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Experimental determination of dynamic modulus of elasticity of concrete with ultrasonic pulse velocity method and ultrasonic pulse echo method

Ivan Ivanchev

2022IOP Conference Series Materials Science and Engineering14 citationsDOIOpen Access PDF

Abstract

Abstract In this article are presented the author's experimental studies for determining the dynamic modulus of elasticity of concrete in tests of reinforced concrete beams at the age of concrete 1926 days. For two years the reinforced concrete elements were indoors, and for the next more than three years they were left outdoors, exposed to external atmospheric influences. The results of the measured velocities of P-longitudinal and S-transverse waves generated by piezoelectric transducers are presented. The research used a combination of two modern non-destructive methods in the study of concrete - ultrasonic pulse velocity and ultrasonic pulse echo. The dynamic Poisson's ratio and the dynamic modulus of elasticity of concrete are determined on the basis of the measured velocities of the longitudinal and transverse waves. The measurements were made respectively by means of portable instruments Proceq Tico and Pundit Live Array Pro of the company Proceq. The obtained results are compared with the theoretically calculated modulus of elasticity according to BDS EN 1992-1-1:2005/NA:2015.

Topics & Concepts

Ultrasonic sensorAcousticsYoung's modulusMaterials scienceElasticity (physics)TransducerTransverse planePoisson's ratioElastic modulusPulse (music)PiezoelectricityLongitudinal waveModulusComposite materialStructural engineeringOpticsPoisson distributionWave propagationPhysicsEngineeringMathematicsDetectorStatisticsUltrasonics and Acoustic Wave PropagationGeophysical Methods and ApplicationsFire effects on concrete materials
Experimental determination of dynamic modulus of elasticity of concrete with ultrasonic pulse velocity method and ultrasonic pulse echo method | Litcius