Avizo (logiciel)

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(Redirigé depuis Avizo (software))
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Avizo
Description de l'image Avizo 3D imaging and analysis software logo.jpg.
Description de l'image Avizo-fire GUI.png.
Informations
Développé par Thermo Fisher Scientific
Dernière version 2020.3 ()
Interface QtVoir et modifier les données sur Wikidata
Environnement Linux, Mac OS X, Microsoft Windows
Langues Anglais
Type Science
Infographie
Infographie tridimensionnelleVoir et modifier les données sur Wikidata
Licence Propriétaire
Site web www.vsg3d.comVoir et modifier les données sur Wikidata

modifier - modifier le code - voir Wikidata (aide) Consultez la documentation du modèle

Avizo est un logiciel commercial pour la visualisation et l'analyse de données scientifiques et industrielles.

Avizo est supporté par Thermo Fisher Scientific. Le logiciel a été initialement conçu par le groupe de visualisation et d'analyse des données du Zuse Institute Berlin (ZIB) sous le nom Amira.

Avizo a été lancé en novembre 2007.

Aperçu[modifier | modifier le code]

Évaluation de la quantité de mousse métallique.
Maillage basé sur une image 3D pour l'analyse Mécanique des fluides numérique par la méthode des éléments finis d'une pièce mécanique.

Avizo est une application logicielle qui permet aux utilisateurs d'effectuer une visualisation interactive et des calculs sur des ensembles de données 3D.

L'interface Avizo utilise une programmation visuelle. Les utilisateurs manipulent les données et les composants du module dans une arborescence ou dans une représentation graphique interactive (appelée Pool).

Les données et les modules peuvent être connectés ensemble de manière interactive et contrôlés par plusieurs paramètres, créant un réseau de traitement visuel dont la sortie est affichée dans une visionneuse 3D.

Perméamètre virtuel pour le calcul de la perméabilité absolue.

Grâce à la visionneuse, des données complexes peuvent être explorées et analysées de manière interactive en appliquant une séquence contrôlée de processus de calcul et d'affichage résultant en une représentation visuelle et des données associées significatifs.

Exemples d'application[modifier | modifier le code]

Avizo a été conçu pour prendre en charge différents types d'applications et de flux de travail, du traitement de données d'image 2D et 3D aux simulations. C'est un outil de visualisation polyvalent et personnalisable utilisé dans de nombreux domaines :

Caractéristiques[modifier | modifier le code]

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Cet article contient une ou plusieurs listes ().

Ces listes gagneraient à être rédigées sous la forme de paragraphes synthétiques, plus agréables à la lecture, les listes pouvant être aussi introduites par une partie rédigée et sourcée, de façon à bien resituer les différents items.
D'autre part, Wikipédia n'a pas pour rôle de constituer une base de données et privilégie un contenu encyclopédique plutôt que la recherche de l'exhaustivité.

Importation de données[modifier | modifier le code]

Visualisation des données 2D / 3D[modifier | modifier le code]

[79],[80]

Traitement d'image[modifier | modifier le code]

[90],[91],[92],[93],[94],[95],[96],[97]

Reconstruction de modèles 3D[modifier | modifier le code]

[110],[111],[112],[113],[114],[115],[116],[117]

  • Génération de surfaces polygonales à partir d’objets segmentés [118]
  • Génération de grilles tétraédriques [119]
  • Reconstruction de surface à partir de nuages de points
  • Squelettisation (reconstruction d'un réseau dendritique, poreux ou fracturé) [120],[121],[122]
  • Simplification du modèle de surface

Quantification et analyse[modifier | modifier le code]

[123],[124],[125],[126],[127],[128],[129],[130],[131],[132]

Calcul des propriétés des matériaux, à partir d'images 3D[modifier | modifier le code]

  • Perméabilité absolue
  • Conductivité thermique
  • Diffusivité moléculaire
  • Résistivité électrique / facteur de formation

Maillage basé sur une image 3D pour la mécanique des fluides numérique pour la méthode des éléments finis[modifier | modifier le code]

[140]

  • À partir des modalités d'imagerie 3D (TDM, micro-tomodensitométrie, IRM, etc. )[141],[142]
  • Génération de maillages surfaciques et volumiques [143]
  • Exportation vers des solveurs d'éléments finis et de mécanique des fluides
  • Post-traitement pour l'analyse de simulation

Présentation, automatisation[modifier | modifier le code]

Avizo est basé sur les boîtes à outils graphiques Open Inventor 3D (FEI Visualization Sciences Group).

Références[modifier | modifier le code]

