值FM=6(Fe⁺²+Mn)/(Fe²⁺+Mn+Mg),用以表示Mg-Fe云母成分变化的基本趋势。根据291个云母的化学成分相对于FM值的异常变化,提出了天然Mg-Fe云母自然分类的新方案:把FM≌1.20(1.05-1.35)、4.80作为区分金云母、黑云母和铁叶云母的界线;FM>0.60的金云母称为铁金云母;以FM=2.70、3.60把黑云母再细分为富镁黑云母、镁铁黑云母和富铁黑云母。Mg-Fe云母自然分类的本质是各成员云母之间白云母置换方式和限度的潜在差异在不同的自然结晶条件下的反映。  相似文献   

新疆准噶尔盆地独山子泥火山天然气地球化学特征   总被引：2，自引：0，他引：2  

高苑  王永莉  郑国东  孟培  吴应琴  杨辉  张虹  王有孝 《地球学报》2012,33(6):989-994

独山子泥火山位于新疆准噶尔盆地南缘, 地处北天山山前坳陷带的独山子背斜轴部。本文通过分析独山子泥火山喷出天然气组分及其碳同位素研究, 对天然气的来源进行了判识。3个天然气样中δ¹³C₁值均在–41‰左右, C₁/(C₂+C₃)<20, 为热成因气; δ¹³C_(C2-C1)在15‰左右, iC₄/nC₄和C₂/C₃值均较高, 说明天然气曾遭受了厌氧微生物降解作用; 其中两个喷口的天然气δ¹³C_CO2值超过+10‰, 说明天然气在受微生物降解后发生CO₂还原作用二次生成甲烷, 而另外一个喷口δ¹³C_CO2值无正异常, 未发生CO₂还原作用。不同喷口相同成因天然气在储藏或运移过程中发生不同的改造作用, 说明泥火山不同喷口对应不同的天然气运移通道或储藏条件。  相似文献   

天山东部冰川雪坑离子浓度特征的对比研究     

李向应  刘时银  韩添丁  李忠勤  卢爱刚 《地球科学进展》2008,23(12):1268-1276

对2004年获取的天山奎屯河哈希勒根51号冰川1个雪坑和哈密庙尔沟平顶冰川4个雪坑的离子浓度特征进行了研究,结果表明：Ca²⁺、NO^-3和SO₄^2-是哈密庙尔沟平顶冰川雪坑雪层和积累区雪坑底部冰中的主要离子（尤其是Ca²⁺ ）,其雪层中的主要阳离子关系可在底部冰中得以较好的反映,但雪层中各离子浓度与海拔的相关性不明显,可能与海拔的跨度较小和挖取的雪坑较疏有关;雪坑底部冰中的离子浓度与海拔间明显的相关性说明淋融作用随着海拔升高、气温降低而逐渐减弱。SO₄^2-和Ca²⁺是奎屯河哈希勒根51号冰川雪坑中的主要离子（尤其是SO₄^2-）,其雪坑离子化学特征与哈密庙尔沟平顶冰川差别较大,可能与哈密庙尔沟平顶冰川处于塔克拉玛干沙漠、古尔班通古特沙漠和鄯善沙漠的下风向相关,还可能与雪层内淋融作用的强弱和沉积通量的高程效应有关。哈密庙尔沟平顶冰川积累区雪坑中NH₄⁺、NO₃^-和K⁺的Cs/Ci较Ca²⁺、Mg²⁺和Na⁺要大,奎屯河哈希勒根51号冰川Na⁺和NH4⁺的“雪冰比”较Cl-、SO₄^2-、Mg²⁺和Ca²⁺要大,说明这两条冰川雪坑中的Ca²⁺和Mg²⁺信号较其它离子可能更易于在冰芯记录中保存下来,为冰芯研究和古气候记录的恢复提供了保障。  相似文献   

