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Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi

Year 2019, Volume: 30 Issue: 5, 9443 - 9458, 01.09.2019
https://doi.org/10.18400/tekderg.399679

Abstract

Yüksek
katlı yapı temellerinde kullanılan baret kazıklı radye sistemlerinin oturma
analizlerinin yapılması, geoteknik mühendisliği açısından yeni bir bilimsel
mücadele alanı olmuştur. Bu temel sistemlerinin sayısal üç boyutlu modellerinin
görüntü işleme tekniğiyle daha gerçekçi olarak yapılabildiğini göstermek amacıyla,
Viyana'daki Avrupa’nın en uzun gökdelenlerinden biri olan DC kulelerinin temel
sistemleri ayrıntılı bir şekilde modellenmiş ve kulelerin birbirlerine etkisi
incelenmiştir. Bu araştırma kapsamında geliştirilen üç boyutlu sonlu elemanlar
(3B SE) modelleri sayesinde, geoteknik mühendisliğinde önemli bir temel çeşidi
olan baret kazıklı radyelerin oturma analizleri, komşu kazık sistemiyle
birlikte analiz edilerek ölçüm sonuçlarıyla kıyaslanmıştır. Bu bildiride
sunulan analizler sayesinde, literatürde daha önce sunulan 3B SE analizi
geliştirilerek oturma analizlerinin daha hassas olarak ileri bir modelleme
tekniği ile yapılabileceği açıklanmıştır.