  1. (en) « LSU Honors Class 3035, Spring'11, Student Project Showcase », sur Louisiana State University, USA (consulté le ).
  2. (en) Stephanie Maiolino, Doug M. Boyer, Jonathan I. Bloch, Christopher C. Gilbert et Joseph Groenke, « Evidence for a Grooming Claw in a North American Adapiform Primate: Implications for Anthropoid Origins. », PLoS ONE 7(1): e29135.,‎ (DOI 10.1371/journal.pone.0029135).
  3. Morris, R. A., Wang, B., Butts, D. and Thompson, G. B. (2012), Variations in Tantalum Carbide Microstructures with Changing Carbon Content. International Journal of Applied Ceramic Technology. DOI 10.1111/j.1744-7402.2012.02761.x
  4. In situ observations of microscale damage evolution in unidirectional natural fibre composites, by Morten Rask (a), Bo Madsen (a), Bent F. Sørensen (a), Julie L. Fife (b), Karolina Martyniuk (a), Erik M. Lauridsen (a) - (a) Department of Wind Energy, Section of Composites and Materials Mechanics, Technical University of Denmark, Risø Campus (Denmark), (b) Swiss Light Source, Villigen (Switzerland)
  5. 3D Imaging and Metrology of Yttria Dispersoids in INCOLOY MA956 by Electron Tomography, by Adam Kruk et al., 2012, Solid State Phenomena, 186, 37
  6. Three-Dimensional Visualization and Metrology of Nanoparticles in Inconel 718 by Electron Tomography, by Krzysztof Kulawik et al., 2012, Solid State Phenomena, 186, 45
  7. 3D Imaging of Strengthening Particles in Cr-V-Mo (13HMF) Steel Using FIB/SEM Tomography, by Władysław Osuch et al., 2012, Solid State Phenomena, 186, 41
  8. On the interest of synchrotron X-ray imaging for the study of solidification in metallic alloys / De lʼintérêt de lʼimagerie X synchrotron pour lʼétude de la solidification dʼalliages métalliques, by Henri Nguyen-Thi (a, b), Luc Salvo (c), Ragnvald H. Mathiesen (d), Lars Arnberg (e), Bernard Billia (a, b), Michel Suery (c), Guillaume Reinhart (a, b) - (a) Aix Marseille University, IM2NP (France), (b) CNRS, IM2NP (France ), (c) Université de Grenoble – CNRS, laboratoire SIMAP-GPM2 (France), (d) Department of Physics, NTNU, Trondheim (Norway ), (e) Department of Materials Technology, NTNU, Trondheim (Norway)
  9. Relations entre la microstructure 3D et les propriétés mécaniques dans des réfractaires électrofondus à très haute teneur en zircone, by Yang Dinga (b), Michel Boussuge (a), Michel Gaubil (b), Samuel Forest (a), Ludovic Massard (b), Isabelle Cabodi (b), Sylvain Gailliègue (a) - (a) Centre des Matériaux, MINES-ParisTech, Evry (France), (b) Saint-Gobain CREE, Cavaillon (France)
  10. Topological Analysis of Martensite Morphology in Dual-Phase Steels, by N Sato, M Ojima, S Morooka, Y Tomota… - Advanced Materials Research, 2012
  11. Exploring capillary trapping efficiency as a function of interfacial tension, viscosity, and flow rate, (1) School of Chemical, Biological and Environmental Engineering, Oregon State University, Corvallis, Oregon, USA, (2) School of Environmental and Rural Sciences, University of New England, NSW, Australia, (3) Earth and Environmental Sciences Division (EES), Los Alamos National Laboratory, Los Alamos, New Mexico, USA.« Archived copy » [archive du ] (consulté le )
  12. PRÉCIPITATION DU BORE DANS LE SILICIUM IMPLANTÉ ET REDISTRIBUTION DU BORE ET PLATINE LORS DE L’INTER-DIFFUSION RÉACTIVE DANS LES FILMS MINCES NICKEL/SILICIUM, by Oana Cojocaru-Mirédin (Rouen University, U.F.R. de Sciences et techniques, France)
  13. Microstructure and CO gas sensing property of Au/SnO2 core–shell structure nanoparticles synthesized by precipitation method and microwave–assisted hydrothermal synthesis method, by T Yanagimoto, YT Yu… - Sensors and Actuators B: Chemical, 2011
  14. Microbialite development patterns in the last deglacial reefs from Tahiti (French Polynesia; IODP Expedition #310): Implications on reef framework architecture, by Claire Seard (a), Gilbert Camoin (a), Yusuke Yokoyama (b, c), Hiroyuki Matsuzaki (d), Nicolas Durand (a), Edouard Bard (a), Sophie Sepulcre (a), Pierre Deschamps (a) - (a) CEREGE, Aix-Marseille Université, Aix-en-Provence (France), (b) Ocean Research Institute and Department of Earth and Planetary Sciences, University of Tokyo (Japan), (c) Institute for Research on Earth Evolution (IFREE), Japan Agency for Marine-Earth Science and Technology (JAMSTEC), Yokosuka (Japan), (d) Department of Nuclear Engineering and Management, University of Tokyo (Japan)
  15. APPLICATIONS OF THE CRACOW X-RAY MICROPROBE IN TOMOGRAPHY, by J. Bielecki, S. Bozek, J. Lekki, Z. Stachura and W.M. Kwiatek (The Henryk Niewodniczanski Institute of Nuclear Physics, Cracow, Poland)
  16. « Archived copy » [archive du ] (consulté le )
  17. High temperature behavior of the metal/oxide interface of ferritic stainless steels, by Jérôme Issartel (a, b), Sébastien Martoia (b), Frédéric Charlot (c), Valérie Parry (a), Guillaume Parry (a), Rafael Estevez (a), Yves Wouters (a) - (a) SIMaP, Grenoble INP/CNRS/UJF (France), (b) Aperam Isbergues Research & Development (France), (c) CMTC, Grenoble INP/CNRS/UJF (France)
  18. 3-D illustration of network orientations of interstitial cells of Cajal subgroups in human colon as revealed by deep-tissue imaging with optical clearing, by Yuan-An Liu (1), Yuan-Chiang Chung (2), Shien-Tung Pan (3), Yung-Chi Hou(2), Shih-Jung Peng (1,4), Pankaj J. Pasricha (5), and Shiue-Cheng Tang(1,4) - (1) Department of Chemical Engineering, National Tsing Hua University; (2) Division of Colorectal Surgery, National Taiwan University Hospital–Hsinchu Branch; (3) Department of Pathology, National Taiwan University Hospital–Hsinchu Branch; (4) Institute of Biotechnology, National Tsing Hua University, Hsinchu, Taiwan; (5) Division of Gastroenterology and Hepatology, Stanford University School of Medicine, Stanford, California
