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191	Relações experimentais entre tensão e propriedades de fratura em meios sintéticos anisotrópicos / Experimental relations between stress and fracture properties on synthetic anisotropic media Marcondes, Paulo Eduardo Pasquini 21 August 2018 (has links) Orientador: Joerg Dietrich Wilhelm Schleicher / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica e Instituto de Geociências / Made available in DSpace on 2018-08-21T13:15:48Z (GMT). No. of bitstreams: 1 Marcondes_PauloEduardoPasquini_M.pdf: 15230137 bytes, checksum: 6a3ec19ac833d41b7e0e630fdfdcd247 (MD5) Previous issue date: 2012 / Resumo: Nos reservatórios de hidrocarbonetos, a caracterização das falhas e fraturas é de extrema importância devido a seu papel ora como barreiras ao fluxo, ora canais condutores. Os efeitos da anisotropia causada por fraturas alinhadas têm sido objeto de muitos trabalhos e experimentos de modelagem sísmica. No entanto, devido a complexidade exibida por meios fraturados anisotrópicos, a caracterização desse tipo de meio nem sempre é possível. Nestas condições, através da adoção de modelos e geometrias simplificados, bem como da adequada escolha dos parâmetros é que a modelagem física da propagação de ondas sísmicas através de meios fraturados permite estimar a influência destas características das fraturas de forma mais confiável. Modelamos fraturas preenchidas por material de baixa resistência ao cisalhamento usando inclusões de neoprene, que possui esta característica. Foram efetuadas medidas de transmissão acústica de ondas P e S em um modelo de referência sem inclusões e em outro modelo com inclusões discóides de neoprene. Os dados ultrassônicos foram adquiridos usando transdutores de ondas P com frequência central de 120 kHz e de ondas S com 90 kHz. Estudamos o comportamento destes dois meios anisotrópicos sob compressão uniaxial. Também estudamos o efeito destas inclusões sobre os parâmetros anisotrópicos de um meio cujo arcabouço já apresentava comportamento anisotrópico polar. Ambos os modelos foram submetidos a compressão uniaxial com tensões de 3 até 15,8 MPa. O completo fechamento das fraturas ocorre ao nível de tensão de 14,6 MPa. Nossa análise aponta a existência de diferentes regimes para o comportamento das inclusões, observados tanto no parâmetro densidade de fraturas quanto sob sua razão de aspecto. Estes resultados sugerem uma dependência da razão de aspecto para baixos níveis de tensão uniaxial diferente do que se tem reportado na literatura. Outros resultados obtidos dizem respeito à caracterização dos meios anisotrópicos devido ao fraturamento a partir dos coeficientes elásticos derivados a partir das velocidades sísmicas. Apesar de não exaustivos, nossos resultados mostram que abordagens experimentais simples podem fornecer conhecimento valioso do comportamento de rochas fraturadas aos níveis de tensão existentes nos reservatórios / Abstract: Fault and fracture characterization is very important for hydrocarbon reservoirs, due to it being either a flow barrier or conduit. Elastic anisotropy due to aligned cracks has been the subject of many seismic physical modeling experiments. However, due to the complexity exhibited by fractured anisotropic media, fully characterizing these kind of media is not always possible. Under these conditions, the adoption of simplified models and geometries as well as adequate parameter choices permits characterizing these media using physical seismic modeling in a reliable way. We modeled fractures with a low shear modulus filling using neoprene rubber discs as inclusions, because of neoprene's low shear modulus. We carried out pulse transmission measurements of P- and S-wave velocities in a reference model without inclusions and in a model with penny-shaped neoprene inclusions. The reference model is an anisotropic matrix that consists of stacked plexiglass plates. Rubber discs were used as inclusions in that anisotropic matrix leading to secondary anisotropy, this is our second model. We recorded ultrasonic seismic data using P-wave transducers with central frequency 120 kHz and S-wave transducers with 90 kHz. We compressed the physical models using pressures ranging from 3 to 15.8MPa. Full crack closure occurs at stress 14.6MPa normal to model faces. Our analysis indicates different regimens for the behavior of the inclusions when observed via its crack densities and aspect ratios. These results suggest a different dependence of the crack aspect ratio on uniaxial stress at the low state of stress than usually described in the literature. Other results point that it might be possible to characterize a fractured medium though its elastic coefficients. Though our results are not extensive, they show that simple experimental approaches might provide valuable insight into the behavior of cracked rocks at reservoir stress levels / Mestrado / Reservatórios e Gestão / Mestre em Ciências e Engenharia de Petróleo Modelagem física Ondas sismicas Anisotropia Fraturas Physical modeling Seismic waves Anisotropy Fractures
