首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
为了恢复兰坪盆地古近系云龙组的沉积环境,采用电感耦合等离子体质谱(ICP-MS)方法对兰坪盆地古近系云龙组的石膏、灰岩、膏泥、泥岩和砂岩共计13件样品进行微量元素分析。根据各岩性中微量元素的蛛网图和m(Cu)/m(Zn)、m(Sr)/m(Cu)和m(Sr)/m(Ba)比值特征及Sr元素含量等恢复沉积环境及古气候。结果表明:石膏、灰岩、膏泥、泥岩和砂岩均有富集Rb、Pb、Zr的特征;石膏和膏泥形成于干热海相咸水的贫氧弱还原环境;砂岩和泥岩形成于温湿陆相淡水的富氧氧化环境;灰岩形成于干热海相咸水的富氧氧化环境。据此建立研究区沉积环境演化模式,并将其划分为2个阶段,第一阶段为气候干热的弱还原海相咸水湖沉积,沉积出石膏、灰岩和膏泥;第二阶段为温暖湿润的富氧氧化环境,沉积出砂岩、泥岩。这种沉积环境变化与古近纪云龙期气候环境周期性变化密切相关,同时也为盆地的矿产资源勘探提供依据。   相似文献   

2.
ABSTRACT

In this study, over 1000 data from the literature was used to characterize and compare the density, strengths, modulus, fracture toughness, porosity and the ultimate shear strengths of the gypsum, limestone and sandstone rocks. The compressive modulus and Mode-1 fracture toughness of the gypsum rock, limestone rock and sandstone rocks varied from 0.7 GPa to 70 GPa, and from 0.03 MPa.m0.5 to 2.6 MPa.m0.5  respectively. Vipulanandan correlation model was effective in relating the modulus of elasticity, fracture toughness with the relevant strengths of the rocks. A new nonlinear Vipulanandan failure criterion was developed to quantify the tensile strength, pure shear (cohesion) strength and to predict the maximum shear strength limit with applied normal stress on the gypsum, limestone and sandstone rocks. The Vipulanandan failure model predicts the maximum shear strength limit was, as the Mohr-Coulomb failure model does not have a limit on the maximum shear strength. With the Vipulanandan failure model based on the available data, the maximum shear strengths predicted for the gypsum, limestone and sandstone rocks were 64 MPa, 114 MPa and 410 MPa respectively.  相似文献   

3.
Soil column experiments showed that a surficial sodic soil is efficiently reclaimed using freshwater, after the addition of saturated gypsum solution. Gypsum application in the field was beneficial in terms of maintaining high soil permeability, increased water infiltration and neutral pH after a rainfall event. In the present paper, two different reclamation techniques for the plough layer of a sandy loam sodic soil were tested in laboratory columns, 25 cm long and 10 cm in diameter; the first using freshwater alone and the second using a saturated gypsum solution. The dynamics of salt removal were studied by continuous analysis of the water drained from the bottom of the columns. When freshwater was used, sodium presented the lower removal rate and adversely affected soil permeability. When gypsum solution was used, calcium was present in the flushing solution and the effect of sodium dominance on clay dispersion and soil clogging was limited. The results presented in this study are of practical importance with respect to the reclamation of sodic soils found in the coastal area of the east Nestos Delta, Greece, where freshwater is limited, due to seawater intrusion, and saline groundwater is used for irrigation.  相似文献   

