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Journal of Nondestructive Evaluation
Published in: Journal of Nondestructive Evaluation 4/2016

01-12-2016

Monitoring of Concrete Cylinders With and Without Steel Fibers Under Compression Using Piezo-Ceramic Smart Aggregates

Authors: Saumitra Jain, S. Suriya Prakash, K. V. L. Subramaniam

Published in: Journal of Nondestructive Evaluation | Issue 4/2016

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Abstract

An active sensing approach is employed to analyze the damage behavior of concrete cylinders under compression using smart aggregates. The smart aggregate sensor used in this study is developed by embedding a soldered water-proof piezo-ceramic patch inside stiff cement mortar. These smart aggregates are embedded at the desired locations in the concrete cylinders. A pair of smart aggregates is used with one acting as an actuator and other as a sensor. Wavelet packet analysis is used to analyze the recorded signals. Variation of cracking pattern observed at different levels of loading modifies the signal characteristics. Experimental investigations are carried out by testing eight concrete cylinders with and without steel fibers. The experimental result shows that the proposed method of using smart aggregates and evaluating damage index based on wavelet analysis is effective in monitoring the health of the concrete cylinders. Compression tests on steel fiber reinforced concrete cylinders indicate that the addition of fibers improves the ductility and post peak behavior under compression. Damage index variation shows that the steel fibers resist the crack propagation and results in improved performance.
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Literature
1.
Ohno, K., Ohtsu, M.: Crack classification in concrete based on acoustic emission. Constr. Build. Mater. 24, 2339–2346 (2010)CrossRef
2.
Yun, H.D., Choi, W.C., Seo, S.Y.: Acoustic emission activities and damage evaluation of reinforced concrete beams strengthened with CFRP sheets. Nondestruct. Test. Eval. Int. 43, 615–628 (2010)
3.
Iyer, S., Sinha, S.K., Pedrick, M.K., Tittmann, B.R.: Evaluation of ultrasonic inspection and imaging systems for concrete pipes. Autom. Constr. 22, 149–164 (2012)CrossRef
4.
Krause, M., Milmann, B., Mielentz, F., Streicher, D., Redmer, B., et al.: Ultrasonic imaging methods for investigation of post-tensioned concrete structures:a study of interfaces at artificial grouting faults and its verification. J. Nondestruct. Eval. 27, 67–82 (2008)CrossRef
5.
Algernon, D., Gräfe, B., Mielentz, F., Köhler, B., Schubert, F.: Imaging of the elastic wave propagation in concrete using scanning techniques: application for impact-echo and ultrasonic echo methods. J. Nondestruct. Eval. 27, 83–97 (2008)CrossRef
6.
Clark, M.R., McCann, D.M., Forde, M.C.: Application of infrared thermography to the non-destructive testing of concrete and masonry bridges. Nondestruct. Test. Eval. Int. 36, 265–275 (2003)
7.
Uchanin, V.M.: Eddy-current flaw detection in structural elements. Mater. Sci. 42, 494–501 (2006)CrossRef
8.
Hobst, L., Anton, O., Vodicka, J., Scucka, J.: Homogeneity detection of fibre-concrete structures using radiographic technique. J. Nondestruct Eval. 6, 323–328 (2011)
9.
Ayres, J.W., Lalandey, F., Chaudhry, Z., Rogers, C.A.: Qualitative impedance-based health monitoring of civil infrastructures. Smart Mater. Struct. 7, 599–605 (1998)CrossRef
10.
