Study Correlation between Physical-Mineralogical Properties of Sandstone Used in Ptolemaic Temples in Upper Egypt and Its Weathering Resistance

This article focuses on study of a relation between physical-mineralogical properties of sandstone used in Ptolemaic temples in Upper Egypt and its resistance of deterioration factors affecting it. In the present study, sandstone samples were collected from four sites;namely the temples of Dendera, Esna, Edfu and Kom Ombo which are located in Upper Egypt. Polarized light microscope (PLM), Scanning Electron Microscope (SEM), X-Ray diffraction (XRD) and energy-dispersive X-ray spectroscopy (EDX) were used to determine mineralogical properties, microstructure, and chemical compositions of the deteriorated sandstone samples, addition to physical properties tests;results of the study confirmed that sandstone samples containing a high percentage of salts, clay minerals and iron oxides have been significantly affected by deterioration factors. The deteriorated sandstone samples were treated by paraloid B72 3% enhanced with Nano silica 5% to improve the physical properties of stone. Results of the study indicated that the samples which were consolidated by Nanoparticles based on acrylic Copolymers (Paraloid B72 and its Nanocomposite with Nano silica) achieved the best results for improvement of its physical-mineralogical properties. This is the ultimate aim of the study for the purpose of conservation and sustainability of building materials of the temples.

Source Area Weathering and Tectonic History Inferred from the Geochemistry of the Maastrichtian Sandstone from Patti Formation,Southern Bida Basin,North Central Nigeria

Sandstones sampled from Patti Formation,Southern Bida Basin,were studied geochemically using Inductively Coupled Plasma Atomic Emission Spectrophotometer(ICP-AES)and an Inductively Coupled Plasma Mass Spectrometry(ICP-MS)technique to evaluate their weathering and tectonic setting as well as to deduce the paleo-climatic conditions that existed during their deposition.Geochemically,SiO_(2)range from 73.9%to 86.2%,Al_(2)O_(3)(6.7%~17.1%),Fe_(2)O_(3)(1.1%~1.9%),K_(2)O(0.1%~0.7%)while MgO,CaO,Na_(2)O,P_(2)O_(5),MnO and TiO_(2)were<1%.Enriched in Ba(Av.622.94),Sr(Av.153.63),Rb(Av.55.08)and Zr(Av.51.86)relatively similar in composition to UCC.High SiO_(2)but low other major oxides signify high mobility during processes of weathering.This was confirmed by high value(>80%)for indices like chemical index of alteration,chemical index of weathering,plagioclase index of alteration,mineralogical index of alteration and relatively lower values for weathering index of parker,recently used alpha indices(α^(Al)_(E))of sodium(326.17α^(Al)_(Na)<344.40),magnesium(100.54α^(Al)_(mg)<398.55),calcium(12.07α^(Al)_(Ca)<198.99),potassium(4.43α^(Al)_(K)<64.33),strontium(0.84α^(Al)_(E)<21.40),barium(0.45α^(Al)_(Ba)<10.52)and rubidium(0.0008α^(Al)_(Rb)<0.06),supported by AI_(2)O_(3)-(CaO^(*)+Na_(2)O)-K_(2)O and CIA vs.SiO_(2)plots that imply intense weathering in the source area.The obtained high CIA values(>80)indicates a steady-state of weathering under a warm/humid climate as confirmed by the SiO_(2)vs.Al_(2)O_(3)+K_(2)O+Na_(2)O plot.High average SiO_(2)(75.41wt%)with K_(2)O/Na_(2)O ratio>1(15.63),low Fe_(2)O_(3)(1.27wt%),Al_(2)O_(3)(15.82wt%)and TiO_(2)(0.46)suggest passive margin tectonic setting.This is supported by enrichedΣREE(209.64 ppm),ΣLREE(195.78),LREE/HREE(27.78)and negative Eu/Eu^(*)(0.68),plots of log(K_(2)O/Na_(2)O)vs.SiO_(2)and SiO_(2)/Al_(2)O_(3)vs.K_(2)O/Na_(2)O.Major elements discriminant-function multi-dimensional diagram,DF1(arcrift-col)vs.DF2(arc-rift-col),for high-silica sediments revealed a continental rift tectonic setting.Thus,the Patti Formation sandstone underwent a high degree of weathering under a humid climatic condition within a continental rift tectonic setting.