4.
A large-scale evaporate series is developed in Paleogene-Neogene strata in the Kuqa basin. The series is composed mainly of evaporate with thin beds of clastic rock (mainly mudstone and siltstone). In grayish white medium- and coarse-grained sandstone in Miocene strata, the formation of copper minerals is in close connection with brine. In joint planes, which are developed in vertical strata, are filled with gypsum. Gypsum and copper-mineralized sandstone contains enormous copper minerals, mainly atacamite. According to the SEM analysis for salt rock, gypsum rock, limestone, grayish green siltstone, grayish white medium-coarse-grained sandstone, some minerals are composed of metallic elements including Au, Ag, Cu, Zn, Pb, Co, Ni and U etc., in which Au occurs in a native form, Cu occurs in a native form or as atacamite in salt rock, gypsum rock and limestone, Ag occurs as silver sulfide in gypsum, and Zn, Pb, Co, Ni, U occur as compounds along with the above metallic ions in evaporate or clastic rock. From SEM images, we can see that metallic elements or their compounds (oxides or sulfides) “take root” as grains in salt or gypsum crystals, which belong to primary chemical sedimentation along with evaporate, while some grains “float” on surface of salt or gypsum. In the former case, mineral grains were formed together with salt (gypsum) crystals; while in the latter case, minerals were enriched from internal metallic ions (Paleogene evaporate samples) or external metallic ions (Neogene gypsum samples) in the late stage of evaporate formation. The metallic ions in Paleogene evaporate samples might originate from weathered or denudated materials in the south Tianshan Mountains. The metallic ions in the Neogene evaporate samples might be from metal-bearing brine, which migrated upward to surface along fractures and leached into evaporate (gypsum). Occurrence of metallic minerals and their compounds (elementary substance) in Paleogene evaporate proves that diversified metallic minerals exist in evaporate. The source of metallic ions in the Neogene evaporate series shows that evaporate could provide materials for late-stage metallic mineralization.  相似文献   

5.
Salt decay is a very destructive mechanism that affects frequently the porous building materials of our architectural heritage. Sodium sulfate is one of the salts found in this context. It usually demonstrates high destructive power in salt crystallization tests because it can crystallize not only during evaporative processes but also when the temperature drops or when the salt solution comes into contact with pre-existing crystals. However, the use of extreme temperatures or successive wet/dry cycles also makes these tests unrepresentative of reality. To verify whether sodium sulfate can also be so destructive in field conditions, we have performed crystallization tests consisting of a single isothermal drying event. Three natural stones, relevant for the architectural heritage, were used for the purpose: Bentheimer sandstone, Ançã limestone, and a current Portuguese limestone of low porosity. The stones gave rise to distinct salt decay patterns: efflorescence, multilayer delamination and unilayer delamination, respectively. These morphological alterations were characterized at the micrometer scale by a new method based on what we have called the alteration kinetics curve. Such curve is calculated from topographic profiles obtained by a non-contact optical technique. The multilayer and unilayer delamination decay were also monitored by time-lapse photography. The work led us to conclude that sodium sulfate can indeed be also very destructive in field-representative conditions. Moreover, it showed that the optical method can be a valuable aid in the development of more realistic salt crystallization tests.  相似文献   

6.
This work analyzes the stone superficial deterioration of some monuments in Rabat city. The rock is a calcarenite with porous texture, rich in calcium carbonates and fossils. The techniques used to study the surfaces altered by blackening or black crusts, are the SEM equipped with EDX microprobe, the X-ray diffraction, and the analysis of the soluble salts by ionic chromatography for anions and flame spectrometer for cations. They reveal significant contents of calcium sulphates, mainly gypsum, often associated with sodium chlorides. These salts known to have a destructive effect on the calcareous stones seem to be originated from the contamination by atmospheric pollutants, particularly sulfur dioxide, and by the marine sprays.  相似文献   