  19. Non-destructive characterization of voids in six flowable composites using swept-source optical coherence tomography, by Amir Nazari(a, b, c), Alireza Sadr(d), Mohammad Ali Saghiri(c), Marc Campillo-Funollet(e), Hidenori Hamba(a), Yasushi Shimada(a), Junji Tagami(a), d, Yasunori Sumi(f) - (a) Graduate School of Medical and Dental Sciences, Tokyo Medical and Dental University (Japan), (b) NICOPE Corporation (Japan), (c) Kamal Asgar Research Center (KARC), Islamic Azad University (Iran), (d) International Research Center for Molecular Science in Tooth and Bone Diseases, Tokyo Medical and Dental University (Japan), (e) School of Dental Medicine, NY (USA), (f) National Hospital for Geriatric Medicine, National Center for Geriatrics and Gerontology (Japan)
  20. 3D Characterisation of Void Distribution in Resin Film Infused Composites - Fabien Léonard(1), Jasmin Stein(1,2), Arthur Wilkinson(2), Philip J. Withers(1), (1)Henry Moseley X-ray Imaging Facility, School of Materials, The University of Manchester, (2)Northwest Composites Centre, School of Materials, The University of Manchester
  21. Assessment by X-ray CT of the effects of geometry and build direction on defects in titanium ALM parts - Fabien Léonard(1), Samuel Tammas-Williams(1,2), Philip B. Prangnell(1), Iain Todd(2), Philip J. Withers(1), (1)Henry Moseley X-ray Imaging Facility, The University of Manchester, (2)University of Sheffield, Department of Materials Science and Engineering
  22. The role of cold work and applied stress on surface oxidation of 304 stainless steel, by S Lozano-Perez, K Kruska, I Iyengar, T Terachi… - Corrosion Science, 2011
  23. Effect of Porosity on the Fatigue Life of a Cast Al Alloy, By Nicolas Vanderesse (a), Jean-Yves Buffière (a), Eric Maire (a), Amaury Chabod (b) - (a) Université de Lyon - INSA de Lyon (France), (b) Centre Technique des Industries de la Fonderie (France)
  24. A VISUAL ANALYTICS APPROACH TO PRELIMINARY TRAJECTORY DESIGN, by Wayne R. Schlei, Kathleen C. Howell - Purdue University, School of Aeronautics and Astronautics (USA)
  25. DATA ACQUISITION FOR A BRIDGE COLLAPSE TEST, by Kurt Veggeberg (National Instruments) - Bridge Model Validation visualization with Avizo « Archived copy » [archive du ] (consulté le )
  26. Upscaling Calcium Carbonate Precipitation Rates from Pore to Continuum Scale, by Catherine Noiriel (a) (b), Carl I. Steefel (b), Li Yang (b), Jonathan Ajo-Franklin (b) - (a) Géosciences Environnement Toulouse, UMR 5533 Université Paul Sabatier/CNRS/IRD/CNES, Toulouse (France), (b) Earth Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA (USA) DOI 10.1016/j.chemgeo.2012.05.014
  27. Wu, X., Schlangen, E. and van der Zwaag, S. (2012), Linking Porosity to Rolling Reduction and Fatigue Lifetime of Hot Rolled AA7xxx Alloys by 3D X-Ray Computed Tomography. Adv. Eng. Mater.. DOI 10.1002/adem.201200087
  28. Evaluation of Asphalt Field Cores with Simple Performance Tester and X-ray Computed Tomography, by Florentina Angela Farca - Division of Highway and Railway Engineering, Department of Transport Science School of Architecture and the Built Environment, Royal Institute of Technology Stockholm (Sweden)
  29. Three-dimensional phase-field simulation of micropore formation during solidification: Morphological analysis and pinching effect, by H. Meidani (a), J.-L. Desbiolles (a), A. Jacot (a, b), M. Rappaz (a) - (a) Computational Materials Laboratory, Institute of Materials, Ecole Polytechnique Fédérale de Lausanne (Switzerland), (b) Calcom ESI SA, Lausanne (Switzerland)
  30. Three-Dimensional Simulation of SOFC Anode Polarization Characteristics Based on Sub-Grid Scale Modeling of Microstructure M Kishimoto, H Iwai, M Saito… - Journal of the Electrochemical Society, 2012
  31. 3D Quantitative Characterization of Nickel-Yttria-stabilized zirconia Solid Oxide Fuel Cell anode Microstructure in Discharge, by Z Jiao, N Shikazono…
  32. Poromechanics Investigation at Pore-scale Using Digital Rock Physics Laboratory, by S Zhang, N Saxena, P Barthelemy, M Marsh… - 2011 « Archived copy » [archive du ] (consulté le )
  33. X-ray tomography of catalyst layer of proton exchange membrane fuel cell, By YUHUNG HSU - The Henry Moseley X-ray Imaging Facility (HMXIF), School of Materials at the University of Manchester, UK
  34. Current status of imaging microbial biofilms in three-dimensional opaque porous media using x-ray microtomography, by Dorthe Wildenschild (1), Gabriel Iltis (1), Ryan Armstrong (1), Yohan Davit (2), James Connolly (3), Robin Gerlach(3), and Brian Wood (1) - (1) School of Chemical, Biological and Environmental Engineering, Oregon State University, (2) Institut de Mecanique des Fluides de Toulouse, Universite de Toulouse, France, (3) Center for Biofilm Engineering Montana State University.
  35. Three-dimensional microstructural modeling of asphalt concrete using a unified viscoelastic–viscoplastic–viscodamage model, by T You, RK Abu Al-Rub, MK Darabi, EA Masad… - Construction and Building …, 2012
  36. CHARACTERIZATION OF HETEROGENEITIES FROM CORE X-RAY SCANS AND BOREHOLE WALL IMAGES IN A REEFAL CARBONATE RESERVOIR: INFLUENCE ON THE POROSITY STRUCTURE, by V. Hebert, C. Garing, P.A. Pezard, P. Gouze, and Y. Maria-Sube (Geosciences Montpellier, CNRS, University of Montpellier 2, Montpellier, France), G. Camoin (CEREGE, CNRS, Aix-en-Provence, France), and P. Lapointe (TOTAL - CSTJF, Pau, France)
  37. 4D imaging of fracturing in organic-rich shales during heating, by PGP in JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 116, B12201, 9 PP., 2011 DOI 10.1029/2011JB008565
  38. Fossilized fungi in subseafloor Eocene basalts - Magnus Ivarsson (1), Stefan Bengtson (1), Veneta Belivanova (2), Marco Stampanoni (3,4), Federica Marone (3) and Anders Tehler (5) - (1) Department of Palaeozoology and Nordic Center for Earth Evolution, Swedish Museum of Natural History, Stockholm, Sweden; (2) Department of Palaeozoology, Swedish Museum of Natural History, Stockholm, Sweden; (3) Swiss Light Source, Paul Scherrer Institute, Villigen, Switzerland; (4) Institute for Biomedical Engineering, University and ETH Zürich, Switzerland; (5) Department of Cryptogamic Botany, Swedish Museum of Natural History, Stockholm, Sweden