Origin of Tafoni in the Late Cretaceous Aeolian Sandstones,Danxiashan UNESCO Global Geopark,South China

Tafoni occur generally in granular rocks around the world, but their origin remains controversial. In this study,the roles of lithology, micro–climate, and organism in tafoni development are investigated in the Danxiashan UNESCO Global Geopark of South China. The Jinshiyan Temple and Luyitang sites along the Jinjiang River are chosen to conduct tafoni morphometry, bedrock petrography, and micro–climate analyses. The research methods used in this study include field observations and measurements, Voronoi diagrams, polarizing microscopic and scanning electron microscopic(SEM)image analysis, and meteorological detection. The tafoni are mostly 2–10 cm in length and elliptical in shape. The Late Cretaceous Jinshiyan sandstones are characterized by a grain–to–grain contact fabric and moderate sorting with a high proportion of soluble grains and cements. The Voronoi diagrams developed through the Arc GIS software are largely consistent with the tafoni openings. Moreover, owing to exposure to solar insolation, the external temperature values are higher than the internal ones, while the external relative humidity values are lower than the internal ones. Therefore, the permeable Jinshiyan sandstones are fundamental for tafoni development, while the abundant moisture from the Jinjiang River and frequent rains is favorable for salt weathering in tandem with biological activities. At last, a five–stage development model is proposed for the tafoni progression in the study area.

The ‘Greening’ of Natural Stone Buildings:Quartz Sandstone Performance as a Secondary Indicator of Climate Change in the British Isles?

A number of recent studies have explored the impact of climate change on natural building stones. Because of its sensitivity to change, sandstone can be seen as having a predictable, recognisable and sustained response to changes in system inputs that control performance – most crucially for the UK and Ireland, how it responds to an increased moisture input. There has been a widespread biological “greening” of sandstone buildings in response to these periods of wetness during autumn, winter and spring months. Furthermore, there is a wealth of literature detailing the response of sandstone in a variety of environments where sand-stone response is representative of the environment in which it has been placed. This letter suggests that the response of sandstone to trends towards wetter winter conditions is predictable to the extent that it may have potential to be a secondary indicator of climatic change – that is, a system that alters in response to fluctuations in environmental conditions in a sustained way. It is hoped that the letter may stimulate discussion as to what other possible indicators of climatic change remain unacknowledged.

Geochemistry of Late Triassic pelitic rocks in the NE part of Songpan-Ganzi Basin,western China:Implications for source weathering,provenance and tectonic setting

Major, trace and rare earth element （REE） concentrations of Late Triassic sediments （fine- grained sandstones and mudstones） from Hongcan Well 1 in the NE part of the Songpan-Ganzi Basin, western China, are used to reveal weathering, provenance and tectonic setting of inferred source areas. The Chemical Index of Alteration （CIA） reflects a low to moderate degree of chemical weathering in a cool and somewhat dry climate, and an A-CN-K plot suggests an older upper continental crust prove- nance dominated by felsic to intermediate igneous rocks of average tonalite composition. Based on the various geochemical tectonic setting discrimination diagrams, the Late Triassic sediments are inferred to have been deposited in a back-arc basin situated between an active continental margin （the Kunlun- Qinling Fold Belt） and a continental island arc （the Yidun Island Arc）. The Triassic sediments in the study area underwent a rapid erosion and burial in a proximal slope-basin environment by the petrographic data,while the published flow directions of Triassic turbidites in the Aba-Zoige region was not supported Yidun volcanic arc source. Therefore, we suggest that the Kunlun-Qinling terrane is most likely to have supplied source materials to the northeast part of the Songpan-Ganzi Basin during the Late Triassic.