192	Separação e processamento de difrações em dados geofísicos de reflexão / Separation and processing of diffractions in geophysical reflection data Faccipieri Junior, Jorge Henrique, 1983- 08 June 2012 (has links) Orientador: Martin Tygel / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica e Instituto de Geociências / Made available in DSpace on 2018-08-21T00:35:26Z (GMT). No. of bitstreams: 1 FaccipieriJunior_JorgeHenrique_M.pdf: 11845729 bytes, checksum: 1c69f6a509b40bc499fe38630fb28be9 (MD5) Previous issue date: 2012 / Resumo: O método de empilhamento Common Reflection Surface (CRS) permite obter seções de afastamento nulo simuladas de maior qualidade e extrair um maior número de atributos que caracterizam o meio geológico que o tradicional método de empilhamento Common Midpoint (CMP)...Observação: O resumo, na íntegra, poderá ser visualizado no texto completo da tese digital / Abstract: The Common Reflection Surface (CRS) method is able to obtain simulated zero-offset sections of higher quality and the extraction of a greater number of attributes which characterize the geological medium than the traditional Common Midpoint (CMP) method...Note: The complete abstract is available with the full electronic document / Mestrado / Reservatórios e Gestão / Mestre em Ciências e Engenharia de Petróleo Geofísica Método sísmico de reflexão Ondas sismicas Difração Geophysics Seismic reflection method Seismic waves Diffraction
193	Modelagem e interpretação de sísmica 4D em modelos de simulação numérica de reservatórios : o exemplo do campo de Namorado / Modeling and interpretation of time-lapse seismic in numerical reservoir simulation : the exemple of the Namorado reservoir Côrte, Gustavo Araújo, 1987- 11 July 2014 (has links) Orientador: Emilson Pereira Leite / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Mecânica, Instituto de Geociências / Made available in DSpace on 2018-08-26T14:10:12Z (GMT). No. of bitstreams: 1 Corte_GustavoAraujo_M.pdf: 9270207 bytes, checksum: c154411f85969c8b5ff6e1768d5c1019 (MD5) Previous issue date: 2014 / Resumo: Utilizando uma abordagem integrada de simulação de reservatórios, física de rochas e modelagem sísmica, o presente estudo analisa a influência das mudanças em pressão e distribuição de fluidos em um reservatório em seções sísmicas time-lapse. As formas e ocasiões nas quais essas mudanças podem ser detectadas são estudadas, para auxiliar na caracterização da dinâmica dos fluidos dentro do reservatório. Para analisar esses efeitos, foram conduzidas simulações de fluxo de reservatório em um modelo geológico do reservatório arenítico de Namorado, na bacia de Campos, Brasil. Através de uma abordagem de substituição de fluidos de Gassmann, volumes 4D de impedância no reservatório foram criados a partir dos resultados de simulação. Em seguida, volumes time-lapse de sísmica sintética são analisados. Diferentes situações de injeção de água e de gás foram simuladas, com o intuito de quantificar as diferenças entre as substituições óleo-água e óleo-gás e investigar as diferentes formas que estas afetam as amplitudes sísmicas. As interpretações feitas permitem definir padrões para diferenciar áreas de subtituição de óleo por água e gás, podendo ser útil em casos de injeção alternada de água e gás (WAG) / Abstract: Using an integrated approach of reservoir simulation, rock physics and seismic modelling, the present study analyses the influence of changes in pressure and distribution of fluids in a reservoir on time-lapse seismic sections. The forms and occasions in which these changes can be detected are studied to help in the characterization of the fluid dynamics inside the reservoir. To analyze these effects, reservoir production simulations were conducted in a geological model of the Namorado sandstone reservoir, in Brazil's Campos basin. Through a Gassmann fluid substitution approach, 4D impedance volumes were created from the simulation results and Synthetic time-lapse seismic sections were computed. Simulations of both water injecting and gas injecting situations were conducted in order to quantify the differences between oil-water and oil-gas substitutions and investigate the different ways they affect seismic amplitudes. The interpretations allow the definition of patterns to distinguish areas of substitution of oil by water and gas, which would be useful in water alternating gas (WAG) injection cases / Mestrado / Reservatórios e Gestão / Mestre em Ciências Reservatórios Viabilidade Ondas sismicas Física de rochas Reservoirs Feasibility Seismic waves Rock physiscs