  39. Pore formation during dehydration of polycrystalline gypsum observed and quantified in a time-series synchrotron radiation based X-ray micro-tomography experiment, by F. Fusseis (1,2,3), C. Schrank (1,2,3), J. Liu (1,2), A. Karrech (1,4), S. Llana-Funez (5), X. Xiao (6), and K. Regenauer-Lieb (1,2,3,4) - (1) Multi-scale Earth System Dynamics, Perth, Australia, (2) School of Earth and Environment, University of Western Australia, Crawley, Australia, (3) Western Australian Geothermal Centre of Excellence, Perth, Australia, (4) CSIRO Earth Science and Resource Engineering, Kensington, Australia, (5) Departamento de Geologia, Universidad de Oviedo, Oviedo, Spain
  40. Shulakova, V., Pervukhina, M., Müller, T. M., Lebedev, M., Mayo, S., Schmid, S., Golodoniuc, P., De Paula, O. B., Clennell, M. B. and Gurevich, B. (2012), Computational elastic up-scaling of sandstone on the basis of X-ray micro-tomographic images. Geophysical Prospecting. DOI 10.1111/j.1365-2478.2012.01082.x
  41. QUANTITATIVE CHARACTERIZATION OF 3D MELT DISTRIBUTION IN PARTIALLY MOLTEN OLIVINE6BASALT AGGREGATES USING X-RAY SYNCHROTRON MICROTOMOGRAPHY, by Zhu W., Gaetani G. A., Fusseis F. - American Geophysical Union, Fall Meeting 2009, abstract #V33A-2029
  42. IMPROVED METHODOLOGY FOR THE CHARACTERIZATION OF COMPLEX VUGGY CARBONATE, by A. Bersani, B.B. Bam, F. Radaelli and E. Rossi (ENI E&P)« Archived copy » [archive du ] (consulté le )
  43. 3-D imaging and quantification of graupel porosity by synchrotron-based micro-tomography, by F. Enzmann (1), M. M. Miedaner (1), M. Kersten (1), N. von Blohn (1), K. Diehl (1), S. Borrmann (1), M. Stampanoni (2), M. Ammann (2), and T. Huthwelker (2) - (1) Earth System Science Research Centre, Johannes Gutenberg-University, Mainz (Germany), (2) Paul Scherrer Institut, Villigen-PSI, Villigen (Switzerland)
  44. X-Ray Microtomography for Studying 3D Textures of Speleothems Developed inside Historic Walls, by JAVIER MARTÍNEZ-MARTÍNEZ (1,2,*), NICOLETTA FUSI (3), VALENTINA BARBERINI (3), JUAN CARLOS CAÑAVERAS(1,2), GIOVANNI BATTISTA CROSTA (3) - (1) Laboratorio de Petrología Aplicada. Universidad de Alicante (Spain), (2) Dep. Ciencias de la Tierra y del Medio Ambiente. Universidad de Alicante (Spain), (3) Dip. Scienze Geologiche e Geotecnologie. Università degli Studi di Milano–Bicocca (Italia)
  45. PHYSICAL AND MECHANICAL CHARACTERIZATION OF ALTERED VOLCANIC ROCKS FOR THE STABILITY OF VOLCANIC EDIFICES, by Dr. Antonio Pola Villaseñor - Università degli Studi di Milano-Bicocca (Facoltà di Scienze Matematiche, Fisiche, Naturali Dipartimento di Scienze Geologiche e Geotecnologie)
  46. THE CONTROVERSIAL "CAMBRIAN" FOSSILS OF THE VINDHYAN ARE REAL BUT MORE THAN A BILLION YEARS OLD, by Stefan Bengtson(a)(b)(1), Veneta Belivanova(a), Birger Rasmussen(c), and Martin Whitehouse(b)(d) - (a) Department of Palaeozoology and (d) Laboratory for Isotope Geology, Swedish Museum of Natural History, SE-104 05 Stockholm, Sweden;(b) Nordic Center for Earth Evolution, SE-104 05 Stockholm, Sweden; and (c) Department of Applied Geology, Curtin University of Technology, Perth, WA 6845, Australia
  47. VISTA Center, Institute of Archaeology and Antiquity, University of Birmingham, UK « Archived copy » [archive du ] (consulté le )
  48. MAPPING DOGGERLAND: The Mesolithic Landscapes of the Southern North Sea. Archaeopress. Oxford. Gaffney V., Thomson K. and Fitch S. (Eds.) 2007
  49. Modeling of mass transfer and initiation of hygroscopically induced cracks in rice grains in a thermally controlled soaking condition: With dependency of diffusion coefficient to moisture content and temperature – A 3D finite element approach, by Jonathan H. Perez (a), Fumihiko Tanaka (b), Toshitaka Uchino (b) - (a) Graduate School of Bioresource and Bioenvironmental Sciences, Kyushu University (Japan), (b) Faculty of Agriculture, Kyushu University (Japan)
  50. DIFFERENCES IN THREE-DIMENSIONAL STRUCTURE REVEALED BY HIGH RESOLUTION MICRO X-RAY TOMOGRAPHY ARE RELATED TO FRESH AND COOKED MEAT TENDERNESS, by VLAD BRUMFELD* AND DAVID E. GERRARD - Electron Microscopy Unit, The Weizmann Institute of Science Rehovot, ISRAEL AND Department of Animal & Poultry Sciences Virginia Tech USA
  51. Viscoelastic stress-development during drying of corn kernels: a multiscale porous media study from cellular to tissue scales, P S. Takhar, Department of Animal and Food Sciences, International Center for Food Industry Excellence, Texas Tech University, Lubbock, TX (USA) « Archived copy » [archive du ] (consulté le )
  52. High-resolution micro- and nano-CT of soft food materials: InsideFood, by E. Herremans (1), B. E. Verlinden (2), E.Bongaers (3), B. Pauwels (3), E. Jakubczyk (4), P. Estrade(5), P. Verboven(1), B.M.Nicolaï (1,2) - (1) BIOSYST-MeBioS, K.U.Leuven (Belgium), (2) VCBT, Flanders Centre of Postharvest Technology (Belgium), (3) SkyScan (Belgium), (4) SGGW, Warsaw University of Life Sciences, Dep. Food Eng. & Process Management (Poland), (5) VSG, Visualization Sciences Group SAS (France)« Archived copy » [archive du ] (consulté le )
  53. (en) [vidéo] KULMeBioS, Journey to the centre of an apple sur YouTube, (consulté le ).
  54. (en) P.R. Shearing, R.S. Bradley, J. Gelb, F. Tariq, P.J. Withers et N.P. Brandon, « Exploring microstructural changes associated with oxidation in Ni–YSZ SOFC electrodes using high resolution X-ray computed tomography », Solid State Ionics, vol. 216,,‎ , p. 69-72 (ISSN 0167-2738, DOI 10.1016/j.ssi.2011.10.015).
  55. (en) Tina Neset, Jimmy Johansson et Björn-Ola Linnér, « State of Climate Visualization », Centre for Climate Science and Policy Research, no 09:04,‎ (lire en ligne [PDF]).
  56. (en) Peter Westenberger, « Avizo—Three-Dimensional Visualization Framework », dans Geoinformatics Conference, (lire en ligne), p. 13.
