Application of X-ray computed tomography in characterization microstructure changes of cement pastes in carbonation process

Jiande Han; Wei Sun; Ganghua Pan; Caihui Wang; Hui Rong

doi:10.1007/s11595-012-0466-7

Journal of Wuhan University of Technology Materials Science Edition ›› 2012, Vol. 27 ›› Issue (2) : 358 -363. DOI: 10.1007/s11595-012-0466-7

Article

Application of X-ray computed tomography in characterization microstructure changes of cement pastes in carbonation process

Jiande Han ¹^,²
, Wei Sun ¹^,²^,^{^b}
, Ganghua Pan ¹^,²
, Caihui Wang ¹^,²
, Hui Rong ¹^,²

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Abstract

The microstructure characteristics and meso-defect volume changes of hardened cement paste before and after carbonation were investigated by three-dimensional (3D) X-ray computed tomography (XCT), where three types water-to-cement ratio of 0.53, 0.35 and 0.23 were considered. The high-resolution 3D images of microstructure and filtered defects were reconstructed by an XCT VG Studio MAX 2.0 software. The mesodefect volume fractions and size distribution were analyzed based on 3D images through add-on modules of 3D defect analysis. The 3D meso-defects volume fractions before carbonation were 0.79%, 0.38% and 0.05% corresponding to w/c ratio=0.53, 0.35 and 0.23, respectively. The 3D meso-defects volume fractions after carbonation were 2.44%, 0.91% and 0.14% corresponding to w/c ratio=0.53, 0.35 and 0.23, respectively. The experimental results suggest that 3D meso-defects volume fractions after carbonation for above three w/c ratio increased significantly. At the same time, meso-cracks distribution of the carbonation shrinkage and gray values changes of the different w/c ratio and carbonation reactions were also investigated.

Keywords

X-ray CT / cement paste / carbonation / microstructure changes / 3D meso-defect analysis

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Jiande Han, Wei Sun, Ganghua Pan, Caihui Wang, Hui Rong. Application of X-ray computed tomography in characterization microstructure changes of cement pastes in carbonation process. Journal of Wuhan University of Technology Materials Science Edition, 2012, 27(2): 358-363 DOI:10.1007/s11595-012-0466-7

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References

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[1]	Papadakis V. G., Vayenas C. G., Fardis M. N. Fundamental Modeling and Experimental Investigation of Concrete Carbonation [J]. ACI Materials Journal, 1991, 88(4): 363-373.

[2]	Papadakis V. G., Vayenas C. G., Fardis M. N. Experimental Investigation and Mathematical Modeling of the Concrete Carbonation Problems [J]. Chemical Engineering Science, 1991, 46(5–6): 1 333-1 338.

[3]	Rattanasak U., Kendall K. Pore Structure of Cement / Pozzolan Composites by X-Ray Microtomography [J]. Cement and Concrete Research, 2005, 35(4): 637-640.

[4]	Gallucci E., Scrivener K., Groso A., . 3D Experimental Investigation of the Microstructure of Cement Pastes Using Synchrotron X-Ray Microtomography (uCT) [J]. Cement and Concrete Research, 2007, 37(3): 360-368.

[5]	Rougelot T., Burlion N., Bernard D., . About Microcracking due to Leaching in Cementitious Composites: X-Ray Microtomography Description and Numerical Approach [J]. Cement and Concrete Research, 2010, 40(2): 271-283.

[6]	Landis E. N., Nagy E. N., Keane D. T. Microstructure and Fracture in Three Dimensions [J]. Journal of Engineering Mechanics, 2003, 70(7): 911-925.

[7]	Stock S. R., Naik N. K., Wilkinson A. P. X-Ray Microtomography (Micro CT) of the Progression of Sulfate Attack of Cement Paste [J]. Cement and Concrete Research, 2002, 32(10): 1673-1675.

[8]	Bentz D. P., Mizell S., Satterfield S., . The Visible Cement Data Set [J]. Journal of Research of the National Institute of Standards and Technology, 2002, 107(2): 137-148.

[9]	Gommes C. J., Bons A. J., Blacher S., . Practical Methods for Measuring the Tortuosity of Porous Materials from Binary or Gray-Tone Tomographic Reconstructions [J]. AIChE Journal, 2009, 55(8): 2 000-2 012.

[10]	Flannery B. P., Deckman H. W., Roberge W. G., . Three-Dimensional X-Ray Microtomography [J]. Science, 1987, 237(4821): 1439-1443.

[11]	Lu S., Landis E. N., Keane D. T. X-Ray Microtomographic Studies of Pore Structure and Permeability in Portland Cement Concrete [J]. Materials and Structures, 2006, 39(6): 611-620.

[12]	Guo L. P., Carpinteri A., Sun W., . Measurement and Analysis of Defects in High-Performance Concrete with Three-Dimensional Micro-Computer Tomography [J]. Journal of Southeast University (English Edition), 2009, 25(1): 83-88.

[13]	Mori S., Endo M., Komatsu S., . A Combination-Weighted Feldkamp-Based Reconstruction Algorithm for Cone-Beam CT [J]. Physics in Medicine and Biology, 2006, 51(16): 3953-3965.

[14]	Thiery M., Villain G., Dangla P., . Investigation of the Carbonation Front Shape on Cementitious Materials: Effects of the Chemical Kinetics [J]. Cement and Concrete Research, 2007, 37(7): 1047-1058.