7.
库车盆地铜成矿作用发生在新近纪,主要有砂岩型、泥岩型、灰岩型、含石英脉硫化物型铜矿化。矿化主要分布在盆地南部的秋里塔格构造带和北部的克拉苏构造带,基本位于背斜核部偏两翼部位,沿近东西向的断裂带呈带状分布,发育在盐丘附近。主要的地表铜矿物是氯铜矿,为干旱气候条件下含盐盆地的产物。盆地古近系蒸发岩电镜分析、石膏铜含量化学分析及新近系碎屑岩中铜含量变化分析结果表明:盐岩、膏岩,褐红色碎屑岩(粉砂岩、泥质粉砂岩、泥岩)为铜的矿源层,灰绿色粉砂岩、泥岩、灰白色(含砾)中粗砂岩为铜的含矿层。铜离子的运移载体为源自大气降水溶解蒸发岩所形成的卤水,卤水淋滤褐红色碎屑岩中的铜并下渗到地下,在以构造挤压为主及盐构造卸负作用产生流体上涌的驱动力下沿断裂向地表运移,随着卤水温度压力降低,在干旱气候条件下,在地表碎屑岩节理面、部分层理面上盐、膏、铜矿物析出,形成地表砂岩型、泥岩型、灰岩型铜矿化。如果含铜卤水经过被方解石交代的硬石膏带时,遇到由于TSR反应形成的还原硫、氧化-还原化学障,铜会发生富集,可能形成地下铜矿体。  相似文献   

8.
For experimental geochemical mapping soil was sampled in 5×5 km regular grid in Istria and the Slovenian littoral (Croatia and Slovenia). The territory consists predominantly of karstified limestones and dolomites, and of flysch beds exposed in two basins, Istrian and Brkini. In addition to soil, stream sediment was also collected in the flysh area. Sampling was performed according to an analysis of variance design that permitted one to estimate the effects of the sample medium, geographic position, sampling error and analytical error. The analysis of variance of chemical variables indicated that soil and stream sediment as sampling media lead to similar results in producing geochemical maps. The largest differences with respect to the lithologic substrate of soil is indicated by calcium. As shown by the geochemical map, calcium in soil is high on the Istrian flysch beds, and low on limestones as well as on the flysch beds of the Brkini basin. The two soils also differ in mineralogy. The reason for this difference seems to lie in soil genesis on limestone and on flysch, and in the variable calcium content of flysch beds. The results of Q-mode factor analysis confirmed the adherence of soil and stream sediment of the two flysch basins to two differing groups. This difference was discovered by geochemical mapping. The hypothesis of differing calcium content in the rocks of the two basins was confirmed by the investigation of fresh and weathered rocks and soils in eight profiles sampled in the Brkini and Istrian flysch basin. It was found that the sandstone and calcarenitic samples from the Istrian basin contain an average factor of 3.5 more Ca than those of the investigated Brkini basin, and the samples of Istrian marls 4 times more Ca than those of the Brkini siltstones. Furthermore, the investigated weathered rocks and soils that originated from these rocks in the Istrian basin contain considerably more Ca than in the Brkini basin. In comparison with sandstone and siltstone samples of the Brkini basin, sandstone, calcarenite and marl samples of the Istrian flysch basin contain less clay minerals, quartz and feldspars and more calcite.  相似文献   

9.
In the middle Miocene Badenian gypsum basin of the Carpathian Foredeep, west Ukraine, three main zones of gypsum development occur in the peripheral parts of the basin. Zone I consists entirely of stromatolitic gypsum formed in a nearshore zone. Zone II is located more basinward and is characterized by stromatolitic gypsum in the lower part of the section, overlain by a sabre gypsum unit. Zone III occurs in still more basinward areas and is characterized by giant gypsum intergrowths (or secondary nodular gypsum pseudomorphs of these) in the lowermost part, overlain by stromatolitic gypsum, sabre gypsum and then by clastic gypsum units. Correlation between these facies and zones has been achieved using lithological marker beds and surfaces. Of particular importance for correlation is a characteristic marker bed (usually 20–40 cm thick) of cryptocrystalline massive gypsum occurring in zones II and III. The marker was not distinguished in zone I, possibly because this bed is older than the entire gypsum section of that zone. These new results strongly suggest that the deposition of giant gypsum intergrowth facies and stromatolitic gypsum facies was coeval. In some sections of zones I and II, limestone intercalations have been recorded within the upper part of the gypsum sections. Considerable scatter of the δ18O and δ13C values of these limestones indicates variable diagenetic overprints of marine carbonates, but a marine provenance of the limestones is confirmed by microfacies analysis. Some of the limestones are coeval with an intercalation of gypsarenitic, mostly laminated gypsum occurring in the sabre gypsum unit of zones II and III. Badenian gypsum formed in extremely shallow‐water to subaerial environments on broad, very low relief areas of negligible brine depth, which could be affected by rapid transgressions. Stable isotope (δ34S, δ18O) studies of the gypsum demonstrate that the sulphate was of sea‐water origin or was derived from dissolution of Miocene marine evaporites. Investigations of individual inclusions in the gypsum indicate decreased water salinity when compared with modern marine‐derived, calcium sulphate‐saturated water. Groundwater influences are indicated by high calcium sulphate contents of the brines in the evaporite basin. The chemical composition of Badenian waters was thus a mixture of relic sea water (depleted in NaCl), groundwater (enriched in calcium sulphate) and surface run‐off.  相似文献   

