Analysis of Prestressing in Precast Prestressed Concrete Beams

[1] VIČAN, J. – GOCÁL, J. – MELIŠ, B. – KOTEŠ, P. – KOTULA, P.: Real Behaviour and Remaining Lifetime of Bridge Structures. Communications - Scientific Letters of the University of Zilina, 10 (2), 2008, pp. 30-37, Retrieved from, http://komunikacie.uniza.sk/index.php/communications/article/view/1042.10.26552/com.C.2008.2.30-37 Search in Google Scholar

[2] KOTEŠ, P. – VIČAN, J. – NIKOLIČ, R.: Evaluation of Elder and Historical Bridges. 9^th International Conference Bridges in Danube Basin 2016, BDB 2016, Procedia Engineering, Vol. 156, 2016, pp. 186-190, https://doi.org/10.1016/j.proeng.2016.08.285.10.1016/j.proeng.2016.08.285 Search in Google Scholar

[3] BUJŇÁKOVÁ, P.: Anchorage System in Old Post-tensioned Precast Bridges. Civil Environ. Eng. Vol. 16, Iss. 2, 2020, pp. 379–387, doi:10.2478/cee-2020-0038.10.2478/cee-2020-0038 Search in Google Scholar

[4] KOTEŠ, P. – VIČAN, J.: Recommended Reliability Levels for the Evaluation of Existing Bridges According to Eurocodes. Structural Engineering International, Vol. 23, Iss. 4, 2013, pp. 411-417, https://doi.org/10.2749/101686613X13627351081678.10.2749/101686613X13627351081678 Search in Google Scholar

[5] GOCÁL, J. – ODROBIŇÁK, J.: On the Influence of Corrosion on the Load-Carrying Capacity of Old Riveted Bridges. Materials, 2020, 13, 717, https://doi.org/10.3390/ma13030717.10.3390/ma13030717 Search in Google Scholar

[6] BAGGE, N. – NILIMAA, J. – BLANKSVÄRD, T. – ELFGREN L.: Instrumentation and Full-Scale Test of a Post-Tensioned Concrete Bridge. Nordic Concrete Research, 2014, 51, pp. 63-83. Search in Google Scholar

[7] BAGGE, N. – NILIMAA, J. – ELFGREN, L.: In-situ Methods to Determine Residual Prestress Forces in Concrete Bridges. Engineering Structures, 2017.10.1016/j.engstruct.2016.12.059 Search in Google Scholar

[8] FIB, Comité Euro – International du Béton: Strategies for Testing and Assessment of Concrete Structures. Guidance Report. fib Bulletin, No. 243, May 1998. Search in Google Scholar

[9] CIOLKO, A. – TABATABAI, H.: Nondestructive Methods for Condition Evaluation of Prestressing Steel Strands in Concrete Bridges. Structures Congress 2010. NCHRP Web Document 23, Project 10-53, 1999. Search in Google Scholar

[10] HURST, M. K.: Prestressed Concrete Design. Second Edition. E & FN SPON, An Imprint of Routledge London and New York, 1998. Search in Google Scholar

[11] MORAVČÍK, M. – BAHLEDA, F. – JOŠT, J.: Application of Indirect Methods for Determining State of Prestressing in the Structure (in Slovak). Proceedings of the Conference: Concrete Days 2018, November 8-9, 2018. Search in Google Scholar

[12] ČERVENKA, V. – JENDELE, L. – ČERVENKA, J.: ATENA Program Documentation – Part 1. Theory. Prague, January 26, 2018, https://www.cervenka.cz/assets/files/atena-pdf/ATENA_Theory.pdf. Search in Google Scholar

[13] ČERVENKA, V. – ČERVENKA, J.: ATENA Program Documentation – Part 2-1. User’s Manual for ATENA 2D. Prague, May 2015, https://www.cervenka.cz/assets/files/atena-pdf/ATENA-Engineering-2D_Users_manual.pdf. Search in Google Scholar

[14] ČERVENKA, J.: ATENA Program Documentation – Part 4-1. Tutorial for Program ATENA 2D. Prague, June 2, 2015, https://www.cervenka.cz/assets/files/atena-pdf/ATENA-Engineering-2D_Tutorial.pdf. Search in Google Scholar

[15] JANDA, Z. – ČERVENKA, J.: ATENA Program Documentation – Part 4-3. Tutorial for Construction Process Modelling in ATENA 2D. Prague, March 9, 2009, https://www.cervenka.cz/assets/files/atena-pdf/ATENA-Engineering-2D_Tutorial_Construction_Process.pdf. Search in Google Scholar