  57. Simulation of typhoon Morakot (2009), Chinese winter storms (2008) and hurricane Katrina (2005), By Taiwan Typhoon and Flood Research Institute (TTFRI)
  58. (en) Uri Nachshon, Ebrahim Shahraeeni, Dani Or et Maria Dragila, « Infrared thermography of evaporative fluxes and dynamics of salt deposition on heterogeneous porous surfaces », Water Resources Research, vol. 47, no 12,‎ (DOI 10.1029/2011WR010776).
  59. (en) ZHU AIYU, Zhang Dongning, Yuen Dave A. et Song Shenyi, « Multi-scale Simulation of tsunami from Tohoku Earthquake and Diffracted Tsunami Waves in Hokkaido », sur slideplayer.com.
  60. (en) Yoshitaka Adachi et Yuan Tsung Wang, « Topology of Spheroidized Pearlite », Materials Science Forum, Trans Tech Publications, (DOI 10.4028/www.scientific.net/MSF.654-656.70), p. 70-73.
  61. Evaluation of fracture toughness of small volumes by means of cube-corner nanoindentation, by N. Cuadrado (a), D. Casellas (a, b), M. Anglada (c), E. Jiménez-Piqué (c) - (a) Fundació CTM Centre Tecnològic, Manresa (Spain), (b) Department of Materials Science and Metallurgical Engineering, EPSEM, Universitat Politècnica de Catalunya, Manresa (Spain), (c) Department of Materials Science and Metallurgical Engineering, ETSEIB, Universitat Politècnica de Catalunya, Barcelona (Spain)
  62. POROSITY AND PERMEABILITY ANALYSIS ON NANOSCALE FIB-SEM 3D IMAGING OF SHALE ROCK, By Shawn Zhang (1), Robert E. Klimentidis (2), Patrick Barthelemy (1) - (1) Visualization Sciences Group (VSG), (2) ExxonMobil Upstream Research Co.« Archived copy » [archive du ] (consulté le )
  63. FIB Tomographic Analysis of Subsurface Indentation Crack Interactions with Pores in Alumina, by J. A. Arsecularatne, M. Hoffman, K. O'Kelly, N. Payraudeau - In Journal of the American Ceramic Society, Volume 94, Issue 11, pages 4017–4024, November 2011
  64. N. Vivet, S. Chupin, E. Estrade, T. Piquero, P.L. Pommier, D. Rochais, E. Bruneton, 3D Microstructural characterization of an SOFC anode reconstructed by FIB tomography, Journal of Power Sources (2010), DOI 10.1016/j.jpowsour.2011.03.060
  65. FIB SEQUENTIAL SECTIONING AS A TOOL TO UNDERSTAND ENVIRONMENTAL MATERIALS DEGRADATION IN 3D 材料の環境劣化の3 次元的理解のための手法としての FIB シーケンシャルセクショニング法, by S. Lozano-Perez, NNi, K. Kruska, T. Terachi, and T. Yamada
  66. PHASE CONTINUITY IN HIGH TEMPERATURE Mo-Si-B ALLOYS: A FIB-TOMOGRAPHY STUDY, by O. Hassomeris (a), G. Schumacher (a)*, M. Krüger (b), M. Heilmaier (c), J. Banhart (a) - (a) Helmholtz-Zentrum Berlin für Materialien und Energie GmbH, Berlin, Germany; (b) Otto-von-Guericke Universität Magdeburg, Institute for Materials and Joining Technology, Germany; (c) TU Darmstadt, Materials Science FB 11, Darmstadt, Germany
  67. CrossBeam Nano-Tomography & 3D Analytics in Research, By Dr. Daniel Kraft - Carl Zeiss SMT « Archived copy » [archive du ] (consulté le )
  68. Virtual taphonomy using synchrotron tomographic microscopy reveals cryptic features and internal structure of modern and fossil plants, by Selena Y. Smith (a), Margaret E. Collinson (a), Paula J. Rudall (b), David A. Simpson (c), Federica Marone (d) and Marco Stampanonid (e) - (a) Department of Earth Sciences, Royal Holloway University of London (UK), (b) Jodrell Laboratory, Royal Botanic Gardens (UK), (c) Herbarium, Royal Botanic Gardens (UK), (d) Swiss Light Source, Paul Scherrer Institut (Switzerland), (e) Institute for Biomedical Engineering, University and Eidgenössische Technische Hochschule Zurich (Switzerland)
  69. 3D SYNCHROTRON X-RAY MICROTOMOGRAPHY OF PAINT SAMPLES, Ester S.B. Ferreira (1), Jaap J. Boon (1) (2), Jerre van der Horst (2), Nadim C. Scherrer (1)(3), Federica Marone (4) and Marco Stampanoni (4) - (1) SIK-ISEA, Switzerland; (2) FOM Institute AMOLF, Netherlands; (3) Bern University of Applied Sciences, Switzerland; (4) TOMCAT, Swiss Light Source, Paul Scherrer Institute, Switzerland -« Proceedings » [archive du ] (consulté le )
  70. SEM TECHNOLOGY ADVANCES ENERGY RESEARCH, by Natasha Erdman, Naoki Kikuchi, Regina Campbell, Vernon E. Robertson (JEOL USA Inc.
  71. VISUALIZATION AND ANALYSIS OF THE GREAT SPHINX EROSION, by the VISTA team of Bibliotheca Alexandrina (Cairo, Egypt)« Archived copy » [archive du ] (consulté le )
  72. COMSOLConference 2009: Drying of Corn Kernels: From Experimental Images to Multiscale Multiphysics Modeling, by Pawan S. Takhar (Texas Tech University) and Shuang Zhang (Visualization Sciences Group), 2009
  73. ETUDE DU REFROIDISSEMENT POSTCOULEE DE REFRACTAIRES ELECTROFONDUS RICHES EN ZIRCONE : OPTIMISATION DES PROCEDES ET DES MICROSTRUCTURES, by L. Laurence, Y. Ding, M. Boussuge, D. Ryckelynck, S. Forest, 8th Sept 2009 « Archived copy » [archive du ] (consulté le )
  74. NATIONAL INSTRUMENTS - ENHANCED 3D VISUALIZATION USING THE LABVIEW INTERFACE FOR VSG AVIZO -
  75. ONE-YEAR ANIMATED PLANET SIMULATOR CIRCULATION, by Meteorologisches Institut Universität Hamburg (Germany)« Archived copy » [archive du ] (consulté le )
  76. Visual and Spatial Technology Center (VISTA) (University of Birmingham, UK)« Archived copy » [archive du ] (consulté le )
  77. INTERACTIVE 3D VISUALIZATION IN EARTH SYSTEM RESEARCH, by The German Climate Computing Center (Deutsches Klimarechenzentrum, DKRZ)« Archived copy » [archive du ] (consulté le )
  78. 3D-VISUALISIERING VON DATEN AUS KLIMAMODELLEN, by Carmen Ulmen, Dipl.-Geografin, Akad. Geoinformatikerin KlimaCampus Hamburg, Climate System Analysis and Prediction (CliSAP)
  79. Volume Edit and Thresholding - By Elise Orellana (LSU Honors Class 3035, Spring'11, Student Project Showcase) The Use of Metal Markers In 3D Imaging - By Caroline Blevins (LSU Honors Class 3035, Spring'11, Student Project Showcase) Using 3D Reconstruction to Illustrate the Cranio-cervical Envelope in the Alligator - By Brooke Hopkins (LSU Honors Class 3035, Spring'11, Student Project Showcase) Visualization and Analysis of the Human Shoulder Suspensory Apparatus - By Michelle Osborn (LSU Honors Class 3035, Spring'11, Student Project Showcase)« Archived copy » [archive du ] (consulté le )
