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Characterization of composition and structure of clay minerals in sandstone with ptychographic X-ray nanotomography
https://orcid.org/0000-0002-1574-1456
https://orcid.org/0000-0002-5478-4141
Abstract Three-dimensional analysis of microporous and fine-grained particles in natural stone is important for understanding their internal fluid flow processes and to allow their internal dynamics to be modeled. These processes are of great interest in oil, gas and groundwater studies, as well as for the weathering of natural building materials. For features above 1μm methods such as X-ray micro-computed tomography (μ-CT) can provide non-destructive, quantitative analysis. Non-destructive 3D imaging at resolutions below 300–400nm, however, has remained a challenge until recent developments at synchrotron beam lines. In this paper we visualize the microstructure of clay mineral samples extracted from two different sandstones at 3D spatial resolutions down to 45nm, using ptychographic X-ray computed tomography (PXCT). Furthermore, the relative humidity of the environment during these experiments was controlled in order to assess its influence on the analyzed samples. Based on these high-quality images, we were able to acquire non-destructively quantitative 3D information on mineral content and distribution, porosity and connectivity of clay mineral clusters inside sandstone.
Highlights We show high-resolution 3D imaging of clay minerals extracted from sandstones. Resolutions up to 45nm were obtained. Samples were imaged non-destructively. The behavior of the clay minerals under changing relative humidity could be studied. The images provided chemical information about the composition of the clay minerals.
Characterization of composition and structure of clay minerals in sandstone with ptychographic X-ray nanotomography
https://orcid.org/0000-0002-1574-1456
https://orcid.org/0000-0002-5478-4141
Abstract Three-dimensional analysis of microporous and fine-grained particles in natural stone is important for understanding their internal fluid flow processes and to allow their internal dynamics to be modeled. These processes are of great interest in oil, gas and groundwater studies, as well as for the weathering of natural building materials. For features above 1μm methods such as X-ray micro-computed tomography (μ-CT) can provide non-destructive, quantitative analysis. Non-destructive 3D imaging at resolutions below 300–400nm, however, has remained a challenge until recent developments at synchrotron beam lines. In this paper we visualize the microstructure of clay mineral samples extracted from two different sandstones at 3D spatial resolutions down to 45nm, using ptychographic X-ray computed tomography (PXCT). Furthermore, the relative humidity of the environment during these experiments was controlled in order to assess its influence on the analyzed samples. Based on these high-quality images, we were able to acquire non-destructively quantitative 3D information on mineral content and distribution, porosity and connectivity of clay mineral clusters inside sandstone.
Highlights We show high-resolution 3D imaging of clay minerals extracted from sandstones. Resolutions up to 45nm were obtained. Samples were imaged non-destructively. The behavior of the clay minerals under changing relative humidity could be studied. The images provided chemical information about the composition of the clay minerals.
Characterization of composition and structure of clay minerals in sandstone with ptychographic X-ray nanotomography
https://orcid.org/0000-0002-1574-1456
https://orcid.org/0000-0002-5478-4141
Abstract Three-dimensional analysis of microporous and fine-grained particles in natural stone is important for understanding their internal fluid flow processes and to allow their internal dynamics to be modeled. These processes are of great interest in oil, gas and groundwater studies, as well as for the weathering of natural building materials. For features above 1μm methods such as X-ray micro-computed tomography (μ-CT) can provide non-destructive, quantitative analysis. Non-destructive 3D imaging at resolutions below 300–400nm, however, has remained a challenge until recent developments at synchrotron beam lines. In this paper we visualize the microstructure of clay mineral samples extracted from two different sandstones at 3D spatial resolutions down to 45nm, using ptychographic X-ray computed tomography (PXCT). Furthermore, the relative humidity of the environment during these experiments was controlled in order to assess its influence on the analyzed samples. Based on these high-quality images, we were able to acquire non-destructively quantitative 3D information on mineral content and distribution, porosity and connectivity of clay mineral clusters inside sandstone.
Highlights We show high-resolution 3D imaging of clay minerals extracted from sandstones. Resolutions up to 45nm were obtained. Samples were imaged non-destructively. The behavior of the clay minerals under changing relative humidity could be studied. The images provided chemical information about the composition of the clay minerals.
Characterization of composition and structure of clay minerals in sandstone with ptychographic X-ray nanotomography
De Boever, Wesley (author) / Diaz, Ana (author) / Derluyn, Hannelore (author) / De Kock, Tim (author) / Van Stappen, Jeroen (author) / Dewanckele, Jan (author) / Bultreys, Tom (author) / Boone, Matthieu (author) / De Schryver, Thomas (author) / Skjønsfjell, Eirik T.B. (author)
Applied Clay Science ; 118 ; 258-264
2015-09-30
7 pages
Article (Journal)
Electronic Resource
English
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