延安清凉山石窟砂岩表层防风化保护材料研究

针对陕西延安清凉山石窟砂岩由于水/盐运移活动频繁导致的病害,本研究选用商用硅酸酯(KSE-300)和现代合成两性离子聚氨酯(ZPU)、POSS杂化两性离子聚氨酯(POSS-D+ZPU)、CaCO_(3)寡聚体交联两性离子聚合物[CaCO_(3-)c-P(MPC-ran-MPS)]、POSS增强柔性硅氧烷(POSS-AHAPTMS)对砂岩进行实验室表面渗透保护试验,并对比评估保护性能。结果表明,分散体尺寸小、成膜性相对较差,且能够与砂岩基体化学键合的CaCO_(3-)c-P(MPC-ran-MPS)和KSE-300保护材料更易向砂岩内部渗透、且不易改变砂岩原有孔隙结构;与砂岩极性匹配较高的CaCO_(3-)c-P(MPC-ran-MPS)、ZPU和POSS-D+ZPU保护材料对砂岩的表面色度影响较小;CaCO_(3-)c-P(MPC-ran-MPS)保护材料因兼具加固与水/盐运输功能而使砂岩表现出最佳的抗盐结晶循环性能,而疏水性ZPU和KSE-300因阻碍了砂岩内部水/盐运移路径而使砂岩在盐结晶循环中表现出断裂和层状剥落的风险。综上,CaCO_(3-)c-P(MPC-ran-MPS)保护材料更适用于砂岩表层预防性抗盐结晶破坏。

微生物诱导矿化修复阿尔寨石窟红砂岩壁面酥碱病害试验研究

阿尔寨石窟寺是内蒙古地区规模最大且保存最为完整的石窟寺建筑群,其蕴含了珍贵的关于历史、宗教、科学、文化的艺术价值,被誉为“草原上的敦煌”。由于当地典型的沙旱寒区气候特征,酥碱成为石窟壁面最为严重的病害之一,目前阿尔寨石窟正处于保护阶段,因此通过室内对病害进行模拟和研究尤为重要。本研究通过微生物诱导碳酸钙沉淀(MICP)技术,对以红砂岩风化土为基质的壁面的酥碱病害进行修复,通过激光粒度分析了病害前后土颗粒粒径的变化,提出酥碱高度、酥粉体积、盐壳厚度的量化指标用以评价病害的发展程度。基于微生物矿化技术生成矿化覆膜对病害进行抑制,推荐使用微生物菌液浓度OD_(600)大于1.5的具有耐盐碱性能的矿化菌株,修复后酥碱高度下降幅度大于20%,酥粉体积下降幅度大于30%,盐壳厚度下降幅度大于25%。研究成果对生物矿化技术应用于红砂岩石窟壁面的酥碱病害的修复进行试验验证和可行性评估,为绿色生态环保的岩壁病害修复与加固技术的推广应用进行科学预研。

风化砂岩石窟表面热响应及力学性能变化:对砂岩石窟本体表层风化(劣化)评价的启示

表层风化问题严重影响石窟寺类文物的长久保存。如何通过风化表层的性能变化来对石窟寺进行病害诊断和风险评估是预防性保护的关键问题。本研究利用便携式无损检测手段(ProceqEquotip 550里氏硬度计、FLIR T660红外热成像仪)对甘肃庆阳北石窟寺外立面8个研究面进行表面硬度测试及表面温度监测,分析其典型风化病害的热响应情况及力学性能变化规律。研究结果显示,病害类型对其表面硬度值和温度波动幅度有不同程度的方向性影响。水锈结壳的表面昼夜温度波动幅度最小,表面硬度离散地分布在较高水平;粉化剥落和泛盐的表面昼夜温度波动较平缓,表面硬度值集中分布在较低水平;沟槽状溶蚀(差异风化)的表面昼夜温度波动幅度略高于粉化剥落表面,其表面硬度集中分布在较高水平;微生物覆盖的表层,昼夜温度波动幅度最大,表面硬度值离散地分布在较低水平。上述病害-性能对应关系有助于在石窟寺类文物的日常监测中判别风化病害的分布及变化趋势,对砂岩石窟的风险预警有一定指示作用。