  80. 3D Quantification of Plant Root Architecture In Situ, By Suqin Fang, Randy Clark and Hong Liao - Measuring Roots, 2011
  81. Herrel, A., Fabre, A.-C., Hugot, J.-P., Keovichit, K., Adriaens, D., Brabant, L., Van Hoorebeke, L. and Cornette, R. (2012), Ontogeny of the cranial system in Laonastes aenigmamus. Journal of Anatomy. DOI 10.1111/j.1469-7580.2012.01519.x
  82. Helical arrangement of filaments in microvillar actin bundles, by Keisuke Ohta (a), Ryuhei Higashi (b), Akira Sawaguchi (c), Kei-ichiro Nakamura (a) - (a) Division of Microscopic and Developmental Anatomy, Department of Anatomy, Kurume University School of Medicine, Fukuoka (Japan), (b) Electron Microscopic Laboratory, Central Research Unit of Kurume University, Fukuoka (Japan), (c) Department of Anatomy, Ultrastructural Cell Biology, Faculty of Medicine, University of Miyazaki, Miyazaki (Japan)
  83. VISUALISING THE 3D INTERNAL STRUCTURE OF CALCITE SINGLE CRYSTALS GROWN IN AGAROSE HYDROGELS, by Hanying Li (1) Huolin L. Xin (2) David A. Muller (3) Lara A. Estroff (1) - (1) Department of Materials Science and Engineering, (2) Department of Physics, (3) School of Applied and Engineering Physics, Cornell University (NY, USA)
  84. (en) Abderrazak El Albani, Stefan Bengtson, Donald Canfield, Andrey Bekker, Roberto Macchiarelli, Arnaud Mazurier, Emma Hammarlund, Philippe Boulvais, Jean-Jacques Dupuy, Claude Fontaine, Franz Fürsich, F. Gauthier-Lafaye, Philippe Janvier, Emmanuelle Javaux, Frantz Ossa, Anne-Catherine Pierson-Wickmann, Armelle Riboulleau, Paul Sardini, Daniel Vachard et Alain Meunier, « Large colonial organisms with coordinated growth in oxygenated environments 2.1 Gyr ago », Nature, no 466,‎ , p. 100-4 (DOI 10.1038/nature09166).
  85. Characterization Of Nanodevices By STEM Tomography, by O Richard, A Vandooren, GS Kar, P Van Marcke… - AIP Conf. Proc, 2011
  86. Differential attraction and repulsion of Staphylococcus aureus and Pseudomonas aeruginosa on molecularly smooth titanium films, by EP Ivanova, VK Truong, HK Webb, VA Baulin… - Scientific Reports, 2011 WT.mc_id=FBK_SciReports
  87. Mineral and Matrix Components of the Operculum and Shell of the Barnacle Balanus amphitrite: Calcite Crystal Growth in a Hydrogel, by Gal Mor Khalifa, Steve Weiner, and Lia Addadi - Department of Structural Biology, Weizmann Institute of Science, Rehovot (Israel)
  88. CREEP CAVITATION CAN ESTABLISH A DYNAMIC GRANULAR FLUID PUMP IN DUCTILE SHEAR ZONES, by F. Fusseis (1), K. Regenauer-Lieb(1)(2), J. Liu(2), R. M. Hough(2) & F. De Carlo(3) - (1) School of Earth & Environment, The University of Western Australia. (2) CSIRO Exploration & Mining. (3) Advanced Photon Source, Argonne National Laboratory « Archived copy » [archive du ] (consulté le )
  89. FGF/FGFR Signaling Coordinates Skull Development by Modulating Magnitude of Morphological Integration: Evidence from Apert Syndrome Mouse Models, By Neus Martínez-Abadías (1), Yann Heuzé (1), Yingli Wang (2), Ethylin Wang Jabs (2), Kristina Aldridge (3), Joan T. Richtsmeier (1) - (1) Department of Anthropology, Pennsylvania State University (USA), (2) Department of Genetics and Genomic Sciences, Mount Sinai School of Medicine, New York (USA), (3) Department of Pathology and Anatomical Sciences, University of Missouri-School of Medicine, Columbia, Missouri (USA)
  90. Structural Characterization of RDX-based Explosive Nanocomposites - Stepanov, V., Willey, T. M., Ilavsky, J., Gelb, J. and Qiu, H. (2012), Structural Characterization of RDX-based Explosive Nanocomposites. Propellants, Explosives, Pyrotechnics. DOI 10.1002/prep.201200151
  91. Tooth Movements are Guided by Specific Contact Areas Between the Tooth Root and the Jaw Bone: a Dynamic 3D Micro-CT Study of the Rat Molar, by GRS Naveh, R Shahar, V Brumfeld… - Journal of Structural Biology, 2011
  92. Direct Pore-scale Modeling of Two-phase Flow Through Natural Media, by I Bogdanov, F Guerton, J Kpahou…« Archived copy » [archive du ] (consulté le )
  93. Fronto-facial monobloc distraction in syndromic craniosynostosis. Three-dimensional evaluation of treatment outcome and facial growth, by EWC Ko, PKT Chen, ICH Tai… - … Journal of Oral and Maxillofacial Surgery, 2011
  94. Beam deceleration for block-face scanning electron microscopy of embedded biological tissue, by Keisuke Ohta (a), Shoji Sadayama (b,c), Akinobu Togo (d), Ryuhei Higashi (d), Ryuichiro Tanoue (a), Kei-ichiro Nakamura (a) - (a) Division of Microscopic and Developmental Anatomy, Kurume University school of Medicine, Fukuoka (Japan), (b) Department of Materials science and Engineering, Kyusyu University, Fukuoka (Japan), (c) Application Laboratory, FEI Company Japan Ltd., Tokyo (Japan), (d) Electron Microscopic Laboratory, Central Research Unit of Kurume University, Fukuoka (Japan)
  95. IN SITU high speed X-ray observation of the solidification of AL15CU with and without AL2O3 composite addition, By R.W. Hamilton (1), A. Leung (1), A.B. Phillion (2), P. Rockett (1), T. Connolley (3), and P.D. Lee (1) - (1) Department of Materials, Imperial College London (UK), (2) School of Engineering, The University of British Columbia (Canada), (3) Diamond Light Source Ltd (UK) - in Shape Casting: Fourth International Symposium 2011 (in Honor of Prof. John T. Berry)
