INCREASING THE STRENGTH OF TEXTILE-REINFORCED CONCRETE WITH DURABILITY
DOI:
https://doi.org/10.30890/2567-5273.2024-34-00-009Keywords:
concrete, textile reinforcement, strength, surfactants, river sand, ironAbstract
High-strength and high-modulus fibers and threads, such as glass, basalt, carbon and others, in combination with a cement matrix form a new class of structural building materials, the so-called textile-reinforced concrete. Currently, concrete reinforced wMetrics
References
Bambura А., Pavlykov А., Кolchunov В., Коchkarev Д., Yakovenko І. Practical manual for the calculation of reinforced concrete structures according to the current norms of Ukraine (DBN V.2.6-98:2009) and new deformation models developed to replace them. – 2017. – 212 [in Ukrainian]
Storoshenko L. Ermolenko Д., Nishnik О., Мurza С. Steel frames of high-rise buildings. – 2017. – 279. [in Ukrainian]
Byriukovych K. L., Byriukovych Yu. L., Byriukovych D. L. Steklotsement v stroytelstve. – 1986. – 96 с.
Hegger J., Voss S. Design methods for textile reinforced concrete under bending and shear loading. Proceedings of the 2nd International FIB Congress. Neapol. –2006. – p. 1–12.
Lonho F., Kaskardy A., Lassandro. Р., Aiello M. New composite reinforced mortar for structural and energy retrofit of masonry panels. Key Engineering Materials. – 2022. – 916. – 377–384. https://doi.org/10.4028/p-69y10f
Nobyly A., Falope F. Impregnated Carbon Fabric Reinforced Cement Matrix Composite for the Rehabilitation of Emilia Hospital Roofs: A Case Study. J Compos Constr. – 2017. – 21(4). – 05017001. https://doi.org/10.1061/(ASCE)CC.1943-5614.0000780
Vakdzhyra T., Эbyd U. Experimental and analytical study on strengthening of reinforced concrete T-beams under shear using steel-reinforced mortar (СРГ). Compos Part B Eng. – 2019. – 177:107368. https://doi.org/10.1016/j.compositesb.2019.107368
Voss S., Hegger J. Dimensioning of textile reinforced concrete structures. 1st International Conference Textile Reinforced Concrete (ICTRC). – 2006. – p. 1–10.
Voss S. Design methods for textile reinforced concrete. 6th International PhD Symposium in Civil Engineering. – 2006. – p. 1–8.
Peled A., Cohen Z., Pasder Y., Roye A., Gries T. Influences of textile characteristics on the tensile properties of warp knitted cement based composites. Cement & Concrete Composites. – 2008. – 30. – p. 174–183.
Keil A., Raupach M. Improvement of the Load-Bearing Capacity of Textile Reinforced Concrete by the Use of Polymers. 12th International Congress on Polymers in Concrete. – 2007. – p. 873–881.
Holler S., Butenweg C., Noh S.-Y., Meskouris K. Computational model of textile-reinforced concrete structures. Computers and Structures. – 2004. – 82. – p. 1971–1979.
Reinhardt H.W., Kruger M., Grosse C.U. Concrete Prestressed with Textile Fabric. Journal of Advanced Concrete Technology. – 2003. – Vol. 1. – 2. – p. 231–239.
Shishkina A., Shishkin A. Study of the effect of micellar catalysis on the strength of alkaline reactive powder concrete. Eastern-European Journal of Enteprise Technologies. – 2018. – 3/6 (93). – р. 46-51.
Shyshkin A. Increasing the Speed of Formation of the Structure of Fine-Grained Concrete and its Strength. Key Engineering Materials. – 2023.Vol. – 953. – р. 69-74 https://doi.org/10.4028/p-itX1Lu
Shishkina A. Optimization of Water Activation Technology for the Production of Fine-Grained Concrete. Key Engineering Materials. – 2023. – Vol. – 953. – p. 63-68
Shishkina A., Piskun I. Formation of the strength of fine-grained concrete based on modified slag portland cement. Eastern-European Journal of Enterprise Technologies. – 2024. – 5(6 (125). – 74–81. https://doi.org/10.15587/1729-4061.2023.289929
Shyshkin A. Study of the effect of compounds of transition elements on micellar catalysis of the formation of the strength of reactive powder concrete. Eastern-European Journal of Enterprise Technologies. – 2016. – 2/6 (80). – 60-65. doi: https://doi.org/10.15587/1729-4061.2016.63957 [in Ukrainian]
Shyshkin A., Еddyn Hаlyd Reactive powder concretes on mixed aggregate. Modern technologies and calculation methods in construction. – 2017. – 8. – 277-285 [in Ukrainian]
Shyshkina A. Study of change in the deformation-strength properties of nanomodified fine-grained concretes over time. Eastern-European Journal of Enterprise Technologies. – 2017. – 3/6 (87). – 50-54
Shyshkina A. Mitseliarnyi kataliz v tekhnolohii betoniv novoho pokolinnia. Kryvyi Rih. 2016. 300 с. [in Ukrainian]
Bezusiak O., Filipchuk S. Concrete deformation diagrams of the new generation tensile bending and their mechanicalcharacteristics. Bulletin National University of Water and Environmental Engineering. – 45-55.
Bordiuzhenko O., Dvorkin L. Reactive powder concrete with dispersed steel mesh reinforcement. Bulletin National University of Water and Environmental Engineering. – 90-97
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