194	The Role of Tectonic Inheritance: Mountain-Building, Rifting, Magmatism, and Earthquakes in the Southeastern United States Marzen, Rachel January 2021 (has links) The Southeastern US is an ideal location to explore the interactions between mountain-building, rifting, magmatism and intraplate deformation. It experienced the formation of the Southern Appalachians over multiple episodes of orogenesis, continental rifting that formed the South Georgia Rift Basin, and widespread magmatism associated with the Central Atlantic Magmatic Province (CAMP). CAMP was followed by the breakup of Pangea, but the suture between Laurentia and Gondwana from the Appalachian orogeny is preserved in the crust of the Southeastern US. Intraplate seismicity indicates ongoing deformation in the Southeastern US today, but the mechanisms controlling this seismicity are poorly understood. This thesis uses seismic constraints to examine the tectonic history of the Southeastern United States (US). We use new wide-angle refraction seismic data to model crustal and upper mantle velocities in order to investigate the structures formed by mountain-building, rifting, and magmatism. Broadband seismic data are then used to detect and characterize earthquakes in the central Georgia-South Carolina region. Wide-angle seismic data were collected on three profiles crossing major geological features in Georgia to investigate the tectonic history of the Southeastern United States as a part of the SUwanee Suture and GA Rift basin experiment (SUGAR) project. We model VP and VS of the crust and upper mantle on SUGAR Line 2, which extends from the Inner Piedmont to the Georgia coast. We identify a north to south decrease in upper crustal VP/VS at the Higgins-Zietz magnetic boundary, which other recent studies have identified as the location of the suture between Laurentia and Gondwana. This boundary also lies near the northwestern edge of the South Georgia Rift Basin, the southeastern termination of the low velocity zone interpreted as the Appalachian detachment, and localized crustal thinning. Together, these results provide new evidence in support of the Alleghanian suture being located at the Higgins-Zietz magnetic boundary, and suggest that this orogenic boundary influenced the location of subsequent rifting. We compare the VP structures of two SUGAR wide-angle transects that cross western and eastern segments of the South Georgia Rift, respectively. Elevated (>7.0 km/s) lower crustal velocities are observed where the rift basin sedimentary fill is thickest and the crust is most thinned. The quantities of mafic magmatic intrusions are consistent with decompression melting at modestly elevated mantle potential temperatures, such as those estimated for CAMP intrusions. These results suggest that, in contrast with the widespread CAMP-aged magmatism at the Earth’s surface, lower crustal magmatic intrusions in the Southeastern US are limited and localized in areas that experienced extension. These new constraints on the velocity structure and tectonic history of the Southeastern United States are then applied to understand earthquakes in the region today. Using broadband seismic data, we find that earthquakes southeast of the Eastern Tennessee Seismic Zone are concentrated within the Carolina Terrane, a particularly heterogeneous accreted terrane of the Southern Appalachians. Within this terrane, seismicity concentrates near rivers and reservoirs, including a sequence of earthquakes in 2013 associated with an increase in water levels at Thurmond Lake on the Georgia-South Carolina border. Focal mechanisms suggest that the earthquakes are occurring on structures that are oblique to the trend of the Appalachians that are more optimally oriented in the modern stress regime. Geophysics Plate tectonics Geology Magmatism Seismic waves Suture zones (Structural geology) Earthquakes
195	Marine electromagnetic studies of the Pacific Plate and Hikurangi Margin, New Zealand Chesley, Christine Jessie January 2022 (has links) Marine electromagnetic (EM) geophysics is an up-and-coming branch of the geosciences that is allowing for the advancement in our understanding of key properties of the oceanic lithosphere and subduction dynamics, particularly in how deformation manifests geophysically and how it evolves through time and under various conditions. This dissertation focuses on two unique marine EM data sets collected at the Hikurangi subduction zone, New Zealand, and on 33 Ma Pacific lithosphere. Analysis of the former, which constitutes the bulk of this dissertation, offers the first kilometer-scale characterization of offshore, margin-wide electrical resistivity variations at a subduction zone and provides an electrical framework for discussing the potential causes of along-strike differences in megathrust slip at the Hikurangi Margin. The latter data set is used to constrain electrical anisotropy