  96. Whispering to the Deaf: Communication by a Frog without External Vocal Sac or Tympanum in Noisy Environments, by Renaud Boistel (1)(2), Thierry Aubin (1), Peter Cloetens (3), Max Langer (3)(4), Brigitte Gillet (5), Patrice Josset (6), Nicolas Pollet(7), Anthony Herrel (8) - (1) Centre de Neurosciences Paris-Sud (CNPS), Centre National de la Recherche Scientifique (CNRS), Université Paris XI, France; (2) Institut International de Paléoprimatologie et de Paléontologie Humaine (IPHEP), Centre National de la Recherche Scientifique (CNRS), Université de Poitiers, France; (3) European Synchrotron Radiation Facility, Grenoble, France; (4) Centre de Recherche en Acquisition et Traitement de l'Image pour la Santé (CREATIS), Centre National de la Recherche Scientifique (CNRS), Institut National de la Santé et de la Recherche Médicale (INSERM), Université Claude Bernard Lyon 1, Institut National des Sciences Appliquées Lyon, France, (5) Imagerie par Résonance Magnétique Médicale et Multi-Modalités (IR4M), Centre National de la Recherche Scientifique (CNRS), Université Paris-Sud, France; (6) Hôpital d'Enfants Armand Trousseau, Paris, France; (7) Institute of Systems and Synthetic Biology, Genopole, Centre National de la Recherche Scientifique (CNRS), University of Evry, France; (8) Département Ecologie et Gestion de la Biodiversité (EGB), Centre National de la Recherche Scientifique (CNRS), Muséum National d'Histoire Naturelle, Paris, France.
  97. THREE-DIMENSIONAL PORE SCALE FLUID FLOW SIMULATION BASED ON COMPUTED MICROTOMOGRAPHY CARBONATE ROCKS’ IMAGES, by Jan Kaczmarczyk, Marek Dohnalik, Jadwiga Zalewska - Oil and Gas Institute, Well Logging Dpt, Kraków, Poland
  98. Teeth before jaws? Comparative analysis of the structure and development of the external and internal scales in the extinct jawless vertebrate Loganellia scotica, by M Rücklin, S Giles, P Janvier… - Evolution & Development, 2011
  99. On the use of peak-force tapping atomic force microscopy for quantification of the local elastic modulus in hardened cement paste - By Pavel Trtik (a), Josef Kaufmann (a), Udo Volz (b), (a) Empa, Swiss Federal Laboratories for Materials Science and Technology (Switzerland), (b) Bruker Nano GmbH (Germany)
  100. 3‐Dimensional Modeling of Graphitic foam Heat Sink, by A Bradu… - … in Strategic Materials and Computational Design II
  101. Matching 4D Porous Media Fluid Flow GeoPET Data With COMSOL Multiphysics Simulation Results, by J Lippmann-Pipke, J Kulenkampff, G Marion…« Archived copy » [archive du ] (consulté le )
  102. Locating the Acupoint Baihui (GV20) Beneath the Cerebral Cortex with MRI Reconstructed 3D Neuroimages, by Ein-Yiao Shen (1, 2), Fun-Jou Chen (3), Yun-Yin Chen (1) and Ming-Fan Lin (4) - (1) Graduate Institute of Acupuncture Science, China Medical University, Taichung (Taiwan), (2) Department of Pediatrics, Taipei Branch, China Medical University Hospital, Taipei (Taiwan), (3) Graduate Institute of Integrated Medicine, China Medical University, Taichung (Taiwan), (4) Department of Radiology, Taipei Medical University-Wan Fang Hospital, Taipei (Taiwan)
  103. The interpretation of X-ray Computed Microtomography images of rocks as an application of volume image processing and analysis, by Kaczmarczyk J. (1), Dohnalik M. (1), Zalewska J. (1), Cnudde, V. (2) - (1) Oil and Gas Institute, Well Logging Department, Kraków (Poland), (2) The Center for X-Ray Tomography, Department of Geology and Soil Science, Ghent University (Belgium)
  104. Matching 4D Porous Media Fluid Flow GeoPET Data with COMSOL Multiphysics Simulation Results, By Johanna Lippmann-Pipke, Johannes Kulenkampff, Gründig Marion, Michael Richter - Helmholtz-Zentrum Dresden-Rossendorf, Institut of Radiochemistry – Research Site Leipzig, Reactive Transport Division, Leipzig (Germany)« Archived copy » [archive du ] (consulté le )
  105. Thermal Characteristics of ThermoBrachytherapy Surface Applicators (TBSA) for Treating Chestwall Recurrence, by K. Arunachalam (1), P. F. Maccarini (1), O. I. Craciunescu (1), J. L. Schlorff (2) and P. R. Stauffer (1) - (1) Department of Radiation Oncology, Duke University, Durham, North Carolina USA, (2) Bionix Development Corporation, Paoli PA USA
  106. The Neanderthal face is not cold adapted - By Todd C. Rae (1), Thomas Koppe (2), Chris B. Stringer (3) - (1) Centre for Research in Evolutionary Anthropology, Department of Life Sciences, Roehampton University, UK, (2) Institut für Anatomie und Zellbiologie, Ernst-Moritz-Arndt Universität Greifswald, Germany, (3) Department of Palaeontology, The Natural History Museum, London, UK
  107. Quantification and Segmentation of Electron Tomography Data – Exemplified at ErSi2 Nanocrystals in SiC, by J. Leschner, A. Chuvilin, J. Biskupek and U. Kaiser - Central Facility of Electron Microscopy, Group of Materials Science, Ulm University
  108. A Three-Dimensional Multiscale Model for Gas Exchange in Fruit, by Quang Tri Ho (1), Pieter Verboven (1), Bert E. Verlinden (1), Els Herremans (1), Martine Wevers (2), Jan Carmeliet (3, 4), and Bart M. Nicolaı (1)* - (1) Flanders Center of Postharvest Technology, BIOSYST-MeBioS, and (2) Research Group of Materials Performance and Nondestructive Evaluation (M.W.), Katholieke Universiteit Leuven (Belgium); (3) Building Physics, Swiss Federal Institute of Technology Zurich (ETHZ) (Switzerland); (4) Laboratory for Building Science and Technology, Swiss Federal Laboratories for Materials Testing and Research (Empa) (Switzerland)
  109. THREE-DIMENSIONAL IMAGING OF PORE STRUCTURES INSIDE LOW-k DIELECTRICS, By, Huolin L. Xin (1), Peter Ercius (2), Kevin J. Hughes (3), James R. Engstrom (3), and David A. Muller (2) - (1) Department of Physics, Cornell University, USA; (2) School of Applied and Engineering Physics, Cornell University, USA; (3) School of Chemical and Biomolecular Engineering, Cornell University, USA « Archived copy » [archive du ] (consulté le )
  110. Spitting behaviour and fang morphology of spitting cobras, by RA Berthé - 2011
  111. Radionuclide Retention in Concrete Wasteforms, By CC Bovaird, DM Wellman, DP Jansik, MI Wood - US Department Energy
  112. A new salamander from the late Paleocene–early Eocene of Ukraine, by PAVEL P. SKUTSCHAS (1) AND YURI M. GUBIN (2) - (1) Saint Petersburg State University, Vertebrate Zoology Department, Faculty of Biological and Soil Sciences, Saint Petersburg, Russian Federation; (2) Paleontological Institute, Russian Academy of Sciences, Moscow, Russian Federation.
  113. CHARACTERIZATION OF GEOMORPHIC PORE STRUCTURE OF BUILDING MATERIALS FOR AGENT FATE, by C.R. Savidge, L.B. Hu, N.J. Hayden, D.M. Rizzo, M.M. Dewoolkar - School of Engineering, University of Vermont (USA)
