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801.
为进一步查明北山造山带北缘三架山韧性剪切带的构造运动学特征及控矿意义,在充分收集前人工作成果的基础上,通过开展系统的野外地质调查工作,基本查明了韧性剪切构造带的空间分布、物质组成、力学性质,在充分分析研究典型构造现象的宏观及显微构造变形特征基础上结合韧性剪切带内卷入地层变质特征和剪切带内岩石组合特征,认为三架山韧性剪切带属中浅部构造相,总体上反应出逆冲—左行走滑的特征。结合带内已发现的产于前寒武系变质基底的铅锌矿和韧性剪切带内的金矿赋矿特征,认为该韧性剪切带对前寒武系变质结晶基底的活化、古生代火山—沉积盖层的改造起到了至关重要的作用,具有明显的导矿、控矿作用。 相似文献
802.
三峡库区侏罗系顺向岸坡堆积体滑坡众多,其滑动模式存在一定差异。首先统计分析了192个三峡库区侏罗系层位发育的堆积体滑坡滑体及碎石土的工程地质性质和强度参数。在此基础上,运用数值分析软件对堆积体厚度变化引起的滑坡变形机制进行模拟分析。结果表明:堆积体厚度范围在15m及以下滑坡会沿着岩土界线面滑动、15~35m时滑坡会沿着层内剪切面滑动;厚度范围在35m以上时,堆积体滑坡内部可能存在着多层滑带,即滑坡可能沿着层内剪切面滑动或者沿着岩土界线面滑动。堆积体厚度范围在15m及以下时滑坡的治理措施可采用布置抗滑桩;厚度范围15~35m时可采用排水+布置抗滑桩的滑坡治理措施;厚度范围在35m以上时,可采用滑坡前期监测预报+后期根据滑坡发育情况相结合的滑坡防治措施。 相似文献
803.
以天津软土地区某深基坑工程为背景,对基坑开挖过程中不同工况下支护桩深层水平位移、支护桩竖向位移、周边建筑竖向位移、周边地表竖向位移的现场监测数据进行归纳总结,分析其变化规律,对其所受到的时空效应的影响进行研究,研究结果表明:基坑开挖施工对支护桩及周边环境具有显著的时空效应影响,位移主要发生在土方开挖阶段,尤其是土方开挖阶段第三步,位移增量较大,变化速率较快,在基坑底板施工完成后,位移逐渐趋于稳定;支护桩深层水平位移呈现出"鼓肚"状变化趋势,位移最大值出现在开挖面附近;周边地表位移最大值点出现在距离基坑边6 m(即0.51H)位置处,位移变化曲线呈盆状,至基坑地下结构施工完成时,最大位移出现在DB2-3监测点,位移值为-22.7 mm,约为0.19H%;提出建议在基坑南侧和西侧采用桩锚支护结构取代原设计支护形式的优化措施,研究成果可为类似工程提供参考。 相似文献
804.
阜石路分洪暗涵某暗挖段,浅涵暗挖洞身大部位于人工填土内,部分区域洞底人工填土厚度仍达2m。人工填土松散,自稳能力差,易发生塌落现象,不易成洞,施工难度大。为避免暗挖施工期间人工填土产生安全隐患并减少后期隧道变形,采用了袖阀管注浆技术对填土地层进行注浆加固,以确保工程施工安全及隧道工程质量&根据工程实施效果可见,袖阀管注浆加固对在人工填土中进行暗挖隧道开挖的沉降、变形控制的效果较好。 相似文献
805.
Catherine A. Stuart Sandra Piazolo Nathan R. Daczko 《Journal of Metamorphic Geology》2018,36(8):1049-1069
High‐strain zones are potential pathways of melt migration through the crust. However, the identification of melt‐present high‐strain deformation is commonly limited to cases where the interpreted volume of melt “frozen” within the high‐strain zone is high (>10%). In this contribution, we examine high‐strain zones in the Pembroke Granulite, an otherwise low‐strain outcrop of volcanic arc lower crust exposed in Fiordland, New Zealand. These high‐strain zones display compositional layering, flaser‐shaped mineral grains, and closely spaced foliation planes indicative of high‐strain deformation. Asymmetric leucosome surrounding peritectic garnet grains suggest deformation was synchronous with minor amounts of in situ partial melting. High‐strain zones lack typical mylonite microstructures and instead display typical equilibrium microstructures, such as straight grain boundaries, 120° triple junctions, and subhedral grain shapes. We identify five key microstructures indicative of the former presence of melt within the high‐strain zones: (a) small dihedral angles of interstitial phases; (b) elongate interstitial grains; (c) small aggregates of quartz grains with xenomorphic plagioclase grains connected in three dimensions; (d) fine‐grained, K‐feldspar bearing, multiphase aggregates with or without augite rims; and (e) mm‐ to cm‐scale felsic dykelets. Preservation of key microstructures indicates that deformation ceased as conditions crossed the solidus, breaking the positive feedback loop between deformation and the presence of melt. We propose that microstructures indicative of the former presence of melt, such as the five identified above, may be used as a tool for recognising rocks formed during melt‐present high‐strain deformation where low (<5%) volumes of leucosome are “frozen” within the high‐strain zone. 相似文献
806.