松辽盆地南部余粮堡地区砂岩型铀矿含矿层碎屑岩地球化学特征及物源分析

随着砂岩型铀矿勘查工作的不断深入,在松辽盆地南部余粮堡地区虽已发现多处铀矿化,但至今找矿工作尚未取得突破性进展。而对于可地浸砂岩型铀矿找矿和评价而言,明确赋铀砂体的物源是关键。文章对区内典型钻孔的矿化段进行系统取样,通过对其主、微量元素的测试结果分析,借助相关地球化学特征指数对研究区物源进行剖析:岩石化学蚀变指数(CIA)为46.38~69.69,平均值为57.08,指示研究区碎屑岩处于弱风化作用,干旱古气候条件,元素组成变化不大,较好地保留了源区的地球化学性质;La-Th-Sc、Th-Co-Zr/10、Th-Sc-Zr/10及(Fe_(2)O_(3)总+MgO)-Al2O3/SiO_(2)等图解以及稀土元素特征均指示物源区的构造背景以大陆岛弧为主,兼有大陆边缘的性质;通过与上地壳特征参数对比,Th/Sc-Zr/Sc、La/Th-Hf、ΣREE与La/Yb等散点图以及δEu的异常可以证明物源区成分以上地壳的长英质岩石为主,结合盆地南部物源供给体系进一步分析,认为盆地西缘和南缘发育的中-新生代火山岩和海西期、燕山期的花岗岩是主要的物质来源。

江西鹰潭月湖岩大型石拱地质特征及成因分析

石拱是丹霞地貌区重要的景观要素之一,大者又被称为天生桥,具有重要的地貌学研究意义和旅游开发价值。月湖岩大型石拱位于江西信江盆地西部,是我国湿润区石拱的典型代表,目前对其成因鲜有报道。文章通过野外地质调查、水分测试及室内样品薄片显微观察和盐化学实验,研究月湖岩大型石拱的地质特征并探讨其成因。结果表明:研究区NNE向和近EW向断裂控制了石拱的空间产状;石拱由晚白垩世塘边组风成砂岩组成,地层产状平缓,发育大型交错层理,结构成熟度高,渗透性较好,但成分成熟度低,富含化学稳定性较弱的长石、岩屑及钙质胶结物,有利于发生溶蚀风化;断裂和层理交汇处的岩石较破碎,在河流侵蚀作用下易发生溶蚀,风化物质随流水从山体底部流出,随着溶蚀和崩塌的持续发生,研究区山体南、北两侧被侵蚀穿透,最终形成石拱。文章为理解丹霞地貌区石拱的成因机制提供了实际材料,同时对石拱保护和旅游开发具有参考价值。

干湿循环下强风化红砂岩土强度特性及边坡稳定性研究

强风化红砂岩土作为一种工程中常见的土体,在干湿循环条件下易受水文因素的影响,导致强度特性改变,对工程安全造成困扰。针对此类问题,文章通过对强风化红砂岩土进行干湿循环实验,测试其在干湿循环条件下的强度特性及干湿循环对边坡稳定性的影响。研究结果表明,当强风化红砂岩土干湿循环次数达到四次以上时,边坡的稳定系数小于1.0,会导致边坡失稳。

