Issue 43

M. Fakhri et alii, Frattura ed Integrità Strutturale, 43 (2018) 113-132; DOI: 10.3221/IGF-ESIS.43.09 130 [16] Hoare, T., Hesp, S., Low-temperature fracture testing of asphalt binders: regular and modified systems, Transportation Research Record: Journal of the Transportation Research Board, (2000) 36-42. [17] Marasteanu, M., Dai, S., Labuz, J., Li, X., Determining the low-temperature fracture toughness of asphalt mixtures, Transportation Research Record: Journal of the Transportation Research Board, (2002) 191-199. [18] Paulino, G. H., Wagoner, M. P., Buttlar, W. G., Development of a single-edge notched beam test for asphalt concrete mixtures, Journal of Testing and Evaluation, 33 (2005) 1-9. [19] Seo, Y., A comprehensive study of crack growth in asphalt concrete using fracture mechanics, (2003). [20] Wagnoner, M., Buttlar, W., Paulino, G., Disk-shaped compact tension test for asphalt concrete fracture, Experimental Mechanics, 45 (2005) 270-277. [21] Wagoner, M. P., Buttlar, W.G., Paulino, G.H., Blankenship, P., Laboratory Testing Suite for Characterization of Asphalt Concrete Mixtures Obtained from Field Cores (With Discussion), Journal of the Association of Asphalt Paving Technologists, 75 (2006). [22] Ameri, M., Nowbakht, S., Molayem, M., Aliha, M.R.M., Investigation of fatigue and fracture properties of asphalt mixtures modified with carbon nanotubes, Fatigue & fracture of engineering materials & structures, 39 (2016) 896-906. [23] Aliha, M.R.M., F. Berto, A. Bahmani, S. Akhondi, A. Barnoush, Fracture assessment of polymethyl methacrylate using sharp notched disc bend specimens under mixed mode I+ III loading, Physical Mesomechanics, 19 (2016) 355-364. [24] Aliha, M.R.M., Bahmani, A., Akhondi, S., Determination of mode III fracture toughness for different materials using a new designed test configuration, Materials & Design, 86 (2015) 863-871. [25] Ayatollahi, M., Berto, F., Campagnolo, A., Gallo, P., Tang, K., Review of local strain energy density theory for the fracture assessment of V-notches under mixed mode loading, Engineering Solid Mechanics, 5 (2017) 113-132. [26] Fayed, A., Numerical analysis of mixed mode I/II stress intensity factors of edge slant cracked plates, Engineering Solid Mechanics, 5 (2017) 61-70. [27] Campagnolo, A., Berto, F., Some recent criteria for brittle fracture assessment under mode II loading, Engineering Solid Mechanics, 5 (2017) 31-38. [28] Molenaar, A., Scarpas, A., Liu, X., Erkens, S., Semi-circular bending test; simple but useful?, Journal of the Association of Asphalt Paving Technologists, 71 (2002). [29] Li, X., Marasteanu, M., Evaluation of the low temperature fracture resistance of asphalt mixtures using the semi circular bend test (with discussion), Journal of the Association of Asphalt Paving Technologists, 73 (2004). [30] Li, X., Marasteanu, M.O., Investigation of low temperature cracking in asphalt mixtures by acoustic emission, Road materials and pavement design, 7 (2006) 491-512. [31] Wang, L., Mohammad, L.N., Mull, M.A., Wu, Z., Fracture resistance characterization of superpave mixtures using the semi-circular bending test, Journal of ASTM International, 2 (2005) 1-15. [32] Ying, H., Elseifi, M.A., Mohammad, L.N., Hassan, M.M., Heterogeneous Finite-Element Modeling of the Dynamic Complex Modulus Test of Asphalt Mixture Using X-ray Computed Tomography, Journal of Materials in Civil Engineering, 26 (2013) 04014052. [33] Aliha, M.R.M., Fattahi Amirdehi, H., Fracture toughness prediction using Weibull statistical method for asphalt mixtures containing different air void contents, Fatigue & Fracture of Engineering Materials & Structures, (2016). [34] Berto, F., Pook, L., Campagnolo, A., Corner point singularities under in-plane and out-of-plane loading: a review of recent results, Engineering Solid Mechanics, 5 (2017) 167-176. [35] Mirbaha, B., Abdi, A., Zarei, M., Zarei, A., Experimental determination of the optimum percentage of asphalt mixtures reinforced with Nano-carbon black and polyester fiber industries, Engineering Solid Mechanics, 5 (2017) 285-292. [36] Aliha, M.R.M., Heidari-Rarani, M., M. Shokrieh, Ayatollahi, M., Experimental determination of tensile strength and K (IC) of polymer concretes using semi-circular bend(SCB) specimens, Structural Engineering and Mechanics, 43 (2012) 823-833. [37] Fakhri, M., Amoosoltani, E., Aliha, M.R.M., Crack behavior analysis of roller compacted concrete mixtures containing reclaimed asphalt pavement and crumb rubber, Engineering Fracture Mechanics, 180 (2017) 43-59. [38] Aashto, T., 105-13, Standard Method of Test for Determining the Fracture Energy of Asphalt Mixtures Using the Semicircular Bend Geometry (SCB), American Association of State and Highway Transportation Officials, (2013). [39] Li, X., Marasteanu, M.O., Kvasnak, A., Bausano, J., Williams, R.C., Worel, B., Factors study in low-temperature fracture resistance of asphalt concrete, Journal of Materials in Civil Engineering, 22 (2010) 145-152. [40] Berto, F., Torgersen, J., Campagnolo, A., A review of the fatigue strength of structural materials under multiaxial loading in terms of the local energy density, Engineering Solid Mechanics, 5 (2017) 245-270. [41] Mustapha, B., Bahim, I., Mourad, B., Abderrahim, B., Effect of fiber volume fraction in the tensile properties of renewable Diss fiber/polyester composite, Engineering Solid Mechanics, 4 (2016) 91-96.