钙钛矿型结构亚硝酸盐和氰化物的分子体积          下载免费PDF全文

董麒  叶大年 《地质科学》1993,(1):44

 绝大部分的亚硝酸盐和氰化物属于钙钛矿型结构,但有部分化合物为“反”钙钛矿型结构,充填空洞A位的阳离子的拓扑体积为0。阴离子团NO₂^-和CN^-的拓扑体积都近乎常数,分别为41.73ų和40.03ų,标准方差σ_n-1=1.516和σ_n-1=1.25。由此,进一步证明了原来的一套离子拓扑体积数值的普适性。“反”钙钛矿型结构中A位阳离子的平均半径r_A>1.00Å时,三价阳离子会产生扩容效应,其扩容系数大约是其本身拓扑体积的2倍;正钙钛矿型结构中,当A位是由半径较大的Cs⁺充填时,Cs⁺也会产生扩容效应,其扩容系数约为24ų。氰化物中结晶水分子的拓扑体积近乎常数,为24ų或0。  相似文献   

Fe-Li云母化学成分的解释和分类   总被引：3，自引：0，他引：3       下载免费PDF全文

孙世华 《地质科学》1988,(3):213-228

用置换矢量概念解释了115个天然 Fe-Li 云母化学成分的变化。Fe-Li 云母是三八面体 Li-Fe-Al 云母,其基本置换是四锂云母置换。由于 Al-Li 白云母置换和白云母置换的影响,其化学组成变化的基本趋势呈明显的非线性,因而 Fe-Li 云母不是真正的二元系。作为 Fe-Li 云母,富铁黑云母和铁叶云母都是最富铁的成员,因而建议称 Fe-Li 云母为黑云母-锂云母系列。根据化学成分,晶胞参数和折光率的异常变化还提出了该系列自然分类的方案。  相似文献   

辽南42号金伯利岩管地质特征及找矿预测          下载免费PDF全文

刘礼广  朱婉婷  王涛  王旭 《地质找矿论丛》2022,37(2):174-190

辽南42号金伯利岩岩管主要由东部42-1号大岩管、西部42-2号小岩管和中部42-3号小小岩管组成。42-1号岩管从地表到40 m标高形态急剧收缩;42-2号岩管为烟筒状,40 m标高至-160 m标高面积比为1∶1.15;42-3岩管在-200 m标高处延深为脉状。42号岩管岩石类型为斑状金伯利岩、斑状富金云母金伯利岩、含或富含围岩角砾金伯利岩和含岩球斑状金伯利岩。岩石化学特征研究表明,岩石中w(SiO₂)、w(Al₂O₃)、w(TiO₂)值比山东胜利Ⅰ号金伯利岩和戴里值偏高,w(MgO)、w(Cr₂O₃)、w(K₂O)、w(Na₂O)、w(P₂O₅)值较戴里值偏低,但w(K₂O)、w(Na₂O)、w(P₂O₅)值比山东胜利Ⅰ号金伯利岩略高;w(ΣFe₂O₃+FeO)、w(CaO+H₂O)值与山东胜利Ⅰ号金伯利岩及戴里值相当。通过采样分析42-2号岩管金刚石含量高,42-1号岩管金刚石含量低;研究认为受造岩矿物橄榄石和金云母的影响,金刚石含量与橄榄石斑晶含量正相关,与金云母含量呈负相关;伴生矿物铬铁矿、镁铝榴石、碳硅石含量高,则金刚石含量也随之增高,为正相关;而锐钛矿于金刚石含量为负相关。基于研究区的三维建模、推覆构造研究,推测42号岩管不是根部相,其东部可能存在深部金伯利岩体。  相似文献   

矿山环境土壤重金属污染潜在生态风险评价模型探讨   总被引：9，自引：0，他引：9  

李泽琴  侯佳渝  王奖臻 《地球科学进展》2008,23(5):509-516

Weeks(2005)提出有关土壤污染的生态风险“层叠式 (Tiered approach)”评价框架,有关各层次的评价技术是当前环境科学研究的热点。针对矿山环境土壤重金属污染生态风险特征,提出矿山环境土壤重金属污染潜在生态风险评价模型,属于Tire 1层次评价模型。根据矿山环境土壤重金属污染生态风险特征,遵循生态风险评价中的熵原理和证据权重原则,用土壤中重金属的浓度风险表征污染指数（Cⁱ_f）;以其环境生物可利用性表征毒性响应系数（Tⁱ_b）,以对污染指数进行修正;以重金属元素的生物毒性响应因子（T^i_e）为权重,提出矿山环境土壤重金属污染潜在生态风险评价模型：RI=∑^m_i=1Er_i其中,E^r_i= Tⁱ_e×Tⁱ_b×Cⁱ_f;RI表示土壤中多种重金属潜在生态风险指数;E^r_i为元素i的潜在风险因子;Cⁱ_f=Cⁱ/Cⁱ_o ,Cⁱ为土壤中重金属浓度实测值,Cⁱ_o为计算所需要的参照值。Tⁱ_b=（Rⁱ_b/ Pⁱ_b）1/2,Rⁱ_b为样品中某元素生物可利用相态占总含量的百分比,Pⁱ_b为参照土壤的相应比值。  相似文献   