  114. TRANSPORT PHENOMENA ON THE CHANNEL-RIB SCALE OF POLYMER ELECTROLYTE FUEL CELLS, by Reto Flückiger, Dipl. Masch. Ing. ETH Zurich - 2009
  115. ON THE INSULATOR-CONDUCTOR TRANSITION IN POLYMER NANOCOMPOSITES, by Gianluca AMBROSETTI - ÉCOLE POLYTECHNIQUE FÉDÉRALE DE LAUSANNE (Switzerland) - 3D reconstruction of X-ray tomography phase contrast images of a BNB90-polypropylene composite « Archived copy » [archive du ] (consulté le )
  116. COMPARISON OF ULTRA-FAST MICROWAVE SINTERING AND CONVENTIONAL THERMAL SINTERING IN MANUFACTURING OF ANODE SUPPORT SOLID OXIDE FUEL CELL, by Zhenjun Jiao(1), Naoki Shikazono(1), Nobuhide Kasagi(2) - (1)Institute of Industrial Science, the University of Tokyo. (2)Department of Mechanical Engineering, The University of Tokyo.
  117. Etude de la microstructure d'électrodes de piles à combustible de type SOFC, by Nicolas Vivet(1) - (1)CEA Le RIPAULT, France.
  118. TRABECULAR BONE STRUCTURE IN THE HUMERAL AND FEMORAL HEADS OF ANTHROPOID PRIMATES, by Timothy M. Ryan(1),(2) and Alan Walker(1)- (1) Department of Anthropology, Pennsylvania State University (USA), (2) Center for Quantitative Imaging, Pennsylvania State University (USA)
  119. Computational Simulation of Breast Compression Based on Segmented Breast and Fibroglandular Tissues on Magnetic Resonance Images By Tzu-Ching Shih (1,2,3), Jeon-Hor Chen (2,3), Dongxu Liu (4), Ke Nie (2), Lizhi Sun (4), Muqing Lin (2), Daniel Chang (2), Orhan Nalcioglu(2), and Min-Ying Su (2) - (1) Department of Biomedical Imaging and Radiological Science, China Medical University, Taichung (Taiwan), (2) Tu and Yuen Center for Functional Onco-Imaging, University of California (USA), (3) Department of Radiology, China Medical University Hospital, Taichung (Taiwan), (4) Department of Civil and Environmental Engineering, University of California, Irvine, California (USA)
  120. Microtomography of Partially Molten Rocks: Three-Dimensional Melt Distribution in Mantle Peridotite, By Wenlu Zhu (1), Glenn A. Gaetani (2), Florian Fusseis (3), Laurent G. J. Montési (1), and Francesco De Carlo (4) - (1) Department of Geology, University of Maryland, USA; (2) Department of Geology and Geophysics, Woods Hole Oceanographic Institution, USA; (3) Western Australian Geothermal Centre of Excellence, The University of Western Australia, Australia; (4) Advanced Photon Source, Argonne National Laboratory, USA.
  121. PORE NETWORK MODELLING ON CARBONATE: A COMPARATIVE STUDY OF DIFFERENT MICRO-CT NETWORK EXTRACTION METHODS, by Hu Dong, Ståle Fjeldstad, Luc Alberts, Sven Roth, Stig Bakke and Pål-Eric Øren - Numerical Rocks AS, Norway
  122. CHARACTERIZATION OF POROUS BUILDING MATERIALS FOR AGENT TRANSPORT PREDICTIONS USING ARTIFICIAL NEURAL NETWORKS, by Cabot R. Savidge to The Faculty of the Graduate College of The University of Vermont « Archived copy » [archive du ] (consulté le )
  123. A comparative study of X-ray tomographic microscopy on shales at different synchrotron facilities: ALS, APS and SLS, by W. Kanitpanyacharoen, D. Y. Parkinson, F. De Carlo, F. Marone, M. Stampanoni, R. Mokso, A. MacDowell and H.-R. Wenk
  124. Closing the lifecycle for the sustainable aquaculture of the bath sponge Coscinoderma matthewsi, by M.A. Abdul Wahab (a), R. de Nys (a), S. Whalan (a) - (a) School of Marine & Tropical Biology, James Cook University, Townsville, Queensland (Australia)
  125. Microfluidic 3D bone tissue model for high-throughput evaluation of wound-healing and infection-preventing biomaterials, by Joung-Hyun Lee (a), Yexin Gua, Hongjun Wang (b), Woo Y. Lee (a) - (a) Chemical Engineering and Materials Science, Stevens Institute of Technology, Hoboken (USA), (b) Chemistry, Chemical Biology, and Biomedical Engineering, Stevens Institute of Technology, Hoboken (USA)
  126. Root aeration via aerenchymatous phellem: three‐dimensional micro‐imaging and radial O2 profiles in Melilotus siculus, By Pieter Verboven, Ole Pedersen, Els Herremans, Quang Tri Ho, Bart M. Nicolaï, Timothy David Colmer, Natasha Teakle - New Phytologist, 2011
  127. Enhancing Appalachian Coalbed Methane Extraction by Microwave-Induced Fractures, by Jonathan P. Mathews - The Pennsylvania State University « Archived copy » [archive du ] (consulté le )
  128. FRACTURING CONTROLLED PRIMARY MIGRATION OF HYDROCARBONS FLUIDS DURING HEATING OF ORGANIC-RICH SHALES, by Maya Kobchenko (1), Hamed Panahi (1)(2), François Renard (1)(3), Dag K. Dysthe (1), Anders Malthe-Sørenssen (1), Adriano Mazzini (1), Julien Scheibert (1), Bjørn Jamtveit (1) and Paul Meakin (1) (4) (5) - (1) Physics of Geological Processes, University of Oslo, Norway; (2) Statoil ASA, Norway; (3) Institut des Sciences de la Terre, Université Joseph Fourier-CNRS, Grenoble, France; (4) Idaho National Laboratory, Idaho Falls, USA; (5) Institute for Energy Technology, Kjeller, Norway
  129. VISUALIZATION AND QUANTIFICATION OF BIOFILM ARCHITECTURE WITHIN POROUS MEDIA USING SYNCHROTRON BASED X-RAY COMPUTED MICROTOMOGRAPHY, by Gabriel Iltis, Ryan Armstrong, and Dorthe Wildenschild - Dpt of Chemical, Biological and Environmental Engineering, Oregon State University, USA « Archived copy » [archive du ] (consulté le )
  130. Luo, L., et al. QUANTIFICATION OF 3-D SOIL MACROPORE NETWORKS IN DIFFERENT SOIL TYPES AND LAND USES USING COMPUTED MICROTOMOGRAPHY. J. Hydrol. (2010), DOI 10.1016/j.jhydrol.2010.03.031
  131. THE IMPACT OF THERMAL AND CHEMICAL EFFECTS IN FRACTURE DEFORMATION, by Ruqayia Al-Zadjalia (School of Earth and Environment, University of Leeds, UK), Suleiman Al-Hinaib (Petroleum Development of Oman, MAF, Sultanate of Oman), Carlos Grattonic (Rock Deformation Research, University of Leeds, UK), and Quentin Fishera (School of Earth and Environment, University of Leeds, UK).« Archived copy » [archive du ] (consulté le )
  132. EXPERIMENTAL OBSERVATIONS AND SIMULATIONS OF THE MECHANICAL DEFORMATION