Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina

A geophysical survey involving seismic refraction tomography (SRT) for mapping 'P' waves was carried out in Sierra Santa Clara, San Juan Province, Argentina in July 2009. The purpose of the geophysical survey was to determine the degree of fracturing and the rigidity of the rock mass throu...

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Autores:: Imhof, Armando Luis
Sánchez, Manuel
Calvo, Carlos
Martín, Adriana

Tipo de recurso:: Article of journal

Fecha de publicación:: 2011

Institución:: Universidad Nacional de Colombia

Repositorio:: Universidad Nacional de Colombia

Idioma:: spa

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dc.title.spa.fl_str_mv	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
title	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
spellingShingle	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina seismic tomography P wave seismic refraction compressional waves signal processing.
title_short	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
title_full	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
title_fullStr	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
title_full_unstemmed	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
title_sort	Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina
dc.creator.fl_str_mv	Imhof, Armando Luis Sánchez, Manuel Calvo, Carlos Martín, Adriana
dc.contributor.author.spa.fl_str_mv	Imhof, Armando Luis Sánchez, Manuel Calvo, Carlos Martín, Adriana
dc.subject.proposal.spa.fl_str_mv	seismic tomography P wave seismic refraction compressional waves signal processing.
topic	seismic tomography P wave seismic refraction compressional waves signal processing.
description	A geophysical survey involving seismic refraction tomography (SRT) for mapping 'P' waves was carried out in Sierra Santa Clara, San Juan Province, Argentina in July 2009. The purpose of the geophysical survey was to determine the degree of fracturing and the rigidity of the rock mass through which it is planned to build a 290 m long road tunnel traversing the mountain almost perpendicular to the axis thereof, at around 100 m depth from the summit. Several difficulties arose from the operational point of view which made it almost impossible to conduct fieldwork in normal circumstances. Firstly, the topography had almost 45º slopes and 100 m research depths which would have involved having had to use explosives to generate seismic waves reaching sensors which had sufficient signal-to-noise ratio for distinguishing them. Legal restrictions regarding the use of explosives on the one hand and insufficient power when using hammer blows on the other made it necessary to design and build a gas-powered gun to achieve the minimum energy (2 kJ) required for detecting seismic signals. Secondly, using conventional interpretation methods involving layered models was inoperable in such geological structures; seismic tomography methods were thus used which make use of the velocity gradient concept (both lateral and in-depth). This allowed mapping subsurface velocity variations in the form of velocity contour lines.The methodology used with the new seismic waves' source generator, as well as SRT application in this type of geological structure, demonstrated that satisfactory results could be obtained for this kind of geophysical study for geotechnical purposes.
publishDate	2011
dc.date.issued.spa.fl_str_mv	2011
dc.date.accessioned.spa.fl_str_mv	2019-06-28T03:36:30Z
dc.date.available.spa.fl_str_mv	2019-06-28T03:36:30Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.relation.spa.fl_str_mv	http://revistas.unal.edu.co/index.php/esrj/article/view/27711
dc.relation.ispartof.spa.fl_str_mv	Universidad Nacional de Colombia Revistas electrónicas UN Earth Sciences Research Journal Earth Sciences Research Journal
dc.relation.ispartofseries.none.fl_str_mv	Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 2339-3459 1794-6190
dc.relation.references.spa.fl_str_mv	Imhof, Armando Luis and Sánchez, Manuel and Calvo, Carlos and Martín, Adriana (2011) Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina. Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 2339-3459 1794-6190 .
dc.rights.spa.fl_str_mv	Derechos reservados - Universidad Nacional de Colombia
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dc.rights.license.spa.fl_str_mv	Atribución-NoComercial 4.0 Internacional
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rights_invalid_str_mv	Atribución-NoComercial 4.0 Internacional Derechos reservados - Universidad Nacional de Colombia http://creativecommons.org/licenses/by-nc/4.0/ http://purl.org/coar/access_right/c_abf2
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dc.publisher.spa.fl_str_mv	UNIVERSIDAD NACIONAL DE COLOMBIA
institution	Universidad Nacional de Colombia
bitstream.url.fl_str_mv	https://repositorio.unal.edu.co/bitstream/unal/39268/1/27711-97515-1-PB.pdf https://repositorio.unal.edu.co/bitstream/unal/39268/2/27711-97515-1-PB.pdf.jpg
