Issue 49

Y. Liu et alii, Frattura ed Integrità Strutturale, 49 (2019) 714-724; DOI: 10.3221/IGF-ESIS.49.64 724 [6] Zhang, H.N., Shen, C., Xi, P.S. (2018). Study on flexural properties of active magnesia carbonation concrete with fly ash content, Construction and Building Materials, 187, pp. 884-891. [7] Branch, J.L., Epps, R., Kosson, D.S. (2018). The impact of carbonation on bulk and ITZ porosity in micro concrete materials with fly ash replacement, Cement and Concrete Research, 103, pp. 170-178. [8] Atis, C.D. (2003). Accelerated carbonation and testing of concrete made with fly ash, Construction and Building Materials, 17(3), pp. 147-152. [9] Wang, X., Wang, Y.B., Yang, L.S. (2017). Carbonation Resistance Property of the High Fly Ash Concrete, Construction and Building Materials, 138, pp. 486-494 [10] Kurda, R., De Brito, J., Slivestre, J.D. (2019). Carbonation of concrete made with high amount of fly ash and recycled concrete aggregates for utilization of CO2, Journal of CO2 Utilization, 29, pp. 12-19. [11] Jiang, C., Gu, X.L., Zhang, W.P. (2015). Modeling of carbonation in tensile zone of plain concrete beams damaged by cyclic loading, Construct Build Mater, 77, pp. 479-488. [12] Nwoji, C.U., Onah, H.N., Mama, B.O., Ike, C.C. (2018). Ritz variational method for bending of rectangular Kirchhoff plate under transverse hydrostatic load distribution, Mathematical Modelling of Engineering Problems, 5(1), pp. 1-10. [13] Wang, J., Su, H., Du, J.S. (2018). Influence of coupled effects between flexural tensile stress and carbonation time on the carbonation depth of concrete, Construction and Building Materials, 190, pp. 439-451. [14] Xi, S., Zhang, Y.Z., Ji, Y., Zhu, Y.L., Liu, Y., Yang, Y.T., Yu, M.L. (2018). Integrated growth of Si-O-C nanosheets on the surface of carbon microstructure with the aid of carbon nanotubes, Revue des Composites et des Matériaux Avancés, 28(2), pp. 289-298. [15] Jiang, C., Gu, X., Zhang, W. (2015). Modeling of carbonation in tensile zone of plain concrete beams damaged by cyclic loading, Construction and Building Materials, 77, pp. 479-488. [16] Niu, J.G. (2008). Study on Neutralization Performance of Concrete in the Atmospheric Environment Based on Multi-factor Effects, Xi’an University of Architecture and Technology. [17] Liu, W.L. (2008). Research on Carbonation Rule of Fly Ash Concrete under Bending Loading and Environment, Xi’an University of Architecture and Technology. [18] Zhang, Q.F. (2009). Study on Control Measures of Shrinkage Cracks in Concrete Structures, Concrete, (3), pp. 59-63. [19] Daniel, J., Joseph, R., Prabakar, J., Alagusundaramoorthy, P. (2018). Flexural behavior of precast concrete sandwich panels under different loading conditions such as punching and bending, Cement and Concrete Research, 57(1), pp. 309-320. [20] Falliano, D., De Domenico, D., Ricciardi, G. (2019). Compressive and flexural strength of fiber-reinforced foamed concrete: Effect of fiber content, curing conditions and dry density, Construction and Building Materials, 198, pp. 479-493. [21] Ahmad, S., Sallam, Y., AI-Hawas, M. (2014). Effect of Key Factors on Compressive and Tensile Strength of Concrete Exposed to Elevated Temperatures, Arabian Journal for Science& Engineering, 39(6), pp. 4507-4508. [22] Francois, R., Maso, J.C. (1998). Effect of damage in reinforced concrete on carbonation or chloride penetration, Cement and Concrete Research, 18(6), pp. 961-970. [23] Matsuda, K., Pa, P.S., Yun, W. (2014). Effect of Fiber Fraction on Compressive and Flexural Properties of High- Strength Fiber Reinforced Concrete, Applied Mechanics and Materials, 597, pp. 296-299. [24] Chen, J., Song, X., Zhao, T. (2010). Service life prediction of lining concrete of subsea tunnel under combined compressive load and carbonation, Journal of Wuhan University of Technology-Master. Sci. Ed., 25(6), pp. 1061- 1064. [25] QC/T518-2013, Tightening Torque for Automotive Threaded Fasteners. [26] Su, Y. (2017). Study on the Influence of Compaction on the Heterogeneity of Hardened Concrete, Harbin Institute of Technology. [27] Barry, K.F., Biagini, M.S., Santamarina, J.C. (2013). Void Detection System for Fresh Concrete: USA, US2013192375- A1, 2013-8-1. [28] Chia, K., Kho, C., Zhang, M. (2005). Stability of Fresh Lightweight Aggregate Concrete under Vibration, ACI Material Journal, 102(5), pp.347-354. [29] Banfill, P.F., Teixeira, M.A., Craik, R.J. (2011). Theology and Vibration of Fresh Concrete: Predicting the Radius of Action of Poker Vibrators from Wave Propagation, Cement and Concrete Research, 41(9), pp. 932-941. [30] Navarrete, I., Lopez, M. (2016). Estimating the Segregation of Concrete Baser on Mixture Design and Vibratory Energy, Construction and Building Materials,122, pp. 384-390. [31] Xie, Y.J., Chen, X.B. (2015). Effects of Fly Ash on Shearing Thinning and Thickening of Cement Paste, Journal of the Chinese Ceramic Society, 43(8), pp. 1041-1046.