High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data

Varslot, Trond; Kingston, Andrew; Myers, Glenn R.; Sheppard, Adrian

doi:10.1118/1.3633900

Cited by 88 publications

(59 citation statements)

References 22 publications

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“…The variation in packing fraction is less than 0.5% for the initial packings reduces to 0.05% for 1500 taps. The resulting packings are imaged by helical x-ray tomography [23][24][25] and the particles positions and orientations are detected in the reconstructed image by a method based on a watershed algorithm [26,27]. Particles close to the boundaries (cylinder walls, top and bottom) are removed from the analysis.…”

Section: Methodsmentioning

confidence: 99%

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

et al. 2017

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Abstract. In this paper, we report experimental results on granular compaction in a model system made of mono-and bidisperse ellipsoidal packings as well as sand packings with grain size polydispersity. The packings are subject to vertical tapping of varying duration (number of taps) and their internal three-dimensional structure is obtained using x-ray computed tomography. Particles positions and orientations are reconstructed and the global packing densities are computed. The analysis of the vertical and horizontal local packing fraction profiles reveal a homogeneous densification in the ellipsoidal packings, however, sand packings exhibit radial density gradient, possibly linked to the onset of convection.

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Section: Methodsmentioning

confidence: 99%

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

et al. 2017

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“…The samples were evaluated using the methods described by Varslot et al (2011) providing images with 2041 2 voxels in the horizontal (X-Y) plane and up to 3500 voxels in the vertical (Z) plane. These tomographic data are represented by cubic arrays of reconstructed linear X-ray attenuation coefficient values with each value corresponding to a separate voxel within the sample.…”

Section: Sampling and Data Evaluationmentioning

confidence: 99%

Experimental Study of High-Temperature Fracture Propagation in Anthracite and Destruction of Mudstone from Coalfield Using High-Resolution Microfocus X-ray Computed Tomography

Xiao

Wang

et al. 2016

Rock Mech Rock Eng

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The coalfield fire is determined by fractures of coal and rock that provide tunnel for gases and heat exchange. To study fracture propagation at high temperatures, high-resolution X-ray computed tomography (CT) was used to scan anthracite and mudstone samples collected from the Qinshui coalfield, Shanxi Province, northern China. The samples were scanned at 100°C intervals as they were subjected to temperatures of up to 500°C. Three-dimensional images were reconstructed by the CT software to analyze changes in the fractures and pores in the samples. The experimental results show that fracturing of anthracite began at 200°C. The generation rate of fractures in the coal samples increases slowly below 300°C, but above 300°C there is a sharp increase in fracture development. This indicates that the thermal fracturing temperature threshold for anthracite is 300°C. During the experiment, it was found that preexisting fractures, voids, and regenerative fractures formed around the hard portions of anthracite particles or along the weak boundaries between particles. Some regenerative fractures developed along the fabric of the relatively crystalline particles within the particle and terminate at the edge of the particle or where the fracture encounters a harder portion of coal. Some fractures even expanded enough to be transformed into voids as temperatures rose. In the mudstone, the porosity changed suddenly at 300°C. This indicated that there was a void generated at 200°C, but the void expanded when the temperature was increased. However, changes in the void were not obvious from 200 to 300°C.

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“…This is the only facility in the world performing helical mCT imaging with theoretically exact reconstruction methods at very high cone angles (Varslot et al 2011). This mCT system routinely images at 2 mm resolution.…”

Section: Introductionmentioning

confidence: 99%

“…mCT systems typically achieve resolutions in the range of 50 mm down to 0.5 mm (Varslot et al 2011). Pixels (2D) and voxels (3D) represent the relative radio density, or relative attenuation, of Xrays through the imaged material (Novelline 1997).…”

Section: Introductionmentioning

confidence: 99%

3D characterisation of potential CO₂ reservoir and seal rocks

Golab¹,

Romeyn

Averdunk

et al. 2012

Australian Journal of Earth Sciences

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High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data

Abstract: Autofocus-corrected, theoretically-exact cone-beam reconstruction is a viable option for reducing acquisition time in high-resolution micro-CT imaging. It also opens up the possibility of efficiently imaging long objects.

Cited by 88 publications

References 22 publications

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

Experimental Study of High-Temperature Fracture Propagation in Anthracite and Destruction of Mudstone from Coalfield Using High-Resolution Microfocus X-ray Computed Tomography

3D characterisation of potential CO₂ reservoir and seal rocks

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High-resolution helical cone-beam micro-CT with theoretically-exact reconstruction from experimental data

Abstract: Autofocus-corrected, theoretically-exact cone-beam reconstruction is a viable option for reducing acquisition time in high-resolution micro-CT imaging. It also opens up the possibility of efficiently imaging long objects.

Cited by 88 publications

References 22 publications

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

Towards minimal models for realistic granular materials: Tomographic analysis of bidispersed assemblies of ellipsoids

Experimental Study of High-Temperature Fracture Propagation in Anthracite and Destruction of Mudstone from Coalfield Using High-Resolution Microfocus X-ray Computed Tomography

3D characterisation of potential CO2 reservoir and seal rocks

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3D characterisation of potential CO₂ reservoir and seal rocks