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Gewichtsstaumauern: Literatur

Die folgende Liste enthält solche in Structurae katalogisierten Veröffentlichungen, die für diesen Bauwerkstyp relevant sind.

  1. . ().
  2. Linse, Diethelm (2010): 100 Years Intze Gravity Dams - Even Today Indispensable Infrastructure Facilities. Vorgetragen bei: IABSE Symposium, Large Structures and Infrastructures for Environmentally Constrained and Urbanised Areas, Venice, 22-24 September 2010, S. 654.
  3. Hu, Jiang / Ma, Fuheng / Wu, Suhua (2018): Anomaly identification of foundation uplift pressures of gravity dams based on DTW and LOF. In: Structural Control and Health Monitoring, v. 25, n. 5 (Mai 2018), S. e2153.

    https://doi.org/10.1002/stc.2153

  4. Batta, V. / Pekau, O. A. (1996): Application Of Boundary Element Analysis For Multiple Seismic Cracking In Concrete Gravity Dams. In: Earthquake Engineering and Structural Dynamics, v. 25, n. 1 (Januar 1996), S. 15-30.

    https://doi.org/10.1002/(sici)1096-9845(199601)25:1<15::aid-eqe533>3.0.co;2-o

  5. Ghrib, Faouzi / Tinawi, René (1995): An application of damage mechanics for seismic analysis of concrete gravity dams. In: Earthquake Engineering and Structural Dynamics, v. 24, n. 2 (Februar 1995), S. 157-173.

    https://doi.org/10.1002/eqe.4290240203

  6. Bhattacharjee, Sudip S. / Léger, Pierre (1994): Application of NLFM Models to Predict Cracking in Concrete Gravity Dams. In: Journal of Structural Engineering (ASCE), v. 120, n. 4 (April 1994), S. 1255-1271.

    https://doi.org/10.1061/(asce)0733-9445(1994)120:4(1255)

  7. Zhao, Chongbin / Steven, G. P. (1996): Asymptotic formulae for correcting finite element predicted natural frequencies of gravity and embankment dams. In: Soil Dynamics and Earthquake Engineering, v. 15, n. 3 (April 1996), S. 161-169.

    https://doi.org/10.1016/0267-7261(95)00043-7

  8. Taner, N. (1949): Barrage poids de Porsouk, en Turquie. In: Travaux, n. 181 (November 1949), S. 651.
  9. Donnaes, Philippe (2007): Barrage-poids en béton compacté. In: Le Moniteur des Travaux Publics et du Bâtiment, n. 5420 (12 Oktober 2007), S. 76-77.
  10. Herzog, M. (1979): Beanspruchung von Gewichtsstaumauern durch Erdbeben. In: Bautechnik, v. 56, n. 10 (Oktober 1979), S. 352-354.
  11. Sauer, Katharina / Görtz, Jan / Terheiden, Kristina (2017): Bestimmung der Erdbebensicherheit von Gewichtsstaumauern: Ansätze im Vergleich. In: Wasserwirtschaft, v. 107, n. 4 (April 2017), S. 48-52.

    https://doi.org/10.1007/s35147-017-0031-6

  12. Humar, J. L. / Jablonski, A. M. (1988): Boundary element reservoir model for seismic analysis of gravity dams. In: Earthquake Engineering and Structural Dynamics, v. 16, n. 8 (November 1988), S. 1129-1156.

    https://doi.org/10.1002/eqe.4290160804

  13. Oudinot, M. / Tetu, A. / Bourgois, G. / Vassiliadis, Georges / Theret, B. (1991): Bretagne: le barrage-poids de Bois-Joli (Ille-et-Vilaine). In: Travaux, n. 665 (Mai 1991), S. 27-31.
  14. Morales-Torres, Adrián / Escuder-Bueno, Ignacio / Altarejos-García, Luis / Serrano-Lombillo, Armando (2016): Building fragility curves of sliding failure of concrete gravity dams integrating natural and epistemic uncertainties. In: Engineering Structures, v. 125 (Oktober 2016), S. 227-235.

    https://doi.org/10.1016/j.engstruct.2016.07.006

  15. Ansari, Md. Imteyaz / Agarwal, Pankaj (2015): Categorization of Damage Index of Concrete Gravity Dam for the Health Monitoring after Earthquake. In: Journal of Earthquake Engineering, v. 20, n. 8 (Oktober 2015), S. 1222-1238.

    https://doi.org/10.1080/13632469.2016.1138167

  16. Plizzari, Giovanni / Waggoner, Fletcher / Saouma, Victor E. (1995): Centrifuge Modeling and Analysis of Concrete Gravity Dams. In: Journal of Structural Engineering (ASCE), v. 121, n. 10 (Oktober 1995), S. 1471-1479.

    https://doi.org/10.1061/(asce)0733-9445(1995)121:10(1471)