10.
The Kuqa Basin filled with Paleogene evaporite series is located in the northeast of the Tarim Basin, Xinjiang, China. It is famous for sandstone‐hosted Cu deposits formed by synsedimentary processes. However, our recent studies reveal that there has been another Cu mineralization mechanism in this basin. Field investigations show that there is a close relationship among faults, salt domes, and brine. Cu deposits are mainly located in two east–west‐trending anticlinal belts in the basin, adjacent to salt domes in the belts. Cu minerals in gypsum veins of the Jidike and Kangcun formations have been investigated by SEM, EDS, and X‐ray diffraction methods. The occurrence of paratacamite in gypsum veins has been reported to coexist with glauberite and halite in the joint planes of sandstones. In addition, it occurs accompanying residual crystal salt encrustation in limestone fractures, or in sandstones in dendritic form. These features indicate that the surface‐Cu enrichment in the Kuqa Basin might have originated from Cu‐bearing brine in the underlying evaporite units, which migrated upward along fractures. In addition, the presence of H2S in the east–west fault belt in the Kuqa Basin, and the discovery of surface sulfur, calcium carbonate, and covellite, suggest thermochemical sulfate reduction near salt domes in the deeper parts of the rock units. This process resulted in the generation of reduced brine and provided a favorable environment for Cu enrichment. Therefore, the surface‐Cu mineralization near salt domes is interpreted to be the result of Cu‐bearing brine migrating upward to the surface along faults (or joints) following the intrusion of deep salt domes. The geological evidence indicates the presence of reducing brine and Cu‐bearing brine near the salt dome in the deeper rocks of the Kuqa Basin, thus making the intrusive contact zone of the salt dome a favorable site for the epigenetic enrichment of Cu. Our study demonstrates that Cu enrichment in the Kuqa Basin resulted not only from synsedimentary deposition but also through epigenetic enrichment associated with salt dome intrusion and brine‐rich fluids.  相似文献   