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spelling	Atribución-NoComercial 4.0 InternacionalDerechos reservados - Universidad Nacional de Colombiahttp://creativecommons.org/licenses/by-nc/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Imhof, Armando Luis61fd7361-d4ab-42c6-bfdd-94778b55a027300Sánchez, Manuelffa83ef8-e9c6-4d8c-93cb-10aae9fd778b300Calvo, Carlos9c1f317f-613b-4b42-8aae-5b024a45dd2e300Martín, Adriana8ceebcf1-f85f-4b86-9574-7a022c45c2f73002019-06-28T03:36:30Z2019-06-28T03:36:30Z2011https://repositorio.unal.edu.co/handle/unal/39268http://bdigital.unal.edu.co/29365/http://bdigital.unal.edu.co/29365/2/A geophysical survey involving seismic refraction tomography (SRT) for mapping 'P' waves was carried out in Sierra Santa Clara, San Juan Province, Argentina in July 2009. The purpose of the geophysical survey was to determine the degree of fracturing and the rigidity of the rock mass through which it is planned to build a 290 m long road tunnel traversing the mountain almost perpendicular to the axis thereof, at around 100 m depth from the summit. Several difficulties arose from the operational point of view which made it almost impossible to conduct fieldwork in normal circumstances. Firstly, the topography had almost 45º slopes and 100 m research depths which would have involved having had to use explosives to generate seismic waves reaching sensors which had sufficient signal-to-noise ratio for distinguishing them. Legal restrictions regarding the use of explosives on the one hand and insufficient power when using hammer blows on the other made it necessary to design and build a gas-powered gun to achieve the minimum energy (2 kJ) required for detecting seismic signals. Secondly, using conventional interpretation methods involving layered models was inoperable in such geological structures; seismic tomography methods were thus used which make use of the velocity gradient concept (both lateral and in-depth). This allowed mapping subsurface velocity variations in the form of velocity contour lines.The methodology used with the new seismic waves' source generator, as well as SRT application in this type of geological structure, demonstrated that satisfactory results could be obtained for this kind of geophysical study for geotechnical purposes.A geophysical survey involving seismic refraction tomography (SRT) for mapping 'P' waves was carried out in Sierra Santa Clara, San Juan Province, Argentina in July 2009. The purpose of the geophysical survey was to determine the degree of fracturing and the rigidity of the rock mass through which it is planned to build a 290 m long road tunnel traversing the mountain almost perpendicular to the axis thereof, at around 100 m depth from the summit.Several difficulties arose from the operational point of view which made it almost impossible to conduct fieldwork in normal circumstances. Firstly, the topography had almost 45° slopes and 100 m research depths which would have involved having had to use explosives to generate seismic waves reaching sensors which had sufficient signal-to-noise ratio for distinguishing them. Legal restrictions regarding the use of explosives on the one hand and insufficient power when using hammer blows on the other made it necessary to design and build a gas-powered gun to achieve the minimum energy (2 kJ) required for detecting seismic signals.Secondly, using conventional interpretation methods involving layered models was inoperable in such geological structures; seismic tomography methods were thus used which make use of the velocity gradient concept (both lateral and in-depth). This allowed mapping subsurface velocity variations in the form of velocity contour lines.The methodology used with the new seismic waves' source generator, as well as SRT application in this type of geological structure, demonstrated that satisfactory results could be obtained for this kind of geophysical study for geotechnical purposes.application/pdfspaUNIVERSIDAD NACIONAL DE COLOMBIAhttp://revistas.unal.edu.co/index.php/esrj/article/view/27711Universidad Nacional de Colombia Revistas electrónicas UN Earth Sciences Research JournalEarth Sciences Research JournalEarth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 2339-3459 1794-6190Imhof, Armando Luis and Sánchez, Manuel and Calvo, Carlos and Martín, Adriana (2011) Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina. Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 Earth Sciences Research Journal; Vol. 15, núm. 2 (2011); 81-88 2339-3459 1794-6190 .Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentinaArtículo de revistainfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85Texthttp://purl.org/redcol/resource_type/ARTseismic tomographyP waveseismic refractioncompressional wavessignal processing.ORIGINAL27711-97515-1-PB.pdfapplication/pdf2953292https://repositorio.unal.edu.co/bitstream/unal/39268/1/27711-97515-1-PB.pdfe6763fbbff5ebb4e539f5668a3762efdMD51THUMBNAIL27711-97515-1-PB.pdf.jpg27711-97515-1-PB.pdf.jpgGenerated Thumbnailimage/jpeg7482https://repositorio.unal.edu.co/bitstream/unal/39268/2/27711-97515-1-PB.pdf.jpg1c88499b8f5f87e254de14c6d1359c58MD52unal/39268oai:repositorio.unal.edu.co:unal/392682023-01-22 23:05:03.231Repositorio Institucional Universidad Nacional de Colombiarepositorio_nal@unal.edu.co

Application of seismic refraction tomography for tunnel design in santa clara mountain, san juan, argentina

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