K-H₃OFe₃(SO₄)₂(OH)₆铁矾的XRD研究     

许涛  邹来昌  阮仁满  廖占丕  苏秀珠  苏妤芸  黄丽娟 《岩石矿物学杂志》2013,32(6):995-1000

根据X射线衍射(XRD)分析发现: A Fe₃(SO₄)₂(OH)₆(A=K⁺、H₃O⁺)系列铁钒的XRD数据十分相近,难以用XRD区别,需通过能谱(EDS)辅助分析,才能区分此类铁矾。另外,此类铁矾的003和107面网间距d随K⁺含量增大而增大,且呈一元三次方程的关系;而033和220面网间距d随K⁺含量增大而减小,呈一元二次方程的关系。对该现象从铁矾晶体结构方面进行解释:K⁺、H₃O⁺离子位于较大空隙中,且沿着Z轴方向排列,当K⁺、H₃O⁺离子之间相互替换时,会导致该铁矾晶体结构在Z轴方向有较明显的变化。  相似文献   

Si+4 Content of natural phengites   总被引：2，自引：0，他引：2  

B. Velde 《Contributions to Mineralogy and Petrology》1967,14(3):250-258

The chemical compositions of white micas separated from adjacent rocks of glaucophane and greenschist facies are compared with respect to their Si⁺⁴ content. The micas are predominantly phengitic, i.e. between muscovite, K[Al₂Si₃AlO₁₀(OH)₂] and celadonite, K[(R⁺²R⁺³)Si₄O₁₀(OH)₂] in composition. Constancy of Si content in micas coming from rocks of different bulk chemical composition but closely similar physical conditions indicates that the silica content of a potassic dioctahedral mica can be used to indicate the pressure and temperature conditions of its formation. This conclusion is in part based upon previous experimental data obtained for synthetic phengites.  相似文献   

Application of a new approach to the calculation of electrostatic energies of expanded Di- and trioctahedral micas     

H. Donald  B. Jenkins  P. Hartman 《Physics and Chemistry of Minerals》1980,6(4):313-325

The electrostatic lattice energies of expanded and unexpanded micas are calculated starting from a “generic” structure the ionic charges of which are varied. The mode of expansion is to move the layers apart perpendicular to (001), the K⁺ ions remaining midway between the layers. The energy required for expansion is a quadratic function of the layer charge. It is larger when the layer charge is in the octahedral sites (K _x Al_2?x Mg _x Si₄O₁₀(OH)₂) than when it is in the tetrahedral sites (K _x Mg₃Si_4?x Al _x O₁₀(OH)₂). Fluormicas have a slightly larger expansion energy than OH-micas. With the tetrahedral layer charge, dioctahedral micas have a slightly larger expansion energy than trioctahedral micas. This mode of expansion is less favourable than the mode usually adopted, viz. an expansion whereby the K ions divide themselves between the layers. The energy difference increases with the separation distance and is about 60 kJ mol^?1 at 2.5 Å expansion. An intercalated water layer would be necessary to stabilize the K ions in positions midway between the layers.  相似文献   

含铝硅酸盐¹⁾吉布斯生成自由能的预测及Y.塔达方法向高温条件下推引的可能性          下载免费PDF全文

高平  张流 《地质科学》1982,(3):299-308

近几年来,Y.塔达等人^[3-7]建立了一种预测化合物吉布斯生成自由能的经验方法。  相似文献   

A high pressure-high temperature study of TiO₂ solubility in Mg-rich phlogopite: implications to phlogopite chemistry     

R.G Tronnes  A.D Edgar  M Arima 《Geochimica et cosmochimica acta》1985,49(11):2323-2329