References

  • Tamaro, G., Perimeter Wall for New World Center, J. Constr. Eng. Manage., 107(2), 193–207, 1981.
  • Ramaswamy, S. D., Pertusier, E. M., Construction of Barrettes for High-Rise Foundations, J. Constr. Eng. Manage., 112(4), 455–462, 1986.
  • Pratt, M., Sims, M. J., The Application of New Techniques to Solve Deep Basement and Foundation Problems, Int. Conf. on Deep Foundation Practice, Singapore, 1990.
  • Ann, T. S., Fellenius, B. H., Failure of a Barrette As Revealed in an O-cell Test, GeoCongress ASCE, Oakland, California, USA, 307-321, 2012.
  • Thasnanipan, N., Maung, A. W., Baskaran, G., Diaphragm Wall and Barrette Construction for Thiam Ruam Mit Station Box, MTR Chaloem Ratchamongkhon Line, Bangkok, Int. Conf. on Geotechnical and Geologic Engineering, GeoEng 2000, Melbourne, Australia, 2000.
  • Kienberger, H., Diaphragm Walls as Load Bearing Foundations, Diaphragm walls and anchorages, Institution of Civil Engineers, London, 19–21, 1975.
  • Baker, C. N., Azam, I., Joseph, L. S., Settlement Analysis for 450 Meter Tall KLCC Towers, In Vertical and Horizontal Deformations of Foundations and Embankments, ASCE, 1650-1671, 1994.
  • Martak, L., Mayerhofer, A.F., Tschuchnigg, F., Vorwagner, A., Bahnhof Wien Mitte – Ein zentrales Infrastrukturprojekt im Herzen Wiens, Proc. 23th Christian Veder Kolloquium, Graz, 2007.
  • Ng, C. W. W., Lei G. H., Performance of Long Rectangular Barrettes in Granitic Saprolites, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 129(8), 685-696, 2003.
  • Geotechnical Engineering Office (GEO)., Pile Design and Construction, GEO Publication No. 1/96, Civil Engineering Dept., Hong Kong Government, Hong Kong, 1996.
  • Powrie, W., E. S. F. Li., Finite Element Analyses of an In Situ Wall Propped at Formation Level, Geotechnique, 41(4), 499-514, 1991.
  • Gunn M. J., Satkunananthan, A., Clayton, C. R. I., Finite Element Modelling of Installation Effects, Retaining Structures, 46-55, 1993.
  • Moran, J., Laimbeer, A., Behaviour During Construction of a Cantilever Diaphragm Wall in Stiff Clay at Limehouse Link, TRL Project Report 73, Transport Research Laboratory of the Department of Transport, Crowthorne, Berkshire, UK, 1994.
  • Ng, C. W. W., An Evaluation of Soil-Structure Interaction Associated with a Multi-Propped Excavation, PhD thesis, University of Bristol, U.K., 1992.
  • Lings, M. L., Ng, C. W. W., Nash, D. F. T., The Lateral Pressure of Wet Concrete Diaphragm Wall Panels Cast Under Bentonite, Proc. Instn. Civ. Engrs, Geotech. Eng., 107(3), 163-172, 1994.
  • Ng, C. W. W., Yan, R. W. M., Stress Tranfer and Deformation Mechanisms Around A Diaphragm Wall Panel, J. Geotech. And Geoenviron. Engng., ASCE, 124(7), 638-648, 1998.
  • Ng, C. W. W., Yan R. W. M., Three-Dimensional Modelling of a Diaphram Wall Construction Sequance, Geotechnique, 49(6), 825-834, 1999.
  • Ng, C. W. W., Lings, M. L., Simpson B., Nash, D. F. T., An Approximate Analysis of the Three-Dimentional Effects of Diaphram Wall Installation, Geotechnique, 45(3), 497-507, 1995.
  • Gourvenec, S. M., Powrie, W.,Three-Dimentional Finite Element Analysis of Diaphragm Wall Installation, Geotechnique, 49(6), 801-823, 1999.
  • Fellenius, B. H., Altaee, A., Kulesza, R., Hayes, J., O-Cell Testing and FE Analysis of 28-m-Deep Barrette in Manila, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 125(7), 566-575, 1999.
  • Lei, G., Behaviour of Excavated Rectangular Piles (Barrettes) in Granitic Saprolites, PhD Thesis, Dept. of Civil Eng. Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, 2001.
  • Zhang, L. M., Behavior of Laterally Loaded Large-Section Barrettes, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 129(7), 639-648, 2003.
  • Seo, H., Basu, D., Prezzi, M., Salgado, R., Load-Settlement Response of Rectangular and Circular Piles in Multilayered Soil, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 135(3), 420-430, 2009.
  • Adam, D., Markiewicz, R., Donau City Tower 1 – Deep Foundation, Excavation and Dewaterings Cheme for the 220 M Tall High-Rise Building in Vienna,Vplyv vody na geotechnic konštrukcie, Bratislava, 25(12), 2013.
  • Tschuchnigg, F., Schweiger, H. F., Comparison of Deep Foundation Systems using 3D Finite Element Analysis Employing Different Modeling Techniques, Geotechnical Engineering Journal of the SEAGS & AGSSEA, 44(3), 40-46, 2013.
  • Tschuchnigg, F., Schweiger, H. F., Study of a Complex Deep Foundation System Using 3D Finite Element Analysis, Numerical Methods in Geotechnical Engineering (NUMGE 2010), London, 2010.
  • Tschuchnigg, F., Schweiger, H. F., Comparison of Deep Foundation Systems Using 3D Finite Element Analysis, Proc. of IACMAG, Melbourne, Australia, 2011.
  • Algin, H. M., Optimised Design of Jet-Grouted Raft Using Response Surface Method, Computers and Geotechnics, 74, 56–73, 2016.
  • Algin, H. M., Optimised Design of Jet-Grouted Rafts Subjected to Nonuniform Vertical Loading, Korean Society of Civil Engineers (KSCE), 22(2), 494-508, 2017.
  • Algin, H. M., Gumus, V., 3D FE Analysis on Settlement of Footing Supported with Rammed Aggregate Pier Group, International Journal of Geomechanics, American Society of Civil Engineers (ASCE), 18(8), 1-18, 2018.
  • Matlab (2017). Matlab, version R2017a, MathWorks.
  • Abaqus (2012). Abaqus, version 6.12, Dassault Systèmes, USA.
  • Hamderi, M., Comprehensive Group Pile Settlement Formula Based on 3D Finite Element Analyses, Soils and Foundations , 58(1), 1-15, 2018.
  • BS-EN-1994-1. Eurocode 7. ,Geotechnical Design,, Brussels, Belgium: European Committee for Standardization, 2004.
  • Reul, O., Randolph, MF., Design Strategies for Piled Rafts Subjected to Nonuniform Vertical Loading, Journal of Geotechnical and Geoenvironmental Engineering, 130(1), 1–13, 2004.
Year 2019, Volume: 30 Issue: 5, 9443 - 9458, 01.09.2019
https://doi.org/10.18400/tekderg.399679

