JKCI - Journal of the Korea Concrete Institute

Achenbach J. D., 2012, Wave Propagation in Elastic Solids, New York Elsevier, pp. 21-26

ASTM C403/C403M-16 , 2016, Standard Test Method for Time of Setting of Concrete Mixtures by Penetration Resistance, West Conshohocken. PA: astm international

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Choi H., Song H., Tran Q., Roesler J. R., Popovics J. S., 2016, Contactless System for Continuous Monitoring of Early-Age Concrete Properties, Concrete International, Vol. 38, No. 9, pp. 35-41

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De Belie N., Grosse C., Baert G., 2008, Ultrasonic Transmission to Monitor Setting and Hardening of Fly Ash Concrete, ACI Materials Journal, Vol. 105, No. 3, pp. 221

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Graff K. F., 2012, Wave Motion in Elastic Solids, New York: Courier Corporation, pp. 311-393

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Hong J., Choi H., 2021, Monitoring Hardening Behavior of Cementitious Materials Using Contactless Ultrasonic Method, Sensors, Vol. 21, No. 10, pp. 3421

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Hong J., Kim R., Lee C. H., Choi H., 2020, Evaluation of Stiffening Behavior of Concrete Based on Contactless Ultrasonic System and Maturity Method, Construction and Building Materials, Vol. 262, pp. 120717

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Lee H. J., Yim H. J., 2017, Setting Time Evaluation of Concrete Using Electrical Resistivity Measurement, Journal of the Korea Concrete Institute, Vol. 29, No. 4, pp. 361-369

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Lee H. K., Lee K. M., 2002, Setting Assessment of High Strength Concrete Using the Ultrasonic Pulse Velocity Monitoring, Journal of the Korea Concrete Institute, Vol. 14, No. 6, pp. 973-981

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Lee T., Lee J., 2020, Setting Time and Compressive Strength Prediction Model of Concrete by Nondestructive Ultrasonic Pulse Velocity Testing at Early Age, Construction and Building Materials, Vol. 252, pp. 119027

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Park S. H., Kim D. J., Hong S. I., Lee C. G., 2011, A Study on Applicability of Embedded Smart Sensor for Concrete Curing Monitoring, Journal of the Korea Concrete Institute, Vol. 23, No. 2, pp. 219-224

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Subramaniam K. V., Mohsen J., Shaw C., Shah S. P., 2002, Ultrasonic Technique for Monitoring Concrete Strength Gain at Early Age, Materials Journal, Vol. 99, No. 5, pp. 458-462

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Sun Z., Voigt T., Shah S. P., 2005, Temperature Effects on Strength Evaluation of Cement-Based Materials with Ultrasonic Wave Reflection Technique, Materials Journal, Vol. 102, No. 4, pp. 272-278

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Suraneni P., Struble L. J., Popovics J. S., Chung C.-W., 2015, Set Time Measurements of Self-Compacting Pastes and Concretes Using Ultrasonic Wave Reflection, Journal of Materials in Civil Engineering, Vol. 27, No. 1, pp. 04014117

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Trtnik G., Valič M. I., Turk G., 2013, Measurement of Setting Process of Cement Pastes Using Non-Destructive Ultrasonic Shear Wave Reflection Technique, NDT & E International, Vol. 56, pp. 65-75

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Viktorov I., 1967, Rayleigh and Lamb Waves: Physical Theory and Applications, New York: Dover, pp. 311-393

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Yim H. J., Bae Y. H., Jun Y., 2021, Hydration and Microstructural Characterization of Early-Age Cement Paste with Ultrasonic Wave Velocity and Electrical Resistivity Measurements, Construction and Building Materials, Vol. 303, pp. 124508

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Yim H. J., Kim J. H., Shah S. P., 2014, Ultrasonic Monitoring of the Setting of Cement-Based Materials: Frequency Dependence, Construction and Building Materials, Vol. 65, pp. 518-525

JKCIJournal of
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Journal of the Korea Concrete Institute

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JKCIJournal ofthe Korea Concrete Institute