11.
Severe stone deterioration is evident at the Cologne cathedral. In particular, the “Drachenfels” trachyte, which was the building material of the medieval construction period, shows significant structural deterioration as well as massive formation of gypsum crusts. The present article investigates crust formation on limestone, sandstone, and volcanic rock from the Cologne cathedral as well as from the Xanten and Altenberg cathedrals. These three buildings, showing varying degrees of deterioration, are located in different areas and exposed to varying industrial, urban, and rural pollution. Thin laminar and black framboidal crusts form on calcareous as well as silicate stone. The lack of a significant intrinsic calcium and sulfur source for the formation of the gypsum crusts on the Drachenfels trachyte indicates major extrinsic environmental impact: a sufficient offer of SO x from pollutant fluxes as well as external calcium sources (e.g., pollution, mortars, neighboring calcite stones). Chemical analyses reveal strong gypsum enrichment within the crusts as well as higher concentrations of lead and other pollutants (arsenic, antimony, bismuth, tin, etc.), which generally can be linked to traffic and industry. The formation of weathering crusts in an industrial environment is clearly distinguishable from that in rural areas. Scanning electron microscopy observations confirm that the total amount of pollution is less at the Altenberg cathedral than at the Cologne and Xanten cathedrals. XRF analyses show that the formation of gypsum occurs in lower amounts at Altenberg. This correlates well with the measured SO2 content and the intensity of the decay at the different locations. Furthermore, the different types of crusts, e.g., framboidal and laminar, can be differentiated and assigned to the different locations. The black weathering crusts on the silicate Drachenfels trachyte contribute to the degradation of the historic building material. They enhance mechanical moisture-related deterioration processes and the decay by chemical corrosion of rock-forming minerals. Although SO2 concentrations in air have shown a strong decrease over the past 30 years, degradation in connection with weathering crusts is still observed. This indicates that not only contemporary or recent emissions, but also past pollutant concentrations have to be considered.  相似文献   

12.
滇西海相侏罗系   总被引:3,自引:0,他引:3       下载免费PDF全文
尹集祥  方仲景 《地质科学》1973,8(3):217-237
前言我国的海相侏罗系有两种类型。一种是特提斯(Tethys)型,属于这一类型的有西藏、青海南部、新疆、滇西等地区的海相侏罗系,这些地层的岩性和动物群性质或多或少都能与欧洲、印度西部、东非甚至东印度群岛的侏罗系相对比。另一种是环太平洋型,属于这一类型的包括湖南、广东、东北等地区的海相侏罗系。除东北拉丹哈达岭有侏罗纪的海相沉积外,其余地区仅含有海相里阿斯统的中下部。关于在中国以及中南半岛地区特提斯型与环太平洋型两种里阿斯时期海相地层的关系,至今仍然不清楚。滇西是我国海相中生代地层发育比较好的地区之一,过去虽然经过洛齐(L.vonLoczy,1893年)和布朗(Brown,Coggin J.,1916年)等人的调查,但对中生代地层,尤其是侏罗系缺乏详细研究。  相似文献   

13.
Evaporative process plays a dominant role in determining the water chemistry of the springs at Teels Marsh, a closed basin in western Nevada. Analysis of the spring waters indicates that calcium, magnesium, sulfate, and silica are removed from solution during dry periods, even though groundwater is undersaturated with respect to gypsum, amorphous silica, and sepiolite. The removal mechanism is precipitation of authigenic phases such as gypsum above the water table, in the vadose zone.In episodes of rain and snowfall in which none of the waters enters the phreatic zone, ions in the rain and snow accumulate near the ground surface. This accumulation of material, together with the sparse rain and snowfall, inhibits chemical weathering of silicate minerals. Only at high elevations in the basin is there sufficient fluxing of water through the alluvium for silicate weathering to make a significant contribution to the sodium content of the springs. When a sufficiently heavy rainfall occurs, salts are partially dissolved and the ions transported to the permanent groundwater. The kinetics of dissolution of secondary phases in the vadose zone exert an important control on the composition of the springs.  相似文献   

14.
Mineralogical and geochemical variations in ten rock surface crusts are described from a large rock shelter known as Carpenter's Gap 1 in the southern Kimberley, formed at the junction between a sandstone floor and an overlying limestone roof. The finely laminated crusts, containing quartz, clays, oxalate and phosphate minerals, and sulfate salts (bassanite, gypsum, epsomite), formed over quartz‐rich sandstones. Mineralogical analyses of crusts, determined by X‐ray diffraction, and major element geochemical trends, in the form of element maps of cross sections, show a complex distribution of hemi‐, mono‐, and dihydrated sulfate and oxalate minerals vertically and laterally within the shelter. These mineralogical changes have occurred under fluctuating moisture and temperature regimes, which follow a general drying trend spatially with distance from the back wall and temporally over a period of about 20,000 years. Documenting these mineralogical changes is a first step in understanding the nature of microclimatic controls on the formation of rock surface coatings in shelters and their implications for palaeoenvironmental reconstructions and for dating engravings covered by these crusts. © 2001 John Wiley & Sons, Inc.  相似文献   