Abstract

References

  • Tamaro, G., Perimeter Wall for New World Center, J. Constr. Eng. Manage., 107(2), 193–207, 1981.
  • Ramaswamy, S. D., Pertusier, E. M., Construction of Barrettes for High-Rise Foundations, J. Constr. Eng. Manage., 112(4), 455–462, 1986.
  • Pratt, M., Sims, M. J., The Application of New Techniques to Solve Deep Basement and Foundation Problems, Int. Conf. on Deep Foundation Practice, Singapore, 1990.
  • Ann, T. S., Fellenius, B. H., Failure of a Barrette As Revealed in an O-cell Test, GeoCongress ASCE, Oakland, California, USA, 307-321, 2012.
  • Thasnanipan, N., Maung, A. W., Baskaran, G., Diaphragm Wall and Barrette Construction for Thiam Ruam Mit Station Box, MTR Chaloem Ratchamongkhon Line, Bangkok, Int. Conf. on Geotechnical and Geologic Engineering, GeoEng 2000, Melbourne, Australia, 2000.
  • Kienberger, H., Diaphragm Walls as Load Bearing Foundations, Diaphragm walls and anchorages, Institution of Civil Engineers, London, 19–21, 1975.
  • Baker, C. N., Azam, I., Joseph, L. S., Settlement Analysis for 450 Meter Tall KLCC Towers, In Vertical and Horizontal Deformations of Foundations and Embankments, ASCE, 1650-1671, 1994.
  • Martak, L., Mayerhofer, A.F., Tschuchnigg, F., Vorwagner, A., Bahnhof Wien Mitte – Ein zentrales Infrastrukturprojekt im Herzen Wiens, Proc. 23th Christian Veder Kolloquium, Graz, 2007.
  • Ng, C. W. W., Lei G. H., Performance of Long Rectangular Barrettes in Granitic Saprolites, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 129(8), 685-696, 2003.
  • Geotechnical Engineering Office (GEO)., Pile Design and Construction, GEO Publication No. 1/96, Civil Engineering Dept., Hong Kong Government, Hong Kong, 1996.
  • Powrie, W., E. S. F. Li., Finite Element Analyses of an In Situ Wall Propped at Formation Level, Geotechnique, 41(4), 499-514, 1991.
  • Gunn M. J., Satkunananthan, A., Clayton, C. R. I., Finite Element Modelling of Installation Effects, Retaining Structures, 46-55, 1993.
  • Moran, J., Laimbeer, A., Behaviour During Construction of a Cantilever Diaphragm Wall in Stiff Clay at Limehouse Link, TRL Project Report 73, Transport Research Laboratory of the Department of Transport, Crowthorne, Berkshire, UK, 1994.
  • Ng, C. W. W., An Evaluation of Soil-Structure Interaction Associated with a Multi-Propped Excavation, PhD thesis, University of Bristol, U.K., 1992.
  • Lings, M. L., Ng, C. W. W., Nash, D. F. T., The Lateral Pressure of Wet Concrete Diaphragm Wall Panels Cast Under Bentonite, Proc. Instn. Civ. Engrs, Geotech. Eng., 107(3), 163-172, 1994.
  • Ng, C. W. W., Yan, R. W. M., Stress Tranfer and Deformation Mechanisms Around A Diaphragm Wall Panel, J. Geotech. And Geoenviron. Engng., ASCE, 124(7), 638-648, 1998.
  • Ng, C. W. W., Yan R. W. M., Three-Dimensional Modelling of a Diaphram Wall Construction Sequance, Geotechnique, 49(6), 825-834, 1999.
  • Ng, C. W. W., Lings, M. L., Simpson B., Nash, D. F. T., An Approximate Analysis of the Three-Dimentional Effects of Diaphram Wall Installation, Geotechnique, 45(3), 497-507, 1995.
  • Gourvenec, S. M., Powrie, W.,Three-Dimentional Finite Element Analysis of Diaphragm Wall Installation, Geotechnique, 49(6), 801-823, 1999.
  • Fellenius, B. H., Altaee, A., Kulesza, R., Hayes, J., O-Cell Testing and FE Analysis of 28-m-Deep Barrette in Manila, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 125(7), 566-575, 1999.
  • Lei, G., Behaviour of Excavated Rectangular Piles (Barrettes) in Granitic Saprolites, PhD Thesis, Dept. of Civil Eng. Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, 2001.
  • Zhang, L. M., Behavior of Laterally Loaded Large-Section Barrettes, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 129(7), 639-648, 2003.
  • Seo, H., Basu, D., Prezzi, M., Salgado, R., Load-Settlement Response of Rectangular and Circular Piles in Multilayered Soil, Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 135(3), 420-430, 2009.
  • Adam, D., Markiewicz, R., Donau City Tower 1 – Deep Foundation, Excavation and Dewaterings Cheme for the 220 M Tall High-Rise Building in Vienna,Vplyv vody na geotechnic konštrukcie, Bratislava, 25(12), 2013.
  • Tschuchnigg, F., Schweiger, H. F., Comparison of Deep Foundation Systems using 3D Finite Element Analysis Employing Different Modeling Techniques, Geotechnical Engineering Journal of the SEAGS & AGSSEA, 44(3), 40-46, 2013.
  • Tschuchnigg, F., Schweiger, H. F., Study of a Complex Deep Foundation System Using 3D Finite Element Analysis, Numerical Methods in Geotechnical Engineering (NUMGE 2010), London, 2010.
  • Tschuchnigg, F., Schweiger, H. F., Comparison of Deep Foundation Systems Using 3D Finite Element Analysis, Proc. of IACMAG, Melbourne, Australia, 2011.
  • Algin, H. M., Optimised Design of Jet-Grouted Raft Using Response Surface Method, Computers and Geotechnics, 74, 56–73, 2016.
  • Algin, H. M., Optimised Design of Jet-Grouted Rafts Subjected to Nonuniform Vertical Loading, Korean Society of Civil Engineers (KSCE), 22(2), 494-508, 2017.
  • Algin, H. M., Gumus, V., 3D FE Analysis on Settlement of Footing Supported with Rammed Aggregate Pier Group, International Journal of Geomechanics, American Society of Civil Engineers (ASCE), 18(8), 1-18, 2018.
  • Matlab (2017). Matlab, version R2017a, MathWorks.
  • Abaqus (2012). Abaqus, version 6.12, Dassault Systèmes, USA.
  • Hamderi, M., Comprehensive Group Pile Settlement Formula Based on 3D Finite Element Analyses, Soils and Foundations , 58(1), 1-15, 2018.
  • BS-EN-1994-1. Eurocode 7. ,Geotechnical Design,, Brussels, Belgium: European Committee for Standardization, 2004.
  • Reul, O., Randolph, MF., Design Strategies for Piled Rafts Subjected to Nonuniform Vertical Loading, Journal of Geotechnical and Geoenvironmental Engineering, 130(1), 1–13, 2004.
There are 35 citations in total.

