Nobufumi Takeda scite author profile

Tortuosity, as being influenced by the 3D pore micro-geometry, is an important physical quantity to understand better the effect of pore structure on transport properties of cement-based materials. This study attempts to evaluate directly this pore structure-transport parameter from the microtomographic images at spatial resolution of 0.5 µm. This resolution, is by far, to our knowledge, the highest resolution reported for 3D non-invasive imaging of hardened cement pastes. The results show the feasibility of using synchrotron microtomography coupled with 3D image analysis and random walk simulation to measure the diffusion tortuosity that has a direct bearing on transport properties. The tortuosity associated with the percolating pore space seems to reflect the pore morphology that mainly controls the transport properties in young cement pastes; thus, explaining the rough agreement of the results with the computer model or experimental evidence.

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Characterizing the 3D Pore Structure of Hardened Cement Paste with Synchrotron Microtomography

Promentilla

Sugiyama

Hitomi

et al. 2008

ACT

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Aside from porosity, the degree of pore connectivity and tortuosity are important pore structure characteristics of cement-based materials to understand better the effect of microstructure on transport processes that influence the durability of these materials. Synchrotron X-ray computed microtomography is employed to provide information about the three-dimensional (3D) pore structure at submicron resolution (0.5 µm/voxel) using the SPring-8 facility in Hyogo, Japan. This paper presents a method to characterize the pore space of hardened cement pastes taken from different specimens of various ages (2, 7, and 28 days) of curing. By defining the pore threshold value on the basis of the transition point in the porosity-threshold dependency curve, the pores were distinguished from the solid matrix in the microtomographic images. Further, pore cluster multiple labeling was performed to gain information on the pore connectivity and the associated effective porosity. 3D random walk simulation in the largest percolating pore cluster was then conducted to evaluate the diffusion tortuosity. The results from this study provide indications of increasing diffusion tortuosity as pores that can be resolved by the X-ray imaging system decreased and became more disconnected. Sensitivity analysis to pore threshold value was performed to evaluate the robustness of the method.

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Application of synchrotron microtomography for pore structure characterization of deteriorated cementitious materials due to leaching

Sugiyama

Promentilla

Hitomi

et al. 2010

Cement and Concrete Research

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Concrete Mixed with Seawater

Takeda¹,

Otsuki²

2016

Concrete Journal

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Study on effect of fine structure of cement hydrate by Calcium leaching using X-ray CT

Hitomi¹,

Iriya²,

Takeda³

2008

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Nobufumi Takeda

Quantification of tortuosity in hardened cement pastes using synchrotron-based X-ray computed microtomography

Characterizing the 3D Pore Structure of Hardened Cement Paste with Synchrotron Microtomography

Application of synchrotron microtomography for pore structure characterization of deteriorated cementitious materials due to leaching

Concrete Mixed with Seawater

Study on effect of fine structure of cement hydrate by Calcium leaching using X-ray CT

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