of the shallow lithosphere, which enables an interpretation of the deformation history of normal oceanic lithosphere. Chapter 2 of this dissertation gives a brief overview of the physical underpinnings of EM methods with attention given to the marine magnetotelluric (MT) and controlled-source electromagnetic (CSEM) methods. Maxwell's equations are reviewed and the relevant derivations leading to the temporal and spatial behavior of EM waves for the frequencies used in this dissertation (~0.001--0.1 Hz) are presented. Chapter 3 focuses on the tectonic background of the Hikurangi Margin and on processing of the MT and CSEM data. Interest in the Hikurangi Margin has arisen both because of its proximity to the inhabitants of New Zealand and due to the recognition of several properties that vary along the strike of the margin. The most intriguing of those variations, and most concerning from a natural hazard perspective, are the along-strike change in interseismic coupling and slow slip event (SSE) occurrence, with stronger coupling and deeper, infrequent SSEs realized in the southern Hikurangi Margin and weaker coupling and shallower, more frequent SSEs in the north. Several proposed causes of these variations are cited, including differences in sediment thickness and roughness of the incoming plate, changes in the plate interface geometry, and the effect of geological terranes in the forearc on pore pressure. But the degree to which any or all of these factors affect interseismic coupling remains an open question. The remainder of Chapter 3 is devoted to detailing the steps involved in processing the marine MT and CSEM data. A workflow for optimizing MT response function estimation is presented and improvements to the marine CSEM processing scheme are described. In Chapter 4 of this dissertation, inversions of the data collected at the southern Hikurangi Margin are presented, and these resistivity models are compared with co-located seismic data. Individual inversions of the CSEM and MT data along with joint inversion of the two data sets highlights the distinct sensitivities and resolving capabilities of each data type. A thick (4--6 km) sediment package covers the Hikurangi Plateau of the incoming plate. The plateau itself is evident as a dipping resistor (>10 Ω-m) that approximately corresponds with the seismically interpreted depth of the Hikurangi Plateau. Resistors in the shallow forearc are interpreted as free gas or gas hydrate, which is prevalent at the Hikurangi Margin. A resistive anomaly beneath one of two main ridges appears to comprise the footwall of a thrust fault, which potentially implies a high permeability system that allows for preferential dewatering of the footwall. Using available P-wave velocity data for this region, equations relating resistivity to velocity are derived. The resistivity presented in Chapter 4 and Archie's law are used to derive porosity models of the southern Hikurangi profile in Chapter 5. Vertical compaction is shown to dominate trends in porosity. A reference compaction porosity model is approximated and removed from the resistivity-derived porosity model in order to identify porosity trends distinct from compaction. A deepening in the negative porosity anomaly of the shallow incoming plate sediments as they approach the trench suggests these sediments experience compression several kilometers seaward of the main frontal thrust. This could represent the early stages of protothrust zone development. An increasingly positive porosity anomaly observed in the sedimentary unit just above the Hikurangi Plateau as it nears the trench may indicate heightened fluid overpressures in an incipient décollement. In Chapter 6 of this dissertation, inversions of the central Hikurangi Margin are shown and discussed. Compared to resistivity in the southern Hikurangi Margin, the forearc and incoming plate of the central Hikurangi Margin are more complex in their resistivity structure, possibly due to the impact of rougher seafloor. Extensive evidence for free gas or gas hydrates is found as shallow resistive anomalies in these models. Other anomalous resistors may correspond to exhumed terranes in the forearc. Anomalous forearc conductors could indicate sediment underplating or damage zones associated with subducting topography. Chapter 7 shows the resistivity and porosity of the northern Hikurangi Margin and offers the first detailed electrical image of a seamount prior to and during subduction. The seamount on the incoming plate is shown to have a thin, resistive cap that traps a conductive matrix of porous volcaniclastics and altered material over a resistive core. Again applying Archie's law to estimate porosity from resistivity reveals that the seamount will allow ~3.2--4.7x more water than normal, unfaulted oceanic lithosphere to subduct with the