The wetting deformation of coarse granular materials is often considered to be an important cause of the core wall rockfill dam cracks during impounding. By analyzing existing research results, this paper proposes a hyperbolic relationship between the wetting axial strain and wetting stress level and puts forwards a warped surface relationship among spherical stress, shear stress, and the ratio of wetting volumetric strain to wetting axial strain. To illustrate its practicability, the wetting strain model's parameter determination process is introduced and the rockfill materials wetting parameters are determined using the triaxial wetting test data. Moreover, the collapse settlement of Guanyinyan rockfill dam during first impounding is numerically simulated using the proposed method to calculate rockfill wetting deformation and verified by field measurements and monitoring data. The results show that the calculative method of wetting deformation proposed in this paper is reasonable and practical; the wetting deformation of upstream rockfill materials would cause an adverse deformation trend, which may lead to crack occurrence at the upstream slope and dam crest; and the Guanyinyan rockfill dam cracks on the top of junction mainly caused by the wetting deformation of upstream rockfill. 相似文献
807.
A well‐constrained plate deformation model may lead to an improved understanding of sedimentary basin formation and the connection between subduction history and over‐riding plate deformation. Building quantitative models of basin kinematics and deformation remains challenging often due to the lack of comprehensive constraints. The Bohai Bay Basin (BBB) is an important manifestation of the destruction of the North China Craton, and records the plate kinematic history of East Asia during the Cenozoic. Although a number of interpretations of the formation of the BBB have been proposed, few quantitative basin reconstruction models have been built to test and refine previous ideas. Here, we developed a quantitative deformation reconstruction of the BBB constrained with balanced cross‐sections and structural, stratigraphic and depositional age data. Our reconstruction suggests that the basin formation process was composed of three main stages: Paleocene‐early Eocene (65–42 Ma) extension initiation, middle Eocene‐early Oligocene (42–32.8 Ma) extension climax and post‐Oligocene (32.8–0 Ma) post‐extensional subsidence. The deformation of the BBB is spatially heterogeneous, and its velocity directions rotated clockwise during the basin formation process. The reconstruction supports the interpretation that the BBB formed via strike‐slip faulting and orthogonal extension and that the basin is classified as a composite extensional‐transtensional basin. We argue that the clockwise rotation of the basin velocity field was driven by the counter‐clockwise rotation in the direction of Pacific Plate subduction. The kinematics of the BBB imply that the Pacific Plate may have been sufficiently coupled to the over‐riding East Asian Plate during the critical period of Pacific Plate reorganization. The new reconstruction provides a quantitative basis for studies of deformation processes not only in the vicinity of the BBB, but also more broadly throughout East Asia. 相似文献
808.
基于19个连续GNSS观测站的多种采样率(10 Hz、1 Hz和30 s)数据,分析2017-09-03朝鲜核爆对中国东北地区地壳形变场的影响。静态位移分析结果显示,距核爆现场最近的GNSS观测站JLCB没有产生明显的同震形变,与基于均匀半无限弹性空间断裂位错模型正演模拟的结果一致;GNSS应变结果显示,此次核爆在东北区域引起主应变的略微调整,但总体调整量在10-8以内,没有引起区域范围内面应变的变化;高频GNSS动态形变分析结果显示,核爆在JLCB站处没有引起明显的波形变化。另外,高频GNSS受到多路径效应的影响,可能会引起cm级的扰动,利用恒星日滤波方法可以抑制多路径的影响,得到精度更高、更可靠的动态形变结果。 相似文献
809.
随着GNSS技术的快速发展以及变形监测的需求日益增加,GNSS在变形监测中的应用越来越广泛,更新了变形监测手段,弥补了单一系统的不足,提高了监测效率与精度,为变形体的稳定性监测与安全运营提供了保障。本文探讨了GNSS的变形监测方案及数据处理方式,并结合盐水沟隧道工程的实例详细说明了GNSS在变形监测中的应用,最终通过实例验证GNSS能满足变形监测的精度等要求。 相似文献
810.
通过对北斗Ⅱ载波相位差分定位技术在高填方变形监测中的应用研究,包括实时动态差分定位(RTK)和静态相对定位,构建了完整的北斗Ⅱ高填方变形监测软硬件系统。该系统采用基于贯序极限学习机的卫星信号周跳探测与修复方法进行数据预处理,并利用基于卫星历元数的分层置信滤波算法对静态相对定位结果进行修正,提高了定位结果的准确性和可靠性。通过自制的精度测试装置,以百分表和钢尺测量的位移变化量为相对真值,完成了上述变形监测系统的精度试验。试验结果表明:该系统的RTK高程测量精度优于2 cm,静态高程测量精度优于2 mm,静态水平位移测量精度优于1.5 mm,可有效抑制卫星信号周跳和卫星历元数量较少等因素的影响。 相似文献