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Effect of Recovered Fibers on the Behavior of Concrete in Tension

Djamal Atlaoui
Djamal Atlaoui
, 
Arezki Adjrad
Arezki Adjrad
 e 
Youcef Bouafia
Youcef Bouafia
   | 27 dic 2023
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Pubblicato online: 27 dic 2023
Pagine: 26 - 33
DOI: https://doi.org/10.2478/sjce-2023-0024
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© 2023 Djamal Atlaoui et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

Abdallah, S. - Fan, M. - Zhou, X. (2017) Pull-out behaviour of hooked end steel fibers embedded in ultra-high performance mor-tar with various W/B ratios. International Journal of Concrete Structures and Materials, 11: 301–313. Search in Google Scholar

Abdallah, S. - Fan, M. – Zhou, X. – Geyt, S. (2016) Anchorage effects of various steel fibre architectures for concrete reinforcement. International Journal of Concrete Structures and Materials, 10: 325–335. Search in Google Scholar

Abdallah, S. - Fan, M. - Rees, D. W. (2018a) Bonding mechanisms and strength of steel fiber-reinforced cementitious composites: Overview. Journal of Materials in Civil Engineering, 30(3), 04018001. Search in Google Scholar

Abdallah, S. - Rees, D. W. - Ghaffar, S. H. - Fan, M. (2018b) Understanding the effects of hooked-end steel fibre geometry on the uniaxial tensile behavior of self-compacting concrete. Construction and Building Materials, 178, 484–494. Search in Google Scholar

Adjrad, A. - Bouafia, Y. - Kachi, M. - Ghazi, F. (2016) Prediction of the Rupture of Circular Sections of Reinforced Concrete and Fiber Reinforced Concrete. International Journal of Concrete Structures and Materials, 10, 373–381. Search in Google Scholar

Atlaoui, D. - Bouafia, Y. (2008) Characterization of the metal behavior of fibers undulated in spirals resulting from waste of machining of steel parts. Second Euro Mediterranean Symposium on Advances in Geomaterials and Structures (AGS’08), Éditions Sciences et Technologie, Yasmine Hammamet, Tunisia, pp. 741-746. Search in Google Scholar

Barragán, B. (2022) Failure and toughness of steel fibre reinforced concrete under tension and shear. PhD thesis, Universitat Politecnica de Catalunya, Spain. Search in Google Scholar

Bouafia, Y. - Kachi, M.S. - Fouré, B. (2002) Relation contraintedéformation en traction du béton armé de fibres d’acier, Stress-strain relationship in tension of steel fiber-reinforced concrete. Annales de l’Institut Technique du bâtiment et des Travaux Publics, n°3, 5-7. Search in Google Scholar

Bouafia,Y. - Fouré, B. - Kachi, M .S. (1998) Relation effort- ouverture des fissures dans le cas du béton armé de fibres d’acier, Force-crack opening relationship in the case of steel fiber-reinforced concrete. Annales de l’Institut Technique du bâtiment et des Travaux Publics, n°2. Search in Google Scholar

Bouafia, Y. - Adjrad, A. (1997) Utilisation des fibres locales pour renforcement du béton, Use of local fibers for concrete reinforcement. Séminaire national de génie civil, M’sila (Algérie). Search in Google Scholar

Casanova, P. – Rossi, P. (1996) Analysis of metallic fibre-reinforced concrete beams submitted to bending. Materials and Structures, 29, pp. 354-361. Search in Google Scholar

Chanvillard, G. (1993) Experimental analysis and micromechanical modeling of the behavior of corrugated steel fibers, anchored in a cement matrix. Studies and research of laboratories of bridges and pavements-series, Ouvrages D’Art (OA12). Search in Google Scholar

Das, S. – Sobuz, Md.H.R. – Tam, V. W.Y. – Akid,A.S.M. – Sutan, N.M. – Rahman, F.M. (2020) Effects of incorporating hybrid fibres on rheological and mechanical properties of fiber-reinforced concrete. Construction and Building Materials, Volume 262-120561. Search in Google Scholar

Deng, F. – Ding, X. – Chi,Y. – Xu, L. – Wang, L. (2018) The pull-out behavior of straight and hooked-end steel fiber from hybrid fiber reinforced cementitious composite: Experimental study and analytical modelling. Composite Structures, 206: 693–712. Search in Google Scholar

Ding, Y. – Liu, H. – Femando, T. – Jalali, S. (2011) Experimental investigation on the mechanical of the fibre reinforced high-performance concrete tunnel segment, Compos Struct, 93(4): 128-144. Search in Google Scholar

Djebali, S. – Bouafia, Y. – Atlaoui, D. – Bilek, A. (2011) Study of Mechanical Behavior of Chips Reinforced Concrete. In : Advanced Material Research. Trans Tech Publ. Search in Google Scholar

Dreux, G. – Festa, J. (1998) Nouveau guide du béton et de ses constituants. Huitième édition 1998, Troisième tirage 2007. New guide to concrete and its constituents. 8th ed. 1998, 3rd printing 2007, Eyrolles, France. Search in Google Scholar