The solubility of Tio₂ in phlogopites has been experimentally determined in the system K₂Mg₆Al₂Si₆O₂₀(OH)₄-K₂Mg₄TiAl₂Si₆O₂₀(OH)₄-K₂Mg₅TiAl₄Si₄O₂₀(OH)₄ between 825–1300°C and 10–30 kbar under vapour absent conditions. Starting compositions lie along the join K₂Mg₆Al₂Si₆O₂₀(OH)₄-K₂Mg_4.5TiAl₃Si₅O₂₀(OH)₄ which represents a combination of the Mg^[VI]2Si^[IV] = Ti^[VI]2Al^[VI] and $\text{2Mg}{}^{\mathrm{[VI]}}\text{=}\text{Ti}{}^{\mathrm{[VI]}}\text{□}{}^{\mathrm{[VI]}}$ substitution mechanisms for Ti in phlogopites. The results of the experiments indicate a systematic increase in solubility of Ti with increasing temperature and decreasing pressure for given bulk Tio₂ content. Under isobaric conditions high temperature Ti-saturated phlogopite breaks down to Ti-deficient phlogopite + rutile + vapour. Mass balance calculations suggest that the vapour phase may contain K₂O dissolved in H₂O and that the reaction is controlled by the vapour phase. Analyses of phlogopites coexisting with rutile and vapour can be represented in terms of the end-member components phlogopite [K₂Mg₆Al₂Si₆O₂₀(OH)₄], eastonite [K₂Mg₅Al₄Si₅O₂₀(OH)₄], an octahedral site deficient Ti-phlogopite (Ti-OSD) of composition K₂(Mg₄Ti□)Al₂Si₆)O₂₀(OH)₄, and Ti-eastonite [K₂Mg₅TiAl₄Si₄O₂₀(OH)₄]. With decreasing amounts of Ti in these phlogopites there is a decrease in the Ti-eastonite component and increase in the eastonite component.The general equation for the breakdown of Ti-phlogopite solid solution to Ti-free phlogopite + rutile + vapour is: 14 Ti-eastonite + 7 Ti-OSD ? 16 eastonite + 3 phlogopite + 21 rutile + 4 H₂O + 2 K₂O. Lack of knowledge of H₂O and K₂O activities in the vapour phase does not permit evaluation of thermodynamic constants for this reaction. The Ti solubility in phlogopites and hence its potential as a geothermobarometer under lower crustal to upper mantle conditions is likely controlled by common mantle minerals such as forsterite.  相似文献   

Thermodynamic study of calcic amphiboles     

L. P. Ogorodova  I. A. Kiseleva  M. F. Vigasina  L. V. Mel’chakova  I. A. Bryzgalov  D. A. Ksenofontov 《Geochemistry International》2017,55(9):814-821

The paper reports original thermochemical data on six natural amphibole samples of different composition. The data were obtained by high-temperature melt solution calorimetry in a Tian–Calvet microcalorometer and include the enthalpies of formation from elements for actinolite Ca_1.95(Mg_4.4Fe _0.5 ²⁺ Al₀₁)[Si_8.0O₂₂](OH)₂(–12024 ± 13 kJ/mol) and Ca_2.0(Mg_2.9Fe _1.9 ²⁺ Fe _0.2 ³⁺ )[Si_7.8Al_0.2O₂₂](OH)₂, (–11462 ± 18 kJ/mol), and Na_0.1Ca_2.0(Mg_3.2Fe _1.6 ²⁺ Fe _0.2 ³⁺ )[Si_7.7Al_0.3O₂₂](OH)₂ (–11588 ± 14 kJ/mol); for pargasite Na_0.5K_0.5Ca_2.0-(Mg_3.4Fe _1.8 ²⁺ Al_0.8)[Si_6.2Al_1.8O₂₂](OH)₂ (–12316 ± 10 kJ/mol) and Na_0.8K_0.2Ca_2.0(Mg_2.8Fe _1.3 ³⁺ Al_0.9) [Si_6.1Al_1.9O₂₂](OH)₂ (–12 223 ± 9 kJ/mol); and for hastingsite Na_0.3K_0.2Ca_2.0(Mg_0.4Fe _1.3 ²⁺ Fe _0.9 ³⁺ Al_0.2) [Si_6.4Al_1.6O₂₂](OH)₂ (?10909 ± 11 kJ/mol). The standard entropy, enthalpy, and Gibbs free energy of formation are estimated for amphiboles of theoretical composition: end members and intermediate members of the isomorphic series tremolite–ferroactinolite, edenite–ferroedenite, pargasite–ferropargasite, and hastingsite.  相似文献   