seamount. In the forearc, a sharp, resistive peak on the slab is interpreted as the core of a subducting seamount. This cone of high resistivity lies directly beneath a prominent conductive anomaly in the upper plate. Burst-type repeating earthquakes and other seismicity from a recent SSE cluster in and around this conductive anomaly, which seems to implicate the subducting seamount in the generation of fluid-rich damage zones in the forearc. The interaction of the subducting topography with the upper plate will thus alter the effective normal stress at the plate interface by modulating fluid overpressure. The results in this chapter show that subducting topography can transport large volumes of water to the forearc and that such topography is able to severely modify the structure and physical conditions of the upper plate, which may influence the location and timing of SSEs. Finally, Chapter 8 provides a robust constraint on the electrical azimuthal anisotropy of oceanic lithosphere. The data for this chapter were collected in a region of oceanic lithosphere removed from the influence of plate boundaries and intraplate volcanism. The survey design was chosen to maximize azimuthal coverage so as to constrain the directional dependence of resistivity. Inversions of the data resulted in an anisotropic resistivity model wherein the crust is ~18-36x more conductive in the paleo mid-ocean ridge direction than the perpendicular paleo-spreading direction. In the uppermost mantle conductivity is ~29x higher in the paleo-spreading direction. The crustal anisotropy is interpreted to result from sub-vertical porosity created by ridge parallel normal faulting during extension of the young crust and thermal stress-driven cracking from cooling of mature crust. Anisotropy in the uppermost mantle implies that shearing of mantle olivine during plate formation generates a strong electrical signal that is preserved as the plate ages. Reanalysis of EM data collected offshore Nicaragua suggests that the Pacific Plate electrical anisotropy is not a local anomaly but rather may be prevalent throughout oceanic lithosphere. Geophysics Submarine geology Plate tectonics Lithosphere Anisotropy Electromagnetic waves Seismic waves Mid-ocean ridges
196	Seismic studies of interactions between the accretionary, tectonic, fluid flow, and sedimentary processes that impact the evolution of oceanic lithosphere Boulahanis, Bridgit January 2021 (has links) The oceanic lithosphere makes up approximately two-thirds of the surface of the earth. Oceanic crust, which is underlain by lithospheric mantle, is formed at mid-ocean ridges and is shaped by a combination of igneous accretionary processes at and near the ridge axis, and post-emplacement tectonic and hydrothermal processes as it evolves. Through time the crust is covered by sediments, sealing it from the overlying ocean, which influences hydrothermal circulation and cooling in the lithosphere below. Finally, oceanic lithosphere is subsumed at subduction zones. In this thesis I utilize seismic data to investigate the oceanic lithosphere from formation to near subduction using seismic datasets from the East Pacific Rise (EPR) and the Juan de Fuca (JdF) plate. In my first chapter I investigate the hypothesis that eustatic sea level fluctuations induced by the glacial cycles of the Pleistocene influence mantle-melting at mid-ocean ridges (MORs) using a unique bathymetry and crustal thickness dataset derived from a 3D multi-channel seismic (MCS) investigation of the East Pacific Rise from 9°42’ to 57’N. The results of this study show variations in crustal thickness and bathymetry at timescales associated with Pleistocene glacial cycles, supporting the inference that mantle melt supply to MOR may be modulated by sea level variations. Further investigations of the hypothesis that sea level variations may influence MOR dynamics are presented in appendices one and two. In appendix one I explore whether variations at the timescales of glacial cycles are apparent in MCS datasets from the intermediate spreading JdF ridge as well as bathymetry data from the fast spreading EPR. In appendix two I present a case study in which I re-examine the crustal thickness and bathymetry data from the northern EPR presented in chapter one in order to assess how fine-scale segmentation of the ridge axis appears in data, and compare different methodological approaches to describing MOR generated topography. In my second chapter I present results from a wide-angle controlled source seismic experiment conducted along a transect crossing the JdF plate from ~20 km east of the axis at the Endeavour segment of the JdF ridge to the Cascadia margin off of Washington state. I utilize a joint refraction-reflection traveltime inversion to generate a two-dimensional tomographic Vp model of the sediments, crust and