EVALUATION OF TIME DEPENDENT PRESTRESS LOSSES IN PRETENSIONED CONCRETE MEMBER WITH TOP AND BOTTOM TENDONS

[1] Caro, L. A., Marti-Vargas, J. R., & Serna, P. (2013). Prestressed losses evaluation in prestressed concrete prismatic specimens. Engineering Structures, 48, 704–715. Caro L. A. Marti-Vargas J. R. , & Serna P. ( 2013 ). Prestressed losses evaluation in prestressed concrete prismatic specimens . Engineering Structures , 48 , 704 – 715 . 10.1016/j.engstruct.2012.11.038 Search in Google Scholar

[2] Chandoga, M., Halvonik, J., & Pritula, A. (2009). Time depending deformation of pre-post tensioned beams. Architecture Civil Engineering Environment, 2(4), 51–60. Chandoga M. Halvonik J. , & Pritula A. ( 2009 ). Time depending deformation of pre-post tensioned beams . Architecture Civil Engineering Environment , 2 ( 4 ), 51 – 60 . Search in Google Scholar

[3] Comite Euro-International du Beton (CEB), Federation Internationale de la Precontrainte (FIP) (1978). Model Code for Concrete Structures. Paris: CEB, 348 pp. Comite Euro-International du Beton (CEB), Federation Internationale de la Precontrainte (FIP) ( 1978 ). Model Code for Concrete Structures . Paris : CEB , 348 pp. Search in Google Scholar

[4] EN 1992-1-1 (2004). Eurocode 2: Design of concrete structures - Part 1-1: General rules and rules for buildings. Brussels: CEN. EN 1992-1-1 ( 2004 ). Eurocode 2: Design of concrete structures - Part 1-1: General rules and rules for buildings . Brussels : CEN . Search in Google Scholar

[5] Dyduch, K. (2015). Analiza opóźnionych strat sprężenia w konstrukcjach z betonu (Analysis of time-dependent prestress losses in concrete structures). In W. Derkowski, P. Gwoździewicz, M. Pańtak, W. Politalski, A. Seruga, & M. Surma (Eds.), Konferencja Naukowo-Techniczna KS2015 Konstrukcje Sprężone. Kraków. Dyduch K. ( 2015 ). Analiza opóźnionych strat sprężenia w konstrukcjach z betonu (Analysis of time-dependent prestress losses in concrete structures) . In W. Derkowski P. Gwoździewicz M. Pańtak W. Politalski A. Seruga , & M. Surma (Eds.), Konferencja Naukowo-Techniczna KS2015 Konstrukcje Sprężone . Kraków . Search in Google Scholar

[6] Bazant, Z. P. (1972). Prediction of Concrete Creep Effects Using Age-Adjusted Effective Modulus Method. ACI Journal, 69(4), 212–217. Bazant Z. P. ( 1972 ). Prediction of Concrete Creep Effects Using Age-Adjusted Effective Modulus Method . ACI Journal , 69 ( 4 ), 212 – 217 . Search in Google Scholar

[7] Dilger, W. H. (1982). Creep Analysis of Prestressed Concrete Structures Using Creep Transformed Section Properties. PCI Journal, 27(1), 89–117. Dilger W. H. ( 1982 ). Creep Analysis of Prestressed Concrete Structures Using Creep Transformed Section Properties . PCI Journal , 27 ( 1 ), 89 – 117 . 10.15554/pcij.01011982.98.119 Search in Google Scholar

[8] Ghali, A., Trevino, J. (1985). Relaxation of Steel in Prestressed Concrete. PCI Journal, 30(5), 82–94. Ghali A. Trevino J. ( 1985 ). Relaxation of Steel in Prestressed Concrete . PCI Journal , 30 ( 5 ), 82 – 94 . 10.15554/pcij.09011985.82.94 Search in Google Scholar

[9] EN 1990:2002+A1 (2005). Eurocode – Basis of structural design. Brussels: CEN. EN 1990:2002+A1 ( 2005 ). Eurocode – Basis of structural design . Brussels : CEN . Search in Google Scholar