  17. Bolzon, Gabriella (2010): Collapse mechanisms at the foundation interface of geometrically similar concrete gravity dams. In: Engineering Structures, v. 32, n. 5 (Mai 2010), S. 1304-1311.

    https://doi.org/10.1016/j.engstruct.2010.01.008

  18. Cheng, Lin / Tong, Fei / Li, Yanlong / Yang, Jie / Zheng, Dongjian: Comparative Study of the Dynamic Back-Analysis Methods of Concrete Gravity Dams Based on Multivariate Machine Learning Models. In: Journal of Earthquake Engineering, S. 1-22.

    https://doi.org/10.1080/13632469.2018.1452802

  19. Wang, Gaohui / Zhang, Sherong / Kong, Yuan / Li, Hongbi (2015): Comparative Study of the Dynamic Response of Concrete Gravity Dams Subjected to Underwater and Air Explosions. In: Journal of Performance of Constructed Facilities (ASCE), v. 29, n. 4 (August 2015), S. 04014092.

    https://doi.org/10.1061/(asce)cf.1943-5509.0000589

  20. Rampure, Aarti Baburao / Mangulkar, Madhuri Nilesh (2016): Comparison between Response Spectrum and Time History Method of Dynamic Analysis of Concrete Gravity Dam. In: Open Journal of Civil Engineering, v. 6, n. 3 ( 2016), S. 329-334.

    https://doi.org/10.4236/ojce.2016.63027

  21. Hu, Jiang / Ma, Fuheng (2016): Comprehensive Investigation Method for Sudden Increases of Uplift Pressures beneath Gravity Dams: Case Study. In: Journal of Performance of Constructed Facilities (ASCE), v. 30, n. 5 (Oktober 2016), S. 04016023.

    https://doi.org/10.1061/(asce)cf.1943-5509.0000874

  22. Hu, Jiang / Ma, Fuheng / Wu, Suhua (2018): Comprehensive investigation of leakage problems for concrete gravity dams with penetrating cracks based on detection and monitoring data: A case study. In: Structural Control and Health Monitoring, v. 25, n. 4 (April 2018), S. e2127.

    https://doi.org/10.1002/stc.2127

  23. Bhattacharjee, Sudip S. / Léger, Pierre (1992): Concrete constitutive models for nonlinear seismic analysis of gravity dams — state-of-the-art. In: Canadian Journal of Civil Engineering / Revue canadienne de génie civil, v. 19, n. 3 (Juni 1992), S. 492-509.

    https://doi.org/10.1139/l92-059

  24. Sevieri, Giacomo / Andreini, Marco / De Falco, Anna / Matthies, Hermann G. (2019): Concrete gravity dams model parameters updating using static measurements. In: Engineering Structures, v. 196 (Oktober 2019), S. 109231.

    https://doi.org/10.1016/j.engstruct.2019.05.072

  25. Embaby, Rana A. / Abdelrahman, Amr A. / Sayed-Ahmed, Ezzeldin Y. (2014): Concrete Gravity Dams: Coupled Thermal-Stress Numerical Analysis. Vorgetragen bei: Engineering for Progress, Nature and People, IABSE Symposium, 3-5 September 2014, Madrid, Spain, S. 467-474.

    https://doi.org/10.2749/222137814814028052

  26. Calayır, Yusuf / Karaton, Muhammet (2005): A continuum damage concrete model for earthquake analysis of concrete gravity dam–reservoir systems. In: Soil Dynamics and Earthquake Engineering, v. 25, n. 11 (Dezember 2005), S. 857-869.

    https://doi.org/10.1016/j.soildyn.2005.05.003

  27. Wang, Gaohui / Zhang, Sherong / Zhou, Chuangbing / Lu, Wenbo (2015): Correlation between strong motion durations and damage measures of concrete gravity dams. In: Soil Dynamics and Earthquake Engineering, v. 69 (Februar 2015), S. 148-162.

    https://doi.org/10.1016/j.soildyn.2014.11.001

  28. Burman, A. / Nayak, Parsuram / Agrawal, P. / Maity, Damodar (2012): Coupled gravity dam–foundation analysis using a simplified direct method of soil–structure interaction. In: Soil Dynamics and Earthquake Engineering, v. 34 (März 2012), S. 62-68.

    https://doi.org/10.1016/j.soildyn.2011.10.008

  29. Nath, B. (1971): Coupled Hydrodynamic Response of a Gravity Dam. In: Proceedings of the Institution of Civil Engineers, v. 48, n. 2 (Februar 1971), S. 245-257.

    https://doi.org/10.1680/iicep.1971.6462

  30. Saini, S. S. / Bettess, P. / Zienkiewicz, O. C. (1978): Coupled hydrodynamic response of concrete gravity dams using finite and infinite elements. In: Earthquake Engineering and Structural Dynamics, v. 6, n. 4 (Juli 1978), S. 363-374.

    https://doi.org/10.1002/eqe.4290060404