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  • Source: Engineering Geology. Unidade: EESC

    Subjects: ANCORAGEM, INTEMPERISMO, ARENITO, GEOTECNIA

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    • ABNT

      MONTICELLI, João Paulo e RIBEIRO, Rogério Pinto. Rock anchor testing on sandstone from the Botucatu formation, Paraná river basin, Brazil: insights for climbing safety procedures at the Corumbataí geopark project. Engineering Geology, v. 341, p. 1-17, 2024Tradução . . Disponível em: http://dx.doi.org/10.1016/j.enggeo.2024.107698. Acesso em: 17 nov. 2024.
    • APA

      Monticelli, J. P., & Ribeiro, R. P. (2024). Rock anchor testing on sandstone from the Botucatu formation, Paraná river basin, Brazil: insights for climbing safety procedures at the Corumbataí geopark project. Engineering Geology, 341, 1-17. doi:10.1016/j.enggeo.2024.107698
    • NLM

      Monticelli JP, Ribeiro RP. Rock anchor testing on sandstone from the Botucatu formation, Paraná river basin, Brazil: insights for climbing safety procedures at the Corumbataí geopark project [Internet]. Engineering Geology. 2024 ; 341 1-17.[citado 2024 nov. 17 ] Available from: http://dx.doi.org/10.1016/j.enggeo.2024.107698
    • Vancouver

      Monticelli JP, Ribeiro RP. Rock anchor testing on sandstone from the Botucatu formation, Paraná river basin, Brazil: insights for climbing safety procedures at the Corumbataí geopark project [Internet]. Engineering Geology. 2024 ; 341 1-17.[citado 2024 nov. 17 ] Available from: http://dx.doi.org/10.1016/j.enggeo.2024.107698
  • Source: Engineering Fracture Mechanics. Unidade: EESC

    Subjects: MECÂNICA DA FRATURA, MÉTODO DOS ELEMENTOS FINITOS, MECÂNICA DO DANO, ESTRUTURAS

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    • ABNT

      PICÓN, Ricardo A. et al. Modeling of localization using Nash variational formulations: The extended damage mechanics. Engineering Fracture Mechanics, v. 258, p. 1-17, 2021Tradução . . Disponível em: https://doi.org/10.1016/j.engfracmech.2021.108083. Acesso em: 17 nov. 2024.
    • APA

      Picón, R. A., Santos, D. M., Teles, D. V. C., Amorim, D. L. N. F., Xuhong, Z., Yongtao, B., et al. (2021). Modeling of localization using Nash variational formulations: The extended damage mechanics. Engineering Fracture Mechanics, 258, 1-17. doi:10.1016/j.engfracmech.2021.108083
    • NLM

      Picón RA, Santos DM, Teles DVC, Amorim DLNF, Xuhong Z, Yongtao B, Proença SPB, Flórez López J. Modeling of localization using Nash variational formulations: The extended damage mechanics [Internet]. Engineering Fracture Mechanics. 2021 ; 258 1-17.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.engfracmech.2021.108083
    • Vancouver

      Picón RA, Santos DM, Teles DVC, Amorim DLNF, Xuhong Z, Yongtao B, Proença SPB, Flórez López J. Modeling of localization using Nash variational formulations: The extended damage mechanics [Internet]. Engineering Fracture Mechanics. 2021 ; 258 1-17.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.engfracmech.2021.108083
  • Source: Engineering Geology. Unidade: EESC

    Subjects: SOLO ARGILOSO, BENTONITA, GEOTECNIA

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    • ABNT

      SOUZA, R.F.C. e PEJON, Osni José. Pore size distribution and swelling behavior of compacted bentonite/ claystone and bentonite/sand mixtures. Engineering Geology, v. 275, p. 1-11, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.enggeo.2020.105738. Acesso em: 17 nov. 2024.
    • APA

      Souza, R. F. C., & Pejon, O. J. (2020). Pore size distribution and swelling behavior of compacted bentonite/ claystone and bentonite/sand mixtures. Engineering Geology, 275, 1-11. doi:10.1016/j.enggeo.2020.105738
    • NLM

      Souza RFC, Pejon OJ. Pore size distribution and swelling behavior of compacted bentonite/ claystone and bentonite/sand mixtures [Internet]. Engineering Geology. 2020 ; 275 1-11.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2020.105738
    • Vancouver