upper mantle. Analysis of this Vp model, along with characterization of the basement topography along the transect, reveals three intervals (spanning millions of years) of distinct crust and upper mantle properties indicating a spatially heterogeneous JdF plate which is interpreted as inherited from changes in the mode of accretion at the paleo-JdF ridge, differences in plate interior processes, and deformation near the subduction zone. In my third chapter I present results of a MCS study of the sediment section conducted along a transect spanning ~350 km along the Cascadia margin from offshore southern Oregon to offshore Washington state. In this study I utilize prestack depth migrated MCS data to describe the reflectivity of the sediment section and invert for impedance and density. I also present results of amplitude variation with angle of incidence analysis conducted using pre-stack seismic gathers. Results indicate along margin variations in the characteristics of the sediments as well as complex changes in the stress state along the Cascadia margin. Synthesis of these analyses provides an in-depth assessment of patterns of sedimentation and properties of the sediment section as it experiences the effects of the onset of subduction. Geophysics Submarine geology Seismic waves Lithosphere Crust of the Earth--Research Sea level--Research
197	A study of seismic response of rotating machines subjected to multi-component base excitation Chang, Tsu-Sheng 04 May 2010 (has links) Rotating machines such as motors, generators, turbines, etc. are crucial mechanical components of modern industrial and power generation facilities. For proper functioning of these facilities during and after an earthquake, it is essential that the rotating machines in these facilities also function as desired. The dynamics of a rotating machine is quite complex. It is further complicated by the presence of earthquake induced base motions. The response spectrum methods, which are now commonly used for calculating seismic design response of civil structures, cannot be used as such for calculating the design response of rotating machines. In this thesis, a response spectrum method which can be applied to the rotating machines is developed. To develop the response spectrum approach, a generalized modal superposition method is utilized. The random vibration analysis is applied to incorporate the stochastic characteristics of the seismic inputs. The applicability of the proposed response spectrum approach is verified by a simulation study where fifty sets of acceleration time histories are used. The proposed method considers the fact that earthquake induced base motions have several components, including rotational inputs. To define the correlation between the rotational and translational input components of the excitation, the correlation matrix and a travelling seismic wave approaches are used. The numerical results are obtained to evaluate the effect of rotational input components on the response of a rotating machine. It is observed that the rotational components are important only when they are very strong. In actual practice, such strong rotational inputs are not expected to excite rotors which are either directly placed on ground or are placed in common buildings. In the proposed spectrum approach, nevertheless, the effect of rotational input components can be easily incorporated if the correlation between various excitation components is specified. / Master of Science LD5655.V855 1992.C526 Rotational motion -- Mathematical models Seismic waves
198	Inverse problem for stress in the earth based on geodetic data Ikeda, Keiichiro January 1981 (has links) Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Earth and Planetary Sciences, 1981. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND LINDGREN. / Includes bibliographies. / by Keiichiro Ikeda. / Ph.D. Earth and Planetary Sciences. Earthquake prediction Strains and stresses Geodesy Cauchy problem Seismic waves
199	Evolution of the oceanic lithosphere and shear wave travel time residuals from oceanic earthquakes Duschenes, Jeremy David January 1976 (has links) Thesis. 1976. M.S.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Sciences. / Microfiche copy available in Archives and Science. / Bibliography: leaves 51-58. / by Jeremy D. Duschenes. / M.S. Earth and Planetary Sciences Earthquakes Seismic waves Faults (Geology) Sea-floor spreading Plate tectonics
200	Dilatancy : further studies in crystalline rock Hadley, Kate Hill January 1975 (has links) Thesis. 1975. Ph.D.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Sciences. / Bibliography: leaves 190-202. / by Kate Hadley. / Ph.D. Earth and Planetary Sciences Rock mechanics Rock pressure Seismic waves Earthquake prediction Rocks, Crystalline

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