Tseng, K.K.H., Naidu, A.S.K.: Non-parametric damage detection and characterization using smart piezoceramic material. Smart Mater. Struct. 11, 317–329 (2002)CrossRef
11.
Saafi, M., Sayyah, T.: Health monitoring of concrete structures strengthened with advanced composite materials using piezoelectric transducers. Composites B 32, 333–342 (2001)CrossRef
12.
Laskar, A., Gu, H., Mo, Y.-L., Song, G.: Progressive collapse of a 2-story reinforced concrete frame with embedded smart aggregate. Smart Mater. Struct. 18, 075001 (2009)CrossRef
13.
Song, G., Olmi, C., Gu, H.: An over height vehicle—bridge collision monitoring system using system using piezoelectric transducer. Smart Mater. Struct. 16, 462–468 (2007)CrossRef
14.
Song, G., Gu, H., Mo, Y.-L.: Smart aggregates: multi-functional Sensors for concrete structures—a tutorial and a review. Smart Mater. Struct. 17, 033001 (2008)CrossRef
15.
Song, G., Gu, H., Mo, Y.L., Hsu, T.T.C., Dhonde, H.: Concrete structural health monitoring using embedded piezoceramic transducers. Smart Mater. Struct. 16, 959–968 (2007)CrossRef
16.
Soh, C.H., Tseng, K.K., Bhalla, S., Gupta, A.: Performance of smart piezoceramic patches in health monitoring of a RC bridge. Smart Mater. Struct. 9, 533–542 (2000)CrossRef
17.
Thorenfeldt, E., Tomaszewicz, A., Jensen, J.J.: Mechanical Properties of High Strength Concrete and Application in Design. In: Proceedings of the Symposium on Utilization of High Strength Concrete, Tapir, Trondheim, pp. 149–159 (1987)
18.
Wang, R.L., Gu, H., Mo, Y.L., Song, G.: Proof-of-concept experimental study of damage detection of concrete piles using embedded piezoceramic transducers. Smart Mater. Struct. 22, 042001 (2013)CrossRef
19.
Tadepalli, P.R., Mo, Y.L., Hsu, T.C.: Mechanical properties of steel fibre concrete. Mag. Concr. Res. 65(8), 462–474 (2013)CrossRef
20.
Lee, S.C., Oh, J.H., Cho, J.Y.: Compressive behavior of fiber-reinforced concrete with end-hooked steel fibers. Materials 8, 1442 (2015)CrossRef
21.
Thomas, J., Ramaswamy, A.: Mechanical properties of steel fibre reinforced concrete. ASCE J. Mater. Civ. Eng. 19, 385–392 (2007)CrossRef
22.
Ezeldin, A.S., Balaguru, P.N.: Normal- and high-strength fiber-reinforced concrete under compression. J. Mater. Civ. Eng. 4(4), 415–429 (1992)CrossRef
23.
Qin, F., Kong, Q., Li, M., Mo, Y., Song, G., Fan, F.: Bond slip detection of steel plate and concrete beams using smart aggregates. Smart Mater. Struct. 24(11), 115039 (2015)CrossRef
24.
Kong, Q., Feng, Q., Song, G.: Water presence detection in a concrete crack using smart aggregates. Int. J. Smart Nano Mater. 6(3), 149–161 (2015)CrossRef
25.
Kong, Q., Wang, R., Song, G., Yang, Z.J., Still, B.: Monitoring the soil freeze-thaw process using piezoceramic-based smart aggregate. ASCE J. Cold Reg. Eng 28(2), 06014001 (2014)CrossRef
26.
Srikar, G., Goudar, A.G., Prakash, S.S.: Residual Compression behavior of structural polypropylene fiber reinforced concrete exposed to moderate temperature. J. Concr. Struct. Mater. (2016). doi:10.​1007/​s40069-016-0127x
27.
Metadata
Title
Monitoring of Concrete Cylinders With and Without Steel Fibers Under Compression Using Piezo-Ceramic Smart Aggregates
Authors
Saumitra Jain
S. Suriya Prakash
K. V. L. Subramaniam
Publication date
01-12-2016
Publisher
Springer US
Published in
Journal of Nondestructive Evaluation / Issue 4/2016
Print ISSN: 0195-9298
Electronic ISSN: 1573-4862
DOI
https://doi.org/10.1007/s10921-016-0376-2

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