A type of embedded piezoresistive cement-based strain sensors (PCSS) is proposed for monitoring local compressive strain of concrete structures. A four-pole arrangement of embedded gauze electrode is used to eliminate the contact resistance between electrodes and piezoresistive cement-based material thereby improving the measuring accuracy of the output signal of PCSS. Both carbon fiber and carbon black are added into cement-based materials to improve the reproducibility of piezoresistivity in PCSS. A compensation circuit in PCSS is incorporated to reduce the effect of temperature and humidity on the output of PCSS. PCSS are embedded in concrete beams and columns to monitor the compressive strain of beams and columns under field conditions. Experimental results indicate that a sensitivity of 0.0138%/με, a resolution of 0.007 με, a linearity of 4.25%, a repeatability of 4.36% and a hysteresis of 3.63% can be achieved using the proposed PCSS. It is therefore concluded that the self-sensing concrete components embedded with PCSS can be used to monitor their compressive strain.
Aitcin, P.C.2000. ``Cements of Yesterday and Today Concrete of Tomorrow ,'' Cement and Concrete Research, 30:1349-1359.
2.
Balta, C.F.J., Bayer, R.K. and Ezquerra, T.A.1988. ``Electrical Conductivity of Polyethylene-carbon-fiber Composites Mixed with Carbon Black,'' Journal of Materials Science, 23(4):1411- 1415.
3.
Chen, B., Wu, K.R. and Yao, W.2004a. ``Piezoresistivity in Carbon Fiber Reinforced Cement Based Composites,'' Journal of Materials Science and Technology , 20(6):746-750.
4.
Chen, B., Wu, K.R. and Yao, W.2004b. ``Conductivity of Carbon Fiber Reinforced Cement-based Composites,'' Cement and Concrete Composite, 26:291-297.
5.
Chong, K.P.1999. ``Health Monitoring of Civil Structures, '' Journal of Intelligent Material Systems and Structures, 9(11):892-898.
6.
De Backer, H., De Corte, W. and Van Bogaert, P.2003. ``A Case Study on Strain Gauge Measurements on Large Post-tensioned Concrete Beams of a Railway Support Structure,'' Insight: NonDestructive Testing and Condition Monitoring, 45(12):822-826, 830.
7.
Deng, Y.S. and Sun, B.J.2005. ``Researches on Intelligent Material System and its Application to Civil Engineering,'' Architecture Technology, 36(2):92-95.
8.
Fu, X.L., Ma, E.M., Chung, D.D.L. and Anderson, W.A.1997. ``Selfmonitoring in Carbon Fiber Reinforced Mortar by Reactance Measurement,'' Cement and Concrete Research, 27(6):845-852.
9.
Guan, X.C., Ou, J.P., Han, B.G. and Ba, H.J.2002. ``State of Art of Carbon Fiber Reinforced Concrete,''Journal of Harbin University of C.E. and Architecture, 35(6):55-59.
10.
Guan, Z.D., Zhang, Z.T. and Jiao, J.S.1992. Physical Performance for Inorganic Material, Tsinghua University Press, Beijing, China.
11.
Leng, J.S., Winter, D., Barnes, R.A., Mays, G.C. and Fernando, G.F.2006. ``Structural Health Monitoring of Concrete Cylinders Using Protected Fiber Optic Sensors,'' Smart Materials and Structures , 15(2):302-308.
12.
Li, W.A.2005. ``Method for Structural Safety Monitoring of Composite Carbon Fiber Reinforced Concrete,'' China Safety Science Jounal , 15(5):109-112.
13.
Mao, Q.Z., Sun, M.Q. and Chen, P.H.1997. ``Study on Volume Resistance and Surface Resistance of CFRC,''Journal of Wuhan University of Technology, 19(2):65-67.
14.
Mao, Q.Z., Zhao, B.Y., Shen, D.R. and Li, Z.Q.1996. ``Study on the Compression Sensibility of Cement Matrix Carbon Fiber Composite,'' Acta Materiae Compositae Sinica , 13(4):8-11.
15.
Park, S., Ahmad, S., Yun, C.B. and Roh, Y.2006. ``Multiple Crack Detection of Concrete Structures Using Impedance-based Structural Health Monitoring Techniques,'' Experimental Mechanics, 46(5):609-618.
16.
Pramanik, P.K., Khastgir, D., De, S.K. and Saha, T.N.1990. ``Pressure-sensitive Electrically Conductive Nitrile Rubber Composites Filled with Particulate Carbon Black and Short Carbon Fiber, '' Journal of Materials Science, 25(9):3848-3853.
Shi, Z.Q. and Chung, D.D.L.1999. ``Carbon Fiber-reinforced Concrete for Traffic Monitoring and Weighing in Motion,'' Cement and Concrete Research, 29:435-439.
19.
Sun, B.Y.1999. Sensor Engineering, Press of DalianInstitute of Technology, Dalian, China.
20.
Tao, B.Q. and Wang, N.1993. Electric Resistance Strain Sensors (Chinese), National Defence Industry Press, Beijing, China.
21.
Wen, S.H. and Chung, D.D.L.2001. ``Carbon Fiber-reinforced Cement as A Strain-sensing Coating ,'' Cement and Concrete Research, 31:665-667.
22.
Wen, S.H. and Chung, D.D.L.2006. ``Self-sensing of Flexural Damage and Strain in Carbon Fiber Reinforced Cement and Effect of Embedded Steel Rreinforcing Bars, '' Carbon, 44(8):1496-1502.
23.
Wo, D.Z.2000. Cyclopaedia of Composite Material, Chemical Industry Press, Beijing, China.
24.
Zhang, W., Xie, H.C. and Cao, Z.2002. ``Experimental Research of Externally Pasted Carbon Cloth Electrode of Carbon Fiber Cement Paste,'' China Concrete and Cement Products, (4):32-34.
25.
Zhang, Y.G., Wu, H., Yang, Q.Y., Xiang, S.Q. and He, H.2008. ``Fiber Grating Sensors for High-temperature Measurement ,'' Optics and Lasers in Engineering, 46:349-354.
26.
Zheng, L.X., Li, Z.Q. and Song, X.H.2004a. ``Corrosion Monitoring of Rebar by Compression Sensitivity of CFRC,'' Journal of Experimental Mechnics, 19(2):206-210.
27.
Zheng, L.X., Song, X.H. and Li, Z.Q.2004b. ``Self-monitoring of the Deformation in Smart Concrete Strusrures,''J. Huazhong Univ. of Sci. and Tech., 32(4):30-31,55.
