References
- Achour, T., Lecomte, A., Ben Ouezdou, M., & Mensi, R. (2007). Tensile strength and elastic modulus of calcareous concrete: application to Tunisians mixtures. Materials and Structures, 41(8), 1427-1439. https://doi.org/10.1617/s11527-007-9340-z
- ACI Committee 363. (1992). State of the art report on high strength concrete (ACI 363R-92). American Concrete Institute.
- AFNOR. (2006). Chaussées en Béton de Ciment (NF P 421 98-170).
- AFNOR. (2012). Ciment-Partie 1: composition, spécification et critères de conformité des ciments courants (NF EN 197-1).
- AFNOR (2012). Essai pour Béton Durci-Partie 3: Résistance à la Compression d’Eprouvettes (NF EN 12390-3).
- AFNOR (2012). Essai pour Béton Durci-Partie 6: Résistance en Traction par Fendage d’Eprouvettes (NF EN 12390-6 2012).
- AFNOR (2005). Eurocode 2-Calcul des structures en béton-Partie 1-1: règles générales et règles pour les bâtiments (NF EN 1992-1-1). France.
- BAEL (1999). Règles Techniques de Conception et de Calcul des Ouvrages et Construction en Béton Armé Suivant la Méthode des Etats Limites BAEL.
- Boussetta, I., EL Euch Khay, S., & Neji, J. (2020). Experimental testing and modelling of roller compacted concrete incorporating RAP waste as aggregates. European Journal of Environmental and Civil Engineering, 24(11), 1729–1743. https://doi.org/10.1080/19648189.2018.1482792
- CEB-FIP. (1978). Model code for concrete structures. (3rd ed.). European Committee of Concrete.
- de Larrard, F. (1999). Concrete mixture proportioning - A scientific approach. Modern concrete technology, 9, S. Mindess & A. Bentur, (Eds.), E & FN Spon.
- de Larrard, F., & Tondat, P. (1993). Sur la contribution de la topologie du squelette granulaire à la résistance en compression du béton. Materials and Structures, 26(9), 505–516. https://doi.org/10.1007/BF02472861
- de Larrard, F., & Sedran, T. (2000). Manuel d’utilisation de RENE-LCPC version 6.1d, logiciel d’optimisation granulaire. Note technique des Laboratoires des Ponts et Chaussées.
- de Larrard, F., Torrenti, J. M., & Rossi, P. (1988). Le flambement à deux échelles de la rupture du béton en compression. Bulletin de Liaison du Laboratoire des Ponts et Chaussées.
- Donza, H., Cabrera, O., & Irassar, E. F. (2002). High-strength concrete with different fine aggregate. Cement and Concrete Research, 32(11), 1755–1761. https://doi.org/10.1016/S0008-8846(02)00860-8
- Dreux, G., & Festa, J. (1998). Nouveau guide du béton et ses constituants. (8th ed.). Eyrolles.
- El Euch Ben Said, S., El Euch Khay, S., Achour, T., & Loulizi, A. (2017). Modelling of the adhesion between reclaimed asphalt pavement aggregates and hydrated cement paste. Construction and Building Materials, 152(15), 839–846.
- El Euch Khay, S., Achour, T., Bousleh, A., & Neji, J. (2018). Characterization and modelling of tensile strength of high-limestone filler concretes for pavement. Journal of Materials of Civil Engineering, 30(9), 1–8. https://doi.org/10.1061/%28ASCE%29MT.1943-5533.0002439
- Féret, R. (1892). Sur la compacité des mortiers hydrauliques. Annales des Ponts et Chaussées, série, 7(4), 5–164.
- Johnston, C. D. (1970). Strength and deformation of concrete in uniaxial tension and compression. Magazine of Concrete Research, 22(70), 5–16. https://doi.org/10.1680/macr.1970.22.70.5
- Joudi Bahri, I., Lecomte, A., Ben Ouezdou, M., & Achour, T. (2012). Use of limestone sands and fillers in concrete without superplasticizer. Cement and Concrete Composites, 34(6), 771–780. https://doi.org/10.1016/j.cemconcomp.2012.02.010
- Li, V. C., & Huang, J. (1989). Effect of material structure on the non linear fracture parameters of aggregate concrete [Paper presentation]. In Proceeding of the Seventh International Conference on Fracture, Houston, Texas.
- Li, V. C., & Huang, J. (1990). Relation of concrete fracture toughness to its internal structure. Engineering Fracture Mechanics, 35(1-3), 39–46. https://doi.org/10.1016/0013-7944(90)90181-F
- Mehta, P. K., & Monteiro, P. J. M. (2006). Concrete, microstructure, properties, and materials. (3rd ed.). McGraw-Hill.
- Neville, A. M. (1963). Properties of concrete. (5th ed.). Pearson Education.
- Oluokun, O. (1991). Prediction of concrete tensile strength from its compressive strength: Evaluation of existing relations for normal weight concrete. ACI Materials, 88(3), 302–309.
- Reinhardt, H. W. (2013). Factors affecting the tensile properties of concrete. A chapter from understanding the tensile properties of concrete (pp. 19–51). Woodhead Publishing Limited. https://doi.org/10.1533/9780857097538.1.19
- Sedran, T., & de Larrard, F. (2000). BétonlabPro2-Logiciel d’aide à la formulation des bétons-version exécutable sous Windows avec aide en ligne, version 2.14 (CD-ROM). Presses de l’École nationale des Ponts et Chaussées.
- Spearman, C. (1904). The proof and measurement of association between two things. The American Journal of Psychology, 15(1), 72–101. https://doi.org/10.2307/1412159
- Stock, A. F., Hannant, D. J., & Williams, R. I. T. (1979). The effect of aggregate concentration upon the strength and modulus of elasticity of concrete. Magazine of Concrete Research, 31(109), 225–234. https://doi.org/10.1680/macr.1979.31.109.225