Jukka Kuva scite author profile

Because cracks control the global mechanical and transport properties of crystalline rocks, it is of a crucial importance to suitably determine their aperture distribution, which evolves through alteration processes and rock weathering. Due to the high variability of crack networks in rocks, a multiscale approach is needed. The 14 C-PMMA (polymethylmethacrylate) method was developed to determine crack apertures using a set of artificial crack samples with different controlled apertures and tilt angles and also using Monte Carlo simulations. The experiments and simulations show the same result: the estimation of apparent aperture w A was successful regardless of tilt angle, even if the estimates are less accurate for low tilt angles (<30°). The uncertainties on the estimation of the real crack aperture w R arise from the unknown tilt angle. The ability of the 14 C-PMMA autoradiography method to estimate crack aperture distributions in rock samples was successfully confirmed on a sample of Grimsel granodiorite.

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Development and experimental validation of a texture-based 3D liberation model

Guntoro

Ghorbani

Parian

et al. 2021

Minerals Engineering

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Microstructure, porosity and mineralogy around fractures in Olkiluoto bedrock

Kuva

Siitari-Kauppi

Lindberg

et al. 2012

Engineering Geology

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Incorporation of bioleached sulfidic mine tailings in one-part alkali-activated blast furnace slag mortar

Niu

Helser

Corfe

et al. 2022

Construction and Building Materials

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Verification of a simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

Kuva¹,

Hellmuth²,

Sardini³

et al. 2015

j coupled syst multiscale dyn

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Imaging connected porosity of crystalline rock by contrast agent‐aided X‐ray microtomography and scanning electron microscopy

Kuva

Sammaljärvi

Parkkonen

et al. 2017

Journal of Microscopy

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We set out to study connected porosity of crystalline rock using X-ray microtomography and scanning electron microscopy with energy dispersive X-ray spectroscopy (SEM-EDS) with caesium chloride as a contrast agent. Caesium is an important radionuclide regarding the final deposition of nuclear waste and also forms dense phases that can be readily distinguished by X-ray microtomography and SEM-EDS. Six samples from two sites, Olkiluoto (Finland) and Grimsel (Switzerland), where transport properties of crystalline rock are being studied in situ, were investigated using X-ray microtomography and SEM-EDS. The samples were imaged with X-ray microtomography, immersed in a saturated caesium chloride (CsCl) solution for 141, 249 and 365 days and imaged again with X-ray microtomography. CsCl inside the samples was successfully detected with X-ray microtomography and it had completely penetrated all six samples. SEM-EDS elemental mapping was used to study the location of caesium in the samples in detail with quantitative mineral information. Precipitated CsCl was found in the connected pore space in Olkiluoto veined gneiss and in lesser amounts in Grimsel granodiorite. Only a very small amount of precipitated CsCl was observed in the Grimsel granodiorite samples. In Olkiluoto veined gneiss caesium was found in pinitised areas of cordierite grains. In the pinitised areas caesium was found in notable excess compared to chloride, possibly due to the combination of small pore size and negatively charged surfaces. In addition, elevated concentrations of caesium were found in kaolinite and sphalerite phases. The findings concerning the location of CsCl were congruent with X-ray microtomography.

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A simplified simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

Sardini¹,

Kuva²,

Siitari-Kauppi³

et al. 2014

j coupled syst multiscale dyn

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Jukka Kuva

Gas Phase Measurements of Porosity, Diffusion Coefficient, and Permeability in Rock Samples from Olkiluoto Bedrock, Finland

Determining Crack Aperture Distribution in Rocks Using the ¹⁴C‐PMMA Autoradiographic Method: Experiments and Simulations

Development and experimental validation of a texture-based 3D liberation model

Microstructure, porosity and mineralogy around fractures in Olkiluoto bedrock

Incorporation of bioleached sulfidic mine tailings in one-part alkali-activated blast furnace slag mortar

Verification of a simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

Imaging connected porosity of crystalline rock by contrast agent‐aided X‐ray microtomography and scanning electron microscopy

A simplified simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

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Jukka Kuva

Gas Phase Measurements of Porosity, Diffusion Coefficient, and Permeability in Rock Samples from Olkiluoto Bedrock, Finland

Determining Crack Aperture Distribution in Rocks Using the 14C‐PMMA Autoradiographic Method: Experiments and Simulations

Development and experimental validation of a texture-based 3D liberation model

Microstructure, porosity and mineralogy around fractures in Olkiluoto bedrock

Incorporation of bioleached sulfidic mine tailings in one-part alkali-activated blast furnace slag mortar

Verification of a simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

Imaging connected porosity of crystalline rock by contrast agent‐aided X‐ray microtomography and scanning electron microscopy

A simplified simulation approach for estimating crack aperture using <SUP>14</SUP>C-PMMA method

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Product

Resources

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Determining Crack Aperture Distribution in Rocks Using the ¹⁴C‐PMMA Autoradiographic Method: Experiments and Simulations