How to cite this paper
Mustapha, B., Bahim, I., Mourad, B & Abderrahim, B. (2016). Effect of fiber volume fraction in the tensile properties of renewable Diss fiber /polyester composite.Engineering Solid Mechanics, 4(2), 91-96.
Refrences
Adam, M. A., Said, M., Mahmoud, A. A., & Shanour, A. S. (2015). Analytical and experimental flexural behavior of concrete beams reinforced with glass fiber reinforced polymers bars. Construction and Building Materials, 84, 354-366.
Alhozaimy, A. M., Soroushian, P., & Mirza, F. (1996). Mechanical properties of polypropylene fiber reinforced concrete and the effects of pozzolanic materials. Cement and Concrete Composites, 18(2), 85-92.
Aliha, M. R. M., Heidari-Rarani, M., Shokrieh, M. M., & Ayatollahi, M. R. (2012). Experimental determination of tensile strength and K (IC) of polymer concretes using semi-circular bend(SCB) specimens. Structural Engineering and Mechanics, 43(6), 823-833.
Almusallam, T. H., Al-Salloum, Y. A., Alsayed, S. H., El-Gamal, S., & Aqel, M. (2012). Tensile properties of glass fiber-reinforced polymer bars embedded in concrete under severe laboratory and field environmental conditions. Journal of Composite Materials, 0021998312440473.
Belaadi, A., Bezazi, A., Bourchak, M., Scarpa, F., & Zhu, C. (2014). Thermochemical and statistical mechanical properties of natural sisal fibres. Composites Part B: Engineering, 67, 481-489.
Bouakba, M., Bezazi, A., Boba, K., Scarpa, F., & Bellamy, S. (2013). Cactus fiber/polyester composite: Manufacturing, quasi-static mechanical and fatigue characterization. Composites Science and Technology, 74, 150–159.
Brahim, S. B., & Cheikh, R. B. (2007). Influence of fibre orientation and volume fraction on the tensile properties of unidirectional Alfa-polyester composite. Composites Science and Technology, 67(1), 140-147.
El Messiry, M. (2013). Theoretical analysis of natural fiber volume fraction of reinforced composites. Alexandria Engineering Journal, 52(3), 301-306.
Heidari-Rarani, M., Aliha, M. R. M., Shokrieh, M. M., & Ayatollahi, M. R. (2014). Mechanical durability of an optimized polymer concrete under various thermal cyclic loadings–An experimental study. Construction and Building Materials, 64, 308-315.
Mazaheripour, H., Barros, J. A., Sena-Cruz, J. M., Pepe, M., & Martinelli, E. (2013). Experimental study on bond performance of GFRP bars in self-compacting steel fiber reinforced concrete. Composite Structures, 95, 202-212.
Mohamed, N., Farghaly, A. S., Benmokrane, B., & Neale, K. W. (2013). Experimental investigation of concrete shear walls reinforced with glass fiber–reinforced bars under lateral cyclic loading. Journal of Composites for Construction.
Paul, W., Jan, I., & Ignaas, V. (2003). Natural fibers: can they replace glass in fiber reinforced plastics. Compos. Sci. Technol, 63, 1259-1264.
Tobbi, H., Farghaly, A. S., & Benmokrane, B. (2012). Concrete columns reinforced longitudinally and transversally with glass fiber-reinforced polymer bars. ACI Structural Journal, 109(4).
Yao, W., Li, J., & Wu, K. (2003). Mechanical properties of hybrid fiber-reinforced concrete at low fiber volume fraction. Cement and concrete research, 33(1), 27-30.
Alhozaimy, A. M., Soroushian, P., & Mirza, F. (1996). Mechanical properties of polypropylene fiber reinforced concrete and the effects of pozzolanic materials. Cement and Concrete Composites, 18(2), 85-92.
Aliha, M. R. M., Heidari-Rarani, M., Shokrieh, M. M., & Ayatollahi, M. R. (2012). Experimental determination of tensile strength and K (IC) of polymer concretes using semi-circular bend(SCB) specimens. Structural Engineering and Mechanics, 43(6), 823-833.
Almusallam, T. H., Al-Salloum, Y. A., Alsayed, S. H., El-Gamal, S., & Aqel, M. (2012). Tensile properties of glass fiber-reinforced polymer bars embedded in concrete under severe laboratory and field environmental conditions. Journal of Composite Materials, 0021998312440473.
Belaadi, A., Bezazi, A., Bourchak, M., Scarpa, F., & Zhu, C. (2014). Thermochemical and statistical mechanical properties of natural sisal fibres. Composites Part B: Engineering, 67, 481-489.
Bouakba, M., Bezazi, A., Boba, K., Scarpa, F., & Bellamy, S. (2013). Cactus fiber/polyester composite: Manufacturing, quasi-static mechanical and fatigue characterization. Composites Science and Technology, 74, 150–159.
Brahim, S. B., & Cheikh, R. B. (2007). Influence of fibre orientation and volume fraction on the tensile properties of unidirectional Alfa-polyester composite. Composites Science and Technology, 67(1), 140-147.
El Messiry, M. (2013). Theoretical analysis of natural fiber volume fraction of reinforced composites. Alexandria Engineering Journal, 52(3), 301-306.
Heidari-Rarani, M., Aliha, M. R. M., Shokrieh, M. M., & Ayatollahi, M. R. (2014). Mechanical durability of an optimized polymer concrete under various thermal cyclic loadings–An experimental study. Construction and Building Materials, 64, 308-315.
Mazaheripour, H., Barros, J. A., Sena-Cruz, J. M., Pepe, M., & Martinelli, E. (2013). Experimental study on bond performance of GFRP bars in self-compacting steel fiber reinforced concrete. Composite Structures, 95, 202-212.
Mohamed, N., Farghaly, A. S., Benmokrane, B., & Neale, K. W. (2013). Experimental investigation of concrete shear walls reinforced with glass fiber–reinforced bars under lateral cyclic loading. Journal of Composites for Construction.
Paul, W., Jan, I., & Ignaas, V. (2003). Natural fibers: can they replace glass in fiber reinforced plastics. Compos. Sci. Technol, 63, 1259-1264.
Tobbi, H., Farghaly, A. S., & Benmokrane, B. (2012). Concrete columns reinforced longitudinally and transversally with glass fiber-reinforced polymer bars. ACI Structural Journal, 109(4).
Yao, W., Li, J., & Wu, K. (2003). Mechanical properties of hybrid fiber-reinforced concrete at low fiber volume fraction. Cement and concrete research, 33(1), 27-30.