Eurocode 2. (1992) Calcul des structures en béton Partie 1-1 : règles générales et règles pour les bâtiments. Design of concrete structures Part 1-1: General rules and rules for buildings. ENV 1992-1-1, NF18711. Search in Google Scholar

Gali, S. – Subramaniam, K V. L. (2017) Evaluation of Crack Propagation and Post-Cracking Hinge-type Behavior in the Flexural Response of Steel Fiber Reinforced Concrete. International journal of Concrete Structures and Materials, Vol.11, No.2, pp. 365–375. Search in Google Scholar

Johnston, C.D. (1996) Proportioning, mixing and placement of fibre-reinforced cements and concretes, Production Methods and Workability of Concrete. Proceedings of the international RILEM conference, edited by Bartos, Marrs and Cleland, E&FN Spon, London, 155-179. Search in Google Scholar

Isla, F. – Ruano, G. – Luccioni, B. (2015) Analysis of steel fibers pull-out. Experimental study. Construction: 183 and Building Materials, 100–193. Search in Google Scholar

Kawamata, A. – Mihashi, H. – Fukuyama, H. (2003) Properties of Hybrid Fibre Reinforced Cement-based Composites. Journal of Advanced Concrete Technology, vol.1, No.3: 283-290. Search in Google Scholar

Li, H. – Liu, G. (2016) Tensile properties of hybrid fiber-reinforced reactive powder concrete after exposure to elevated temperatures. International Journal of Concrete Structures and Materials, 10: 29–37. Search in Google Scholar

Lim, T.Y. – Paramassivam, P. - Lee, S.L. (1987) Analytical model for tensile July – August. Behaviour of steel – fiber concrete, ACI Materials Journal, No 84, pp. 286 – 289. Search in Google Scholar

Markovic, I. - Walraven, J.C. - Van Mier, J.G.M. (2003) Self-compacting hybrid-fibre concrete-mix design. Workability and mechanical properties, 3rd International Symposium on Self- Compacting Concrete Reykjavik, Iceland. Search in Google Scholar

Mobasher, B. – Shah, S.P. (1990) Interaction between fibers and the matrix in glass fiber reinforced concrete, Thin-Section Fiber Reinforced Concrete and Ferrocement, Am. Concr. Inst., SP 124, American Concrete Institute, Detroit, MI, pp: 137–156. Search in Google Scholar

Noghabai, K. (2000) Beams of fibrous concrete in shear and bending experimental and Model. J Struct ENG-ASCE, 126(2): 243–510. Search in Google Scholar

Rossi, P. – Harouche, N. – Belloc, A. (1989) Méthode de composition du béton de fibres métalliques, Metal fiber concrete composi-tion method. Annales de l’I.T.B.T.P n0 475. Search in Google Scholar

Tadepalli, P. R. - Mo, Y. - Hsu, T. T. (2013) Mechanical properties of steel fibre concrete. Magazine of Concrete Research, 65(8), 462–474. Search in Google Scholar

Tadepalli, P. – Dhonde, H.B. – Mo, Y.L. – Thomas Hsu, T.C. (2015) Shear Strength of Prestressed Steel Fiber Concrete I-Beams, International Journal of Concrete Structures and Materials, 9(3),267–28. Search in Google Scholar

Soroushian, P. – Khan, A. – Hsu, J.W. (1992) Mechanical properties of concrete materials reinforced with polypropylene or poly-ethylene fibers, ACI Mater. J, 89 (2): 535– 540. Search in Google Scholar

Sukontasukkul, P. (2004) Toughness evaluation of steel and polypropylene fibre reinforced concrete beams under bending. Thammasat International Journal of Science and Technology, 35-41. Search in Google Scholar

Wu, Yao. - Jie, Li. - Keru, Wu. (2003) Mechanical properties of hybrid reinforced- fiber concrete at low fiber volume fraction. Cement and Concrete Research, 33: 27-30. Search in Google Scholar

Zendaoui, A. - Kadid, A. – Yahiaoui, D. (2016) Comparison of different numerical models of RC elements for predicting the seismic performance of structures. International Journal of Concrete Structures and Materials, 10(4), 461–478. Search in Google Scholar

Zia, A. – Ali, M. (2018) Effectiveness of Polypropylene Fiber-Reinforced Concrete in Enhancement of Long-Term Durability of Hydraulic Structures, Materials Science Forum, Vol. 923, pp. 125-129, doi:10.4028/www.scientific.net/MSF.923.125.2. Search in Google Scholar

Zia, A. – Zhang, P. – Holly, I. (2023a) Experimental investigation of raw steel fibers derived from waste tires for sustainable concrete, Construction and Building Materials, 368 - 130410. Search in Google Scholar

Zia, A. – Zhang, P. – Holly, I. (2023b) Effectiveness of hybrid discarded tire/Industrial steel fibers for improving the sustainability of concrete structures. Construction and Building Materials, 378–131226. Search in Google Scholar

Zhan, Z. (1991) Contribution au dimensionnent des pieux en béton de fibres. Thèse de Doctorat, Contribution to the design of fiber concrete piles. Doctoral thesis Université d’Orléans. Search in Google Scholar

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