His primary areas of investigation include Porosity, Mineralogy, Geotechnical engineering, Mechanics and Compaction. His work deals with themes such as Pore water pressure, Condensed matter physics and Overburden pressure, which intersect with Porosity. His biological study spans a wide range of topics, including Electrical measurements, SLATES, Bulk modulus and Constant.
His research on Geotechnical engineering focuses in particular on Permeability. The Mechanics study combines topics in areas such as Isotropy, Poromechanics and Anisotropy. His Compaction research integrates issues from Shear, Cataclastic rock and Acoustic emission.
Yves Guéguen mostly deals with Porosity, Composite material, Geotechnical engineering, Mineralogy and Mechanics. His study explores the link between Porosity and topics such as Compaction that cross with problems in Shear, Petrology and Compression. The various areas that he examines in his Composite material study include Pore water pressure and Overburden pressure.
Yves Guéguen has researched Geotechnical engineering in several fields, including Fluid dynamics and Crack closure. His Mineralogy research includes themes of Dispersion, Dispersion, Elastic modulus, Attenuation and Microstructure. The study incorporates disciplines such as Isotropy, Pressure solution, Poromechanics and Anisotropy in addition to Mechanics.
His primary areas of study are Composite material, Mineralogy, Porosity, Carbonate rock and Brittleness. In Composite material, he works on issues like Overburden pressure, which are connected to Differential stress. He has included themes like Attenuation and Dispersion in his Mineralogy study.
The concepts of his Porosity study are interwoven with issues in Compressibility and Elastic modulus. Yves Guéguen combines subjects such as Microstructure and Diagenesis with his study of Carbonate rock. His Brittleness research incorporates elements of Creep, Geotechnical engineering and Plasticity.
His primary scientific interests are in Composite material, Brittleness, Overburden pressure, Mineralogy and Shear. His work carried out in the field of Brittleness brings together such families of science as Stress relaxation, Geochemistry, Creep, Microstructure and Diffusion creep. His Mineralogy study combines topics from a wide range of disciplines, such as Dispersion, Attenuation, Pore water pressure, Viscoelasticity and Poisson's ratio.
His research in Shear intersects with topics in Structural geology, Fault, Focal mechanism, Slip and Anisotropy. Within one scientific family, he focuses on topics pertaining to Geotechnical engineering under Stress, and may sometimes address concerns connected to Overdetermined system, Compressibility and Mechanics. His Poromechanics research is classified as research in Porosity.
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Introduction to the physics of rocks
Yves Gueguen;Victor Palciauskas;Raymond Jeanloz.
SP-Mylonites: Origin of some mylonites by superplastic flow
A. M. Boullier;Y. Gueguen.
Contributions to Mineralogy and Petrology (1975)
Transport properties of rocks from statistics and percolation
Y. Gueguen;J. Dienes.
Mathematical Geosciences (1989)
Electrical spectroscopy of porous rocks: a review—I. Theoretical models
T. L. Chelidze;Y. Gueguen.
Geophysical Journal International (1999)
Acoustic emission and velocities associated with the formation of compaction bands in sandstone
Jérôme Fortin;Sergei Stanchits;Georg Dresen;Yves Guéguen.
Journal of Geophysical Research (2006)
Elastic wave velocities and permeability evolution during compaction of Bleurswiller sandstone
J. Fortin;A. Schubnel;Y. Guéguen.
International Journal of Rock Mechanics and Mining Sciences (2005)
Effects of pore collapse and grain crushing on ultrasonic velocities and Vp/Vs
Jérôme Fortin;Yves Guéguen;Alexandre Schubnel.
Journal of Geophysical Research (2007)
Electrical spectroscopy of porous rocks: a review—II. Experimental results and interpretation
T. L. Chelidze;Y. Gueguen;C. Ruffet.
Geophysical Journal International (1999)
Complex conductivity measurements and fractal nature of porosity
Clotilde Ruffett;Yves Gueguen;Michel Darot.
Effective medium theory and network theory applied to the transport properties of rock
Christian David;Yves Gueguen;Georges Pampoukis.
Journal of Geophysical Research (1990)
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