Compositional limits and analogs of monoclinic triple-chain silicates     

David M. Jenkins  Geoffrey J. Gilleaudeau  Cynthia Kawa  Jaclyn M. Dibiase  Maria Fokin 《Contributions to Mineralogy and Petrology》2012,164(2):229-244

Growing recognition of triple-chain silicates in nature has prompted experimental research into the conditions under which they can form and the extent of solid solution that is feasible for some key chemical substitutions. Experiments were done primarily in the range of 0.1–0.5 GPa and 200–850 °C for durations of 18–1,034 h. A wide range of bulk compositions were explored in this study that can be classified broadly into two groups: those that are Na free and involve various possible chemical substitutions into jimthompsonite (Mg₁₀Si₁₂O₃₂(OH)₄), and those that are Na bearing and involve chemical substitutions into the ideal end-member Na₄Mg₈Si₁₂O₃₂(OH)₄. Numerous attempts to synthesize jimthompsonite or clinojimthompsonite were unsuccessful despite the type of starting material used (reagent oxides, magnesite + SiO₂, talc + enstatite, or anthophyllite). Similarly, the chemical substitutions of F⁻ for OH⁻, Mn²⁺, Ca²⁺, or Fe²⁺ for Mg²⁺, and 2Li⁺ for Mg²⁺ and a vacancy were unsuccessful at nucleating triple-chain silicates. Conversely, nearly pure yields of monoclinic triple-chain silicate could be made at temperatures of 440–630 °C and 0.2 GPa from the composition Na₄Mg₈Si₁₂O₃₂(OH)₄, as found in previous studies, though its composition is most likely depleted in Na as evidenced by electron microprobe and FTIR analysis. Pure yields of triple-chain silicate were also obtained for the F-analog composition Na₄Mg₈Si₁₂O₃₂F₄ at 550–750 °C and 0.2–0.5 GPa if a flux consisting of Na-halide salt and water in a 2:1 ratio by weight was used. In addition, limited chemical substitution could be documented for the substitutions of 2 Na⁺ for Na⁺ + H⁺ and of Mg²⁺ + vacancy for 2Na⁺. For the former, the Na content appears to be limited to 2.5 cations giving the ideal composition of Na_2.5Mg₈Si₁₂O_30.5(OH)_5.5, while for the latter substitution the Na content may go as low as 1.1 cations giving the composition Na_1.1Mg_9.4Si₁₂O_31.9(OH)_4.1 based on a fixed number of Si cations. Further investigation involving Mg for Na cation exchange may provide a pathway for the synthesis of Na-free clinojimthompsonite. Fairly extensive solid solution was also observed for triple-chain silicates made along the compositional join Na₄Mg₈Si₁₂O₃₂(OH)₄–Ca₂Mg₈Si₁₂O₃₂(OH)₄ where the limit of Ca substitution at 450 °C and 0.2 GPa corresponds to Na_0.7Ca_1.8Mg_7.8Si₁₂O_31.9(OH)_4.1 (with the OH content adjusted to achieve charge balance). Aside from the Na content, this composition is similar to that observed as wide-chain lamellae in host actinolite. The relative ease with which Na-rich triple chains can be made experimentally suggests that these phases might exist in nature; this study provides additional insights into the range of compositions and formation conditions at which they might occur.  相似文献   

Chemical composition and species attribution of tourmalines from a rare-metal pegmatite vein with scapolite, Sangilen Upland, Tuva     

L. G. Kuznetsova  A. A. Zolotarev  O. V. Frank-Kamenetskaya  I. V. Rozhdestvenskaya  Yu. M. Bronzova  J. Spratte  A. Ertl 《Geology of Ore Deposits》2011,53(8):806-817

