Sage Journals: Discover world-class research

Abstract

In this study carbon fiber reinforced cement-based composites (CFRC) are fabricated by compressing, and the smart properties of the composites are studied. The results show that there exists a remarkable negative temperature coefficient (NTC) and a positive temperature coefficient (PTC) in the composite. The resistivities of the composites formed under 10 MPa are more sensitive to temperature than that of the composites formed under 2 MPa, and the critical temperature zone of the composites formed under 10 MPa (100-130°C) is narrower than that of the composites formed under 2 MPa (50-100°C). The fractional change in resistance of CFRC shows obvious one-to-one correspondence with cyclic load. The amplitude of the fractional change in resistance of the composites formed under 10 MPa is obviously larger than that of the composites formed under 2 MPa, which is more suitable for the application of important buildings such as bridges, dams, and so on to realize the real-time, dynamic and health monitoring, and damnification evaluation.

Keywords

carbon fiber cement-based composites electrical resistivity temperature-resistivity properties piezoresistivity properties

Get full access to this article

View all access options for this article.

References

Aizawa, S. , Kakizawa, T. and Higasino, M. (1998). Case Studies of Smart Materials for Civil Structures , Smart Mater. Struct., 7(5): 617-626 .

Zhang, Dong , Li, Zongjin and Wu, Ke-Ru (2002). 2-2 Piezoelectric Cement Matrix Composite: Part II. Actuator Effect , Cement and Concrete Research, 32(5): 825-830 .

Mingqing, Sun , Qingping, Liu , Zhuoqiu, Li and Yaozu, Hu (2000). A Study of Piezoelectric Properties of Carbon Fiber Reinforced Concrete and Plain Cement Paste During Dynamic Loading , Cement and Concrete Research, 30(10): 1593-1595 .

Mingqing, Sun , Zhuoqiu, Li , Qizhao, Mao and Darong, Shen (1999). A Study on Thermal Self-monitoring of Carbon Fiber Reinforced Concrete , Cement and Concrete Research, 29(5): 769-771 .

Mingqing, Sun , Zhuoqiua, Li , Qingping, Liu , Zhigang, Tang and Darong, Shen (2000). A Study on Thermal Self-diagnostic and Self-adaptive Smart Concrete Structures , Cement and Concrete Research, 30(8): 1251-1253 .

Chung, D. D. L. (2000). Cement Reinforced with Short Carbon Fibers: A Multifunctional Material , Composites Part B: Engineering, 31(6-7): 511-526 .

Wen, Sihai and Chung, D. D. L. (2001). Carbon Fiber-reinforced Cement as a Strain-sensing Coating , Cement and Concrete Research, 31(4): 665-667 .

Shi, Zeng-Qiang and Chung, D. D. L. (1999). Carbon Fiber-reinforced Concrete for Traffic Monitoring and Weighing in Motion , Cement and Concrete Research, 29(3): 435-439 .

Chen, Pu-wei and Chung, D. D. L. (1993). Carbon Fiber Reinforced Concrete for Smart Structure Capable of Non-destructive Flaw Detection , Smart Materials and Structures, 2(1): 22-33 .

10.

Fu, XuLi and Chung, D. D. L. (1996). Self-monitoring of Fatigue Damage in Carbon Fiber Reinforced Cement , Cem. Concr. Res., 26(1): 15-20 .

11.

Yuanxia, Yang , Qizhao, Mao , Darong, Shen and Zhuoqiu, Li (2001). Study on the Dispersion of Fiber in Carbon Fiber Cement Composite , Journal of Buiding Material, 4(1): 84-88 .

12.

Dapeng, Wang and Ziyi, Hou (2005). Study on the Influence of Carbon Fiber Surface Treatment on the Compression-sensitivity of Carbon Fiber-reinforced Concrete , Journal of Materials Science and Engineering, 23(12): 266-268 .

13.

Xinchun, Guan , Baoguo, Han , Jinping, Ou and Hengjing, Ba (2003). Influence of Surface Treatment of Carbon Fiber on Smart Performance of Carbon Fiber Hardened Cement , Journal of Materials Science and Technology, 11(4): 343-346 .

14.

Ke-ru, Wu , Bing, Chen and Wu, Yao (2002). Smart Properties of Carbon Fiber Reinforced Cement Based Composite , Journal of Tongji University, 30(4): 456-458 .

15.

Zhen, Cao , Xiao-hua, Zhao and Hui-cai, Xie (2003). Resistivity-temperature Behavior of Carbon-fiber Cement-matrix Composits , Journal of Smart Material, 34(4): 466-467 .

16.

Bing, Chen , Ke-ru, Wu and Wu, Yao (2003). Temperature Resistivity Dependence of Carbon Fiber Reinforced Cement Based Composites , Journal of Buliding Materials, 6(3): 312-315 .

17.

Wu, Yao , Bing, Chen and Ke-ru, Wu (2002). Study on Piezoresistivity of Carbon Fiber Reinforced Cement Based Composite , Journal of Hena Science, 20(6): 630-633 .

Smart Properties of Carbon Fiber Reinforced Cement-based Composites

Abstract

Keywords

Get full access to this article

References