内蒙古准格尔旗下侏罗统延安组砒砂岩地球化学特征及其对风化、物源的指示

[目的]研究砒砂岩的风化程度和物源特征,为砒砂岩的深入研究及岩土侵蚀防治提供基础理论依据。[方法]选取内蒙古准格尔旗下侏罗统延安组砒砂岩为研究对象,通过野外调查及试验研究,利用主量元素、微量元素及稀土元素地球化学方法对砒砂岩化学蚀变指数(CIA)、斜长石蚀变指数(PIA)、轻重稀土元素比(LREE/HREE)及相关微量、稀土元素关系进行了分析。[结果](1)准格尔旗下侏罗统延安组砒砂岩以SiO_(2)和Al_(2)O_(3)为主,大部分主量元素含量低于平均上地壳标准化值(UCC);地球化学分类图显示砒砂岩主要为页岩、亚长石砂岩和岩屑砂岩;砒砂岩CIA值为64.95~86.57,平均值为77.46。这与研究区周边的中三叠统二马营组特征较为一致,反映经历共同的岩石风化历史。(2)砒砂岩中粉砂岩和泥岩中各微量元素含量均高于砂岩,其中Ba含量最高,Zr次之;砒砂岩形成古温度为10.67~22.78℃,平均17.68℃,PIA值为70.48~97.13,平均值为89.76。(3)砒砂岩稀土元素配分模式与UCC一致,整体呈现轻稀土富集、重稀土亏损、弱负铕异常(δEu)特征;粉砂岩和泥岩总稀土(∑REE)、轻重稀土比(LREE/HREE)、(La/Yb)_(N)值均高于砂岩。这种分异主要是由于表生作用中岩石风化溶出的主要微量元素大多被黏土矿物吸附或水力分选所致。[结论]内蒙古准格尔旗下侏罗统延安组砒砂岩为成分成熟度、分选程度较低的陆源碎屑沉积岩,源区经历了中等—强烈的化学风化;砒砂岩形成时为干旱—半湿润的古气候条件;砒砂岩稀土元素配分模式结合主、微量元素判别图指示延安组砒砂岩来自鄂尔多斯盆地北部阴山—大青山地区的海西—印支期花岗岩类。

微风化砂岩盾构近距离下穿既有盾构隧道力学响应分析

依托广州地铁12号线二沙岛站至岭南广场站区间盾构工程,综合工程地质资料、设计参数及既有盾构隧道结构特点进行分析,通过开展系列三维模拟分析,系统研究微风化砂岩盾构隧道下穿施工对既有地铁盾构隧道结构所造成的不利影响,探究地铁隧道在不同程度的刚度折减后受到的影响,评估既有盾构隧道结构的安全性。研究表明,新建隧道下穿引起的既有盾构隧道椭变增量形式均为竖椭变,并随着盾构隧道的刚度增加而减小;新建隧道下穿主要引起既有隧道结构及轨道的竖向位移,并随既有盾构隧道自身刚度减小而增大;新建隧道下穿后,既有隧道沿纵向表现出典型W形沉降槽趋势;既有盾构隧道的位移、弯矩变化值较小,并随着盾构隧道的刚度增加而减小。

不同含水量及渗透特性下强风化砂岩土边坡稳定性分析

为了探究风化砂岩土含水量的变化及其降雨强度对滑坡稳定性的影响,以万州区恒合乡黄草坪滑坡强风化砂岩土为例,运用非饱和土力学理论,得出土体抗剪强度指标与含水量之间的关系,对强风化砂岩土进行了快剪试验、压缩试验、渗透试验,并运用数值模拟方法对不同含水量以及不同降雨历时下风化砂岩土边坡的最大位移、基质吸力、饱和度及边坡稳定性系数的变化规律进行了分析。结果表明:以最优含水量为临界点,当含水量从11.31%增加至21.57%时,黏聚力从7.28 kPa增加至最大值10.23 kPa后减小到5.10 kPa,内摩擦角从15.28°缓慢减小至7.94°,变形模量由8.97 MPa减小至2.06 MPa,渗透系数与含水量之间呈线性关系其拟合公式为y=5×10^(-6)x+7×10^(-6),在不同含水量作用下,边坡稳定性系数先增大后减小,潜在滑动面的位置由深到浅逐渐增大;在不同降雨历时作用下,基质吸力和饱和度变化速率的大小均依次为坡顶>坡面>坡体内部,边坡的稳定系数由1.71降低至1.01。研究成果可以为强风化砂岩类似边坡在降雨及不同含水量作用下的边坡稳定性研究和治理工程设计的相关研究提供指导。

茂名市区强风化红砂岩地基承载力取值的探讨

通过分析茂名市区强风化红砂岩的分布情况、特征及一些典型的工程案例,对茂名市区强风化红砂岩地基承载力的取值进行探讨。针对以往勘察报告对强风化红砂岩的地基承载力建议值普遍偏保守的状况,根据不同的情况对强风化红砂岩地基承载力分别建议了相应合理的取值范围,既保证了工程安全,又减少了不必要的经济浪费。