      Souza RFC, Pejon OJ. Pore size distribution and swelling behavior of compacted bentonite/ claystone and bentonite/sand mixtures [Internet]. Engineering Geology. 2020 ; 275 1-11.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2020.105738
  • Source: Engineering Fracture Mechanics. Unidade: EESC

    Subjects: ACÚSTICA, FRATURA DAS ESTRUTURAS, PETROGRAFIA, GEOTECNIA

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    • ABNT

      RODRÍGUEZ, Patricia e CELESTINO, Tarcísio Barreto. Application of acoustic emission monitoring and signal analysis to the qualitative and quantitative characterization of the fracturing process in rocks. Engineering Fracture Mechanics, v. 210, p. 54-69, 2019Tradução . . Disponível em: https://doi.org/10.1016/j.engfracmech.2018.06.027. Acesso em: 17 nov. 2024.
    • APA

      Rodríguez, P., & Celestino, T. B. (2019). Application of acoustic emission monitoring and signal analysis to the qualitative and quantitative characterization of the fracturing process in rocks. Engineering Fracture Mechanics, 210, 54-69. doi:10.1016/j.engfracmech.2018.06.027
    • NLM

      Rodríguez P, Celestino TB. Application of acoustic emission monitoring and signal analysis to the qualitative and quantitative characterization of the fracturing process in rocks [Internet]. Engineering Fracture Mechanics. 2019 ; 210 54-69.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.engfracmech.2018.06.027
    • Vancouver

      Rodríguez P, Celestino TB. Application of acoustic emission monitoring and signal analysis to the qualitative and quantitative characterization of the fracturing process in rocks [Internet]. Engineering Fracture Mechanics. 2019 ; 210 54-69.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.engfracmech.2018.06.027
  • Source: Engineering Geology. Unidade: EESC

    Subjects: SOLO TROPICAL, COLUNAS, CONDUTIVIDADE HIDRÁULICA DO SOLO, GEOTECNIA

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    • ABNT

      GODOY, Vanessa Almeida de e ZUQUETTE, Lázaro Valentin e GÓMEZ HERNÁNDEZ, José Jaime. Scale effect on hydraulic conductivity and solute transport: small and largescale laboratory experiments and field experiments. Engineering Geology, v. 243, p. 196-205, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.enggeo.2018.06.020. Acesso em: 17 nov. 2024.
    • APA

      Godoy, V. A. de, Zuquette, L. V., & Gómez Hernández, J. J. (2018). Scale effect on hydraulic conductivity and solute transport: small and largescale laboratory experiments and field experiments. Engineering Geology, 243, 196-205. doi:10.1016/j.enggeo.2018.06.020
    • NLM

      Godoy VA de, Zuquette LV, Gómez Hernández JJ. Scale effect on hydraulic conductivity and solute transport: small and largescale laboratory experiments and field experiments [Internet]. Engineering Geology. 2018 ; 243 196-205.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2018.06.020
    • Vancouver

      Godoy VA de, Zuquette LV, Gómez Hernández JJ. Scale effect on hydraulic conductivity and solute transport: small and largescale laboratory experiments and field experiments [Internet]. Engineering Geology. 2018 ; 243 196-205.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2018.06.020
  • Source: Engineering Geology. Unidade: EESC

    Subjects: INFILTRAÇÃO SUPERFICIAL, GEOLOGIA, ZONEAMENTO, GEOTECNIA

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    • ABNT

      FAILACHE, Moisés Furtado e ZUQUETTE, Lázaro Valentin. Geological and geotechnical land zoning for potential Hortonian overland flow in a basin in southern Brazil. Engineering Geology, v. 246, p. 107-122, 2018Tradução . . Disponível em: https://doi.org/10.1016/j.enggeo.2018.09.032. Acesso em: 17 nov. 2024.
    • APA

      Failache, M. F., & Zuquette, L. V. (2018). Geological and geotechnical land zoning for potential Hortonian overland flow in a basin in southern Brazil. Engineering Geology, 246, 107-122. doi:10.1016/j.enggeo.2018.09.032
    • NLM

      Failache MF, Zuquette LV. Geological and geotechnical land zoning for potential Hortonian overland flow in a basin in southern Brazil [Internet]. Engineering Geology. 2018 ; 246 107-122.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2018.09.032
    • Vancouver

      Failache MF, Zuquette LV. Geological and geotechnical land zoning for potential Hortonian overland flow in a basin in southern Brazil [Internet]. Engineering Geology. 2018 ; 246 107-122.[citado 2024 nov. 17 ] Available from: https://doi.org/10.1016/j.enggeo.2018.09.032

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