15.
The multilayered Djeffara aquifer system, south-eastern Tunisia, has been intensively used as a primary source to meet the growing needs of the various sectors (drinking, agricultural and industrial purposes). The analysis of groundwater chemical characteristics provides much important information useful in water resources management. Detailed knowledge of the geochemical evolution of groundwater and assessing the water quality status for special use are the main objective of any water monitoring study. An attempt has been made for the first time in this region to characterize aquifer behavior and appreciate the quality and/or the suitability of groundwater for drinking and irrigation purposes. In order to attend this objective, a total of 54 groundwater samples were collected and analyzed during January 2008 for the major cations (sodium, calcium, magnesium and potassium), anions (chloride, sulfate, bicarbonate), trace elements (boron, strontium and fluoride), and physicochemical parameters (temperature, pH, total dissolved salts and electrical conductivity). The evolution of chemical composition of groundwater from recharge areas to discharge areas is characterized by increasing sodium, chloride and sulfate contents as a result of leaching of evaporite rock. In this study, three distinct chemical trends in groundwater were identified. The major reactions responsible for the chemical evolution of groundwater in the investigated area fall into three categories: (1) calcite precipitation, (2) gypsum and halite dissolution, and (3) ion exchange. Based on the physicochemical analyses, irrigation quality parameters such as sodium absorption ratio (SAR), percentage of sodium, residual sodium carbonate, residual sodium bicarbonate, and permeability index (PI) were calculated. In addition, groundwater quality maps were elabortaed using the geographic information system to delineate spatial variation in physico-chemical characteristics of the groundwater samples. The integration of various dataset indicates that the groundwater of the Djeffara aquifers of the northern Gabes is generally very hard, brackish and high to very high saline and alkaline in nature. The water suitability for drinking and irrigation purposes was evaluated by comparing the values of different water quality parameters with World Health Organization (WHO) guideline values for drinking water. Piper trilinear diagram was constructed to identify groundwater groups where the relative major anionic and cationic concentrations are expressed in percentage of the milliequivalent per liter (meq/l), and it was demonstrated that the majority of the samples belongs to SO4–Cl–Ca–Na, Cl–SO4–Na–Ca and Na–Cl hydrochemical facies. As a whole, all the analyzed waters from this groundwater have revealed that this water is unsuitable for drinking purposes when comparing to the drinking water standards. Salinity, high electric conductivity, sodium adsorption ratio and sodium percentages indicate that most of the groundwater samples are inappropriate for irrigation. The SAR vary from medium (S2) to very high (S4) sodicity. Therefore, the water of the Djeffara aquifers of the northern Gabes is dominantly of the C4–S2 class representing 61.23 % of the total wells followed by C4–S3 and C4–S4 classes at 27.27 and 11.5 % of the wells, respectively. Based on the US Salinity Classification, most of the groundwater is unsuitable for irrigation due to its high salt content, unless certain measures for salinity control are undertaken.  相似文献   

16.
Salt crystallisation is a major problem of deterioration in historic stone buildings, monuments and sculptures. The capillary rise of soil water is one of the primary sources of salts in stone structures, which evaporates leaving the salts behind. It has been noted that the spatial distribution profile of different species of salts crystallised in historic stone buildings is not homogeneous, i.e. different salts crystallise at different locations. The capillary transport and inhomogeneous spatial distribution of different salts in the porous building materials has been considered to be a result of solubility-dependent crystallisation; however, the factors responsible for this phenomenon are not clearly known. This paper aims to investigate the factors influencing the differential distribution of salts during capillary rise of soil water. In this study, the capillary transport of salts was simulated on two different sandstones—Locharbriggs, a Permo–Triassic, red sandstone and Stoke Hall, a Carboniferous, buff sandstone. The experiments were carried out under controlled environmental conditions to eliminate the possibility of evaporation-driven crystallisation of salts depending on their solubilities. The results indicate that fractionation or differential distribution of salts takes place even in the absence of evaporation and crystallisation. The sandstones exhibit properties like an ion exchange column, and ionic species present in the salt solution show differential distribution within the porous network of sandstone.  相似文献   