Details

Primary Language Turkish
Subjects Civil Engineering
Journal Section Articles
Authors

Halil Murat Alğın

Arda Burak Ekmen

Levent Yenmez This is me

Publication Date September 1, 2019
Submission Date February 28, 2018
Published in Issue Year 2019 Volume: 30 Issue: 5

Cite

APA Alğın, H. M., Ekmen, A. B., & Yenmez, L. (2019). Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi. Teknik Dergi, 30(5), 9443-9458. https://doi.org/10.18400/tekderg.399679
AMA Alğın HM, Ekmen AB, Yenmez L. Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi. Teknik Dergi. September 2019;30(5):9443-9458. doi:10.18400/tekderg.399679
Chicago Alğın, Halil Murat, Arda Burak Ekmen, and Levent Yenmez. “Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi”. Teknik Dergi 30, no. 5 (September 2019): 9443-58. https://doi.org/10.18400/tekderg.399679.
EndNote Alğın HM, Ekmen AB, Yenmez L (September 1, 2019) Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi. Teknik Dergi 30 5 9443–9458.
IEEE H. M. Alğın, A. B. Ekmen, and L. Yenmez, “Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi”, Teknik Dergi, vol. 30, no. 5, pp. 9443–9458, 2019, doi: 10.18400/tekderg.399679.
ISNAD Alğın, Halil Murat et al. “Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi”. Teknik Dergi 30/5 (September 2019), 9443-9458. https://doi.org/10.18400/tekderg.399679.
JAMA Alğın HM, Ekmen AB, Yenmez L. Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi. Teknik Dergi. 2019;30:9443–9458.
MLA Alğın, Halil Murat et al. “Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi”. Teknik Dergi, vol. 30, no. 5, 2019, pp. 9443-58, doi:10.18400/tekderg.399679.
Vancouver Alğın HM, Ekmen AB, Yenmez L. Baret Kazıklı Radye Temellerin Üç Boyutlu Sonlu Elemanlar Analizi. Teknik Dergi. 2019;30(5):9443-58.