A detailed study of the chemical composition and substitutions in calcium tourmalines from a scapolite-bearing rare-metal pegmatite vein from the Sol’bel’der River basin has shown that their species attribution is determined by occupancy of octahedral site Y. The composition of the yellow tourmaline most abundant in the central part of the pegmatite bodyis rather constant and characterized by the ideal formula Ca(Mg₂Li)Al₆(Si₆O₁₈)(BO₃)₃(OH)₃F. Variations in the chemical composition of zonal tourmaline crystals from the contact part of the pegmatite are controlled by abrupt change in the chemical medium during their formation. The yellow cores of these crystals are close in composition to tourmaline from the central part of the pegmatite vein. The Mg content abruptly decreases toward the crystal margin: Mg²⁺ → Fe²⁺, 2Mg²⁺ → Li⁺ + Al³⁺, and Mg²⁺ + OH → Al³⁺ + O²⁻. The composition of dark green marginal zones in tourmaline is characterized by the ideal formula Ca(Al_1.5Li_1.5)Al₆(Si₆O₁₈)(BO₃)₃ (OH₂O)(F). The results indicate specific formation conditions of pegmatite. The crystallochemical formulas of the studied tourmalines allow us to regard them as new mineral species in the tourmaline group.  相似文献   

Mössbauer studies of synthetic and natural micas on the polylithionite-siderophyllite join     

Christian Levillain  Pierre Maurel  Francis Menil 《Physics and Chemistry of Minerals》1981,7(2):71-76

Mössbauer studies of micas on the polylithionite-side-rophyllite join show the existence of a relation between the quadrupole splitting (ΔE _Q) values of Fe²⁺ high spin doublets and both cationic and anionic composition of micas. This linear relation is positive as Li₂O content increases and negative as F content increases. In the lithium iron micas, the inner ferrous quadrupole doublet is assigned to the cis-site M(2), while the outer doublet is assigned to the trans-site M(1). A random distribution of Fe²⁺ is observed in fluorine-rich compositions, while slight enrichment of the M(1) site is noticed in hydroxyl compositions, perhaps due to a more sensitive oxidation in situ in M(2) than M(1) sites. The Mössbauer spectrum of siderophyllite K₂(Fe ₄ ²⁺ Al₂)(Si₄Al₄)O₂₀(OH)₄ shows the presence of only one ferrous doublet, which is assigned to M(2) sites. Hence from Mössbauer data we must consider a clintonite (“xanthophyllite”) structure for this mica. The ordered octahedral layer has two distorted ferrous cis-sites and one, more symmetrical, aluminum trans-site.  相似文献   

Thermochemical study of natural montmorillonite     

L. P. Ogorodova  I. A. Kiseleva  L. V. Melchakova  M. F. Vigasina  V. V. Krupskaya 《Geochemistry International》2013,51(6):484-494

The paper reports results of an experimental thermochemical study (in a heat-flux Tian-Calvet microcalorimeter) of montmorillonite from (I) the Taganskoe and (II) Askanskoe deposits and (III) from the caldera of Uzon volcano, Kamchatka. The enthalpy of formation Δ _f H _el ⁰ (298.15 K) of dehydrated hydroxyl-bearing montmorillonite was determined by melt solution calorimetry: ?5677.6 ± 7.6 kJ/mol for Na_0.3Ca_0.1(Mg_0.4Al_1.6)[Si_3.9Al_0.1O₁₀](OH)₂ (I), ?5614.3 ± 7.0 kJ/mol for Na_0.4K_0.1(Ca_0.1Mg_0.3Al_1.5Fe _0.1 ³⁺ )[Si_3.9Al_0.1O₁₀](OH)₂ (II), ?5719 ± 11 kJ/mol for K_0.1Ca_0.2Mg_0.2(Mg_0.6Al_1.3Fe _0.1 ³⁺ ) [Si_3.7Al_0.3O10](OH)₂ (III), and ?6454 ± 11 kJ/mol for water-bearing montmorillonite (I) Na_0.3Ca_0.1(Mg_0.4Al_1.6)[Si_3.9Al_0.1O₁₀](OH)₂ · 2.6H₂O. The paper reports estimated enthalpy of formation for the smectite end members of the theoretical composition of K-, Na-, Mg-, and Ca-montmorillonite and experimental data on the enthalpy of dehydration (14 ± 2 kJ per mole of H₂O) and dehydroxylation (166 ± 10 kJ per mole of H₂O) for Na-montmorillonite.  相似文献