17.
左洪发 《安徽地质》2010,20(1):42-48
安徽省含山县柱山—项家山水泥石灰岩矿床矿位扬子准地台与华北地台、大别山造山带的结合部位,属扬子板块西北缘,大别造山带的前陆带,郯庐断裂带的东侧,属丘陵地貌,山体走向为北东向,地形起伏变化较大,区域内矿产主要为沉积矿产,有石膏、水泥用石灰岩、石英砂岩、耐火粘土及陶瓷粘土、砖瓦用粘土等。另外有铜、铅、锌、铁、铀、高岭土、煤等矿(化)点。本文对含山县柱山—项家山水泥石灰岩矿床特征、成因以及开采技术条件进行探讨。  相似文献   

18.
脱硫石灰石和脱硫石膏产业化问题的探讨   总被引:5,自引:1,他引:4  
毛健全 《贵州地质》2004,21(4):265-269
目前,我国许多大中型火电厂正在建设脱硫工程,石灰石是最重要的脱硫剂,火电厂脱硫将需要大量的石灰岩,脱硫将会产生大量脱硫石膏,通过对国内火电厂脱硫项目的调研,从脱硫技术、脱硫石灰石、脱硫石膏成分、脱硫利用等方面来探讨脱硫石灰石和脱硫石膏产业化问题。  相似文献   

19.
Precipitation of salts in confined spaces is the key mechanism for rock weathering and damage to building materials. To date there is no comprehensive study of the parameters influencing the reduction of pore space by salt crystals and the consequences for transport and damage by crystallization pressure. A novel method is presented to quantify pore clogging (i.e., the degree to which crystallization of salts interferes with transport of solution in porous materials). After drying capillary-saturated stone specimens containing salt solutions, the rate of capillary uptake of decane into the salt-contaminated specimens is measured. By treating the salt-contaminated material as a bilayer, the width of the crystallization front and the degree of pore filling can be determined. Two model materials with different pore size distributions (Indiana and Highmoor limestone) and three salts (sodium chloride, sodium sulfate and magnesium sulfate) are selected for this study. It is shown that pore clogging results from the interplay between pore size distribution and salt properties. Different scenarios are discussed to link pore clogging with salt damage.  相似文献   

20.
The study area covers volcanic-volcanosedimentary units of Eocene age in the Sivas-Ula? area from Turkey. The pyroclastic (tuffaceous claystone/siltsone/sandstone, crystal ash tuff) and volcanic (basalt, basaltic andesite, andesite) rocks of the Karacalar member from the Kaleköy Formation include volcanogenic (plagioclase, augite, hornblende, biotite), diagenetic (K-feldspar, mixed-layered chlorite-smectite/C-S, chlorite, analcime) and post-volcanic (calcite, dolomite, quartz) minerals. The volcanogenic (plagioclase), diagenetic (K-feldspar, C-S, chlorite), postvolcanic (quartz, calcite, dolomite) and detrital (illite) minerals were observed in the epiclastic (shale, siltstone, calcareous siltstone, sandstone, calcareous sandstone) and chemical (limestone, gypsum) rocks of the Yapali member from this formation. C-S + K-feldspar zoning is widely developed by due to the interaction between sea-water and volcanic glass in basic-intermediate composition, on the basis of optic and electron microscopes and also X-rays data. This zone corresponds to the deeper parts of the Sivas basin in the Eocene period and show vertically a transition into zeolite zone in approximately northern parts of the basin (Yavu area).  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号