Investigation of Fatigue Damage in General, Prestress, and Concrete Beam Reinforced with FRP Sheets and Concrete Beam Influenced By Mix Beam Under Periodic Load in Linear and Nonlinear Phase

Abdelatif, A. O., Owen, J. S., & Hussein, M. F. (2015). Modelling the prestress transfer in pre-tensioned concrete elements. Finite Elements in Analysis and Design, 94, 47-63.10.1016/j.finel.2014.09.007Search in Google Scholar

Alampalli, S. & Lund, R., 2010. Estimating Fatigue Life of Bridge Components Using Measured Strains. Journal of Bridge Engineering, 11(6), pp. 725–736.10.1061/(ASCE)1084-0702(2006)11:6(725)Search in Google Scholar

Balaguru, P., Nanni, A. & Giancaspro, J., 2014. FRP composites for reinforced and prestressed concrete structures: A guide to fundamentals and design for repair and retrofit. CRC Press.Search in Google Scholar

Bu, Z. Y., Ou, Y. C., Song, J. W., Zhang, N. S., & Lee, G. C. (2015). Cyclic loading test of unbonded and bonded posttensioned precast segmental bridge columns with circular section. Journal of Bridge Engineering, 21(2), 04015043.10.1061/(ASCE)BE.1943-5592.0000807Search in Google Scholar

Dai, L., Wang, L., Zhang, J., & Zhang, X., 2016. A global model for corrosion-induced cracking in prestressed concrete structures. Engineering Failure Analysis, 62, 263-275.10.1016/j.engfailanal.2016.01.013Search in Google Scholar

Dewit, N. (2012). A Composite Structural Steel and Prestressed Concrete Beam for Building Floor Systems.Search in Google Scholar

Di Ludovico, M., Nanni, A., Prota, A., & Cosenza, E., 2005. Repair of bridge girders with composites: Experimental and analytical validation. ACI Structural Journal, 102(5), p. 639.10.14359/14659Search in Google Scholar

Huang, L., Xu, L., Chi, Y., & Xu, H., 2015. Experimental investigation on the seismic performance of steel–polypropylene hybrid fiber reinforced concrete columns. Construction and Building Materials, 87, 16-27.10.1016/j.conbuildmat.2015.03.073Search in Google Scholar

Li, C., Hao, H., Zhang, X., & Bi, K., 2018. Experimental study of precast segmental columns with unbonded tendons under cyclic loading. Advances in Structural Engineering, 21(3), 319-334.10.1177/1369433217717119Search in Google Scholar

Maes, M. A., Wei, X., & Dilger, W. H., 2001. Fatigue reliability of deteriorating prestressed concrete bridges due to stress corrosion cracking. Canadian Journal of Civil Engineering, 28(4), pp. 673-683.10.1139/l01-031Search in Google Scholar

Martí, J. V., Yepes, V., & González-Vidosa, F., 2014. Memetic algorithm approach to designing precast-prestressed concrete road bridges with steel fiber reinforcement. Journal of Structural Engineering, 141(2), 04014114.10.1061/(ASCE)ST.1943-541X.0001058Search in Google Scholar

Nardone, F., Di Ludovico, M., y Basalo, F. J. D. C., Prota, A., & Nanni, A., 2012. Tensile behavior of epoxy based FRP composites under extreme service conditions. Composites Part B: Engineering, 43(3), pp. 1468-1474.10.1016/j.compositesb.2011.08.042Search in Google Scholar

Wada, A., Sakata, H., Nakano, K., Matsuzaki, Y., Tanabe, K., & Machida, S., 2006. Study on Damage Controlled Precast-Prestressed Concrete Structure with P/C MILD-PRESSJOINT–Part 1: Overview of P/C Mild-Press-Joint Building Construction and its Practical Applications. In Proceedings of the 2nd FIB Congress (Vol. 400).Search in Google Scholar

Wolanski, A. J., 2004. Flexural behavior of reinforced and prestressed concrete beams using finite element analysis (Doctoral dissertation), marquette university, milwaukee, Wisconsin.Search in Google Scholar

Zia, P., Kowalsky, M. J., Ellen, G. C., & Longo, S. E., 2002. Fatigue performance of large-sized long-span prestressed concrete girders impaired by transverse cracks (No. FHWA/NC/2002-24).Search in Google Scholar