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http://dx.doi.org/10.4191/kcers.2012.49.3.260

Impedance Spectroscopy Analysis of Hydration in Ordinary Portland Cements Involving Chemical Mechanical Planarization Slurry  

Hwang, Jin-Ha (Department of Materials Science and Engineering, Hongik University)
Publication Information
Journal of the Korean Ceramic Society / v.49, no.3, 2012 , pp. 260-265 More about this Journal
Abstract
Impedance spectroscopy was used to monitor the hydration in the electrical/dielectric behaviors of chemical mechanical planarization (CMP)-blended cement mixtures. The electrical responses were analyzed using their equivalent circuit models, leading to the separation of the bulk and electrode based responses. The role of the CMP slurry was monitored as a function of the relative compositions of the CMP-blended cements, i.e. water, CMP slurry, and ordinary Portland cement. The presence of $Al_2O_3$ nanocrystals in the CMP slurries appeared to accelerate the hydration process, along with a more tortuous microstructure in the hydration, with enhanced hydration products. The frequency-dependent impedance spectroscopy was proven to be a highly efficient approach for evaluating the electrical/dielectric monitoring of the change in the pore structure evolution that occurs in CMP-blended cements.
Keywords
Ordinary portland cements; CMP slurry; Hydration; Impedance spectroscopy; Electrical/dielectric properties;
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  • Reference
1 M. D. G. de Luna, Warmadewanthi, and J. C. Liu. "Combined Treatment of Polishing Wastewater and Fluoridecontaining Wastewater from a Semiconductor Manufacturer," Colloid Surf., A347 64-8 (2009).
2 T.-C. Lee, K.-L. Lin, X.-W. Su, and K.-K. Lin, "Recycling CMP Sludge as a Resource in Concrete," Tzen-Chin Construt. Build. Mater., 30 243-51 (2012).   DOI
3 B. J. Christensen, R. T. Coverdale, R. A. Olson, S. J. Ford, E. J. Garboczi, H. M. Jennings, and T. O. Mason, "Impedance Spectroscopy of Hydrating Cement-Based Materials: Measurement, Interpretation, and Application," J. Am. Ceram. Soc., 77 [11] 2789-804 (1994).   DOI   ScienceOn
4 P. Gu, P. Xie, J. J. Beaudoin, and R. Brousseau, "A. C. Impedance Spectroscopy (I): A New Equivalent Circuit Model for Hydrated Portland Cement Paste," Cement Concrete Res., 22 833-40 (1992).   DOI
5 P. Xie, P. Gu, Z. Xu, and J. J. Beaudoin, "A Rationalized A. C. Impedance Model for Microstructural Characterization of Hydrating Cement Systems," Cement Concrete Res., 23 359-67 (1993).   DOI
6 N. Bonanos, B. C. H. Steele, E. P. Butler, J. R. Macdonald, W. B. Johnson, W. L. Worrell, D. D. Macdonald and M. C. H. MaKubre, E. Barsoukov, B. E. Conway, and N. Wagner, "Impedance Spectroscopy Theory, Experiment, and Applications," pp. 205-537, Ed. by E. Barsoukov and J. R. Macdonald, Wiley, New York, 2005.
7 D. S. McLachlan, M. B. Blazkiewicz, and R. E. Newnham, "Electrical Resistivity of Composites," J. Am. Ceram. Soc., 73 [8] 2187-203 (1990).   DOI
8 S. J. Ford, J.-H. Hwang, J. D. Shane, R. A. Olson, G. M. Moss, H. M. Jennings, and T. O. Mason, "Dielectric Amplification in Cement Pastes," Adv. Cement Based Mater., 5 41-48 (1997).   DOI
9 P. R. Camp and S. Bilotta, "Dielectric Properties of Portland Cement Paste as a Function of Time since Mixing," J. Appl. Phys., 66 6007-13 (1989).   DOI
10 R. I. A. Malek, D. M. Roy, and Y. Fang, "Pore Structure, Permeability, and Chloride Diffusion in Fly Ash-And Slag-Containing Pastes and Mortars," MRS Proceedings, 137 403-10 (1988).