Effect of types of aggregate and sand-to-aggregate volume ratio on UPV in concrete

Anderson, 1981, Pulse velocity as a predictor of 28- and 90-day strength, ACI Mater. J., 78, 116 Kaplan, 1959, The effects of age and water/cement ratio upon the relation between ultrasonic pulse velocity and compressive strength of concrete, Mag. Concr. Res., 11, 85, 10.1680/macr.1959.11.32.85 Popovics, 1990, The behaviour of ultrasonic pulses in concrete, Cem. Concr. Res., 20, 259, 10.1016/0008-8846(90)90079-D P. Turgut, Evaluation of the ultrasonic pulse velocity data coming on the field, in: 4th Int. Conf. NDE Relat. to Struct. Integr. Nucl. Press. Components, London, 2004, pp. 573–578. Kheder, 1999, A two stage procedure for assessment of in situ concrete strength using combined non-destructive testing, Mater. Struct., 32, 410, 10.1007/BF02482712 Elvery, 1976, Ultrasonic assessment of concrete strength at early ages, Mag. Concr. Res., 28, 181, 10.1680/macr.1976.28.97.181 Jones, 1963, The ultrasonic testing of concrete, Ultrasonics, 1, 78, 10.1016/0041-624X(63)90058-1 Trtnik, 2009, Prediction of concrete strength using ultrasonic pulse velocity and artificial neural networks, Ultrasonics, 49, 53, 10.1016/j.ultras.2008.05.001 Parasnis, 1986 Malhotra, 1976, Testing hardened concrete: nondestructive methods, 188 Mohammed, 2016, Effects of maximum aggregate size on UPV of brick aggregate concrete, Ultrasonics, 69, 129, 10.1016/j.ultras.2016.04.006 Abo-Qudais, 2005, Effect of concrete mixing parameters on propagation of ultrasonic waves, Constr. Build. Mater., 19, 257, 10.1016/j.conbuildmat.2004.07.022 Tanigawa, 1984, Estimation of concrete strength by combined nondestructive testing method, ACI Mater. J., 82, 57 Yıldırım, 2011, Modulus of elasticity of substandard and normal concretes, Constr. Build. Mater., 25, 1645, 10.1016/j.conbuildmat.2010.10.009 Kou, 2012, Properties of concrete prepared with low-grade recycled aggregates, Constr. Build. Mater., 36, 881, 10.1016/j.conbuildmat.2012.06.060 Kou, 2015, Effect of the quality of parent concrete on the properties of high performance recycled aggregate concrete, Constr. Build. Mater., 77, 501, 10.1016/j.conbuildmat.2014.12.035 Solís-Carcaño, 2008, Evaluation of concrete made with crushed limestone aggregate based on ultrasonic pulse velocity, Constr. Build. Mater., 22, 1225, 10.1016/j.conbuildmat.2007.01.014 Ben-Zeitun, 1986, Use of pulse velocity to predict compressive strength of concrete, Int. J. Cem. Compos. Light. Concr., 8, 51, 10.1016/0262-5075(86)90024-2 del Rıìo, 2004, Characterization and hardening of concrete with ultrasonic testing, Ultrasonics, 42, 527, 10.1016/j.ultras.2004.01.053 Kaplan, 1960, The relation between ultrasonic pulse velocity and the compressive strength of concretes having the same workability but different mix proportions, Mag. Concr. Res., 12, 3, 10.1680/macr.1960.12.34.3 Ohdaira, 2000, Water content and its effect on ultrasound propagation in concrete — the possibility of NDE, Ultrasonics, 38, 546, 10.1016/S0041-624X(99)00158-4 Hernández, 2000, Porosity estimation of concrete by ultrasonic NDE, Ultrasonics, 38, 531, 10.1016/S0041-624X(99)00095-5 Latif Al-Mufti, 2012, The early age non-destructive testing of concrete made with recycled concrete aggregate, Constr. Build. Mater., 37, 379, 10.1016/j.conbuildmat.2012.07.058 Barluenga, 2015, Early age monitoring of self-compacting concrete with mineral additions, Constr. Build. Mater., 77, 66, 10.1016/j.conbuildmat.2014.12.033 Molero, 2009, Sand/cement ratio evaluation on mortar using neural networks and ultrasonic transmission inspection, Ultrasonics, 49, 231, 10.1016/j.ultras.2008.08.006 Ould Naffa, 2002, Detection of chemical damage in concrete using ultrasound, Ultrasonics, 40, 247, 10.1016/S0041-624X(02)00146-4 Van Hauwaert, 1998, Use of ultrasonics to follow crack growth, Ultrasonics, 36, 209, 10.1016/S0041-624X(97)00129-7 Ohtsu, 1998, Nondestructive evaluation of defects in concrete by quantitative acoustic emission and ultrasonics, Ultrasonics, 36, 187, 10.1016/S0041-624X(97)00091-7 Bogas, 2013, Compressive strength evaluation of structural lightweight concrete by non-destructive ultrasonic pulse velocity method, Ultrasonics, 53, 962, 10.1016/j.ultras.2012.12.012 Sztukiewicz, 1991, Application of ultrasonic methods in asphalt concrete testing, Ultrasonics, 29, 5, 10.1016/0041-624X(91)90167-7 Soares, 2014, In situ materials characterization of full-scale recycled aggregates concrete structures, Constr. Build. Mater., 71, 237, 10.1016/j.conbuildmat.2014.08.025 Andrej, 1967, Estimate of concrete strength by ultrasonic pulse velocity and damping constant, ACI Mater. J., 64, 678 T.U. Mohammed, Sustainable development of concrete construction works in Bangladesh, in: Third Int. Conf. Sustain. Constr. Mater. Technol., Kyoto, Japan, p. CD – Proceedings. Paper No. 205, 2013. Mohammed, 2014, Recycling of brick aggregate concrete as coarse aggregate, J. Mater. Civ. Eng., 27, 1 Akhtaruzzaman, 1983, Properties of Concrete Using Crushed Brick as Aggregate, Concr. Int., 5, 58 T.U. Mohammed, Bangladesh – Sustainable Development of Concrete Technology, in: S. Ahmad (Ed.), Proc. CBM-CI – Int. Work., Karachi, Pakistan, 2007: pp. 249–267. Jain, 2013, Combined use of non-destructive tests for assessment of strength of concrete in structure, Procedia Eng., 54, 241, 10.1016/j.proeng.2013.03.022