丹霞地貌砂岩的微观化学风化作用电子探针研究

利用偏光显微镜观察、电子探针分析等手段对江西龙虎山丹霞地貌崖壁砂岩的微观化学风化作用的发展过程进行了研究,重点观测黑云母蛭石化以及长石黏土化过程中矿物组分的变化,进而探讨丹霞地貌砂岩的微观化学风化作用机理。在微观化学风化下,强风化层胶结物中的方解石迅速分解流失,从而导致黑云母大量发生蛭石化和铁的氧化物在矿物边部富集;长石则大量发生黏土化而使高岭石、石英等矿物富集。研究表明丹霞地貌砂岩在微观化学风化作用下矿物分解以及新矿物的形成都破坏原来岩石中的力学平衡,因而风化作用在宏观上表现为岩面片状剥离和重力崩塌,据此推断更大尺度的风化作用可能与岩石中矿物的微观化学风化作用存在着密切联系,是微观化学风化作用长期累积后在宏观上的综合表现。

砒砂岩化学成分特征对重力侵蚀的影响

本文以内蒙南部砒砂岩的重力侵蚀为例,研究岩石化学成分与重力侵蚀发育的主要控制因素抗剪强度的之间关系。通过对砒砂岩样品的化学成分、矿物组成、力学性质等参数的测试和试验结果,利用化学蚀变指数(CIA)阐明了岩石的风化程度,分析了岩石中不稳定的化学成分在水的作用下,对岩石的化学风化作用和岩石强度的影响。并对砒砂岩的化学成分含量与其内聚力进行两两相关分析和多元相关分析。这些对砒砂岩区基岩的重力侵蚀机理研究具有一定的参考价值。

风化砂岩的力学特性及本构关系研究

以不同风化程度的砂岩试件为研究对象,对其单轴、三轴力学强度进行了试验研究。结果表明,随着风化程度的增加,砂岩的力学强度逐渐降低;三轴曲线的主应力差(σ1-σ3)对砂岩强度的影响基本呈线性;不同风化程度的砂岩试件的内摩擦角随着风化程度的增加,摩擦角逐渐增大;而凝聚力则随着风化程度的增加而减小。建立了岩石三轴受力的抛物曲线-线弹性-Duncan双曲线-塑性软化-残余理想塑性5段式模型,模型能够正确反映砂岩三轴受力变形特点。

平遥古城墙基外侧砂岩的风化速度研究

岩石风化的研究一直受到地貌学家、地质学家和岩土工程学家的关注。暴露于自然环境下的石质文物(特别是不可移动文物)可认为是在当地环境下经历了一段较长时间的风化试验。作者利用自行研制的、具有较高精度的仪器,量测了平遥古城墙基底部的砂岩经过638 a自然风化后的风化丧失深度,得其风化丧失深度和最大风化丧失深度分别为8.03～32.30 mm和11.80～46.97 mm,并以此计算出相应风化速度分别为0.0125～0.0506 mm.a-1和0.0185～0.0737 mm.a-1。比较砂岩的风化速度,发现其受朝向控制:朝南、朝西、朝东和朝北的砂岩的平均风化速度值分别为0.0481,0.0377,0.0286和0.0220 mm.a-1。笔者认为上述风化速度的差异是由不同朝向的砂岩受到的太阳辐射不同造成的。

龙游石窟砂岩风化特征研究

风化是龙游石窟保护和向游人开放参观时所面临的主要病害和急待解决的问题。在对浙江省龙游石窟砂岩岩矿分析、泥质胶结物中黏土矿物和地表、洞室渗水分析研究的基础上,模拟石窟客观环境条件,对石窟砂岩在盐溶液中反复浸泡,进行加速风化试验。其试验研究方法是,设置NaCl,Na2SO4饱和溶液和蒸馏水作为对比试验的浸泡液,将石窟砂岩试样在浸泡液中进行反复浸泡–干燥循环试验,每次试样干燥后测定其弹性波速。试验研究表明:Na2SO4,NaCl等可溶盐的参与,大大加速砂岩的风化速度;在洞室的渗水中所含SO 42?,C l?等离子的浓度越高,加速砂岩风化速度的作用越明显;SO 24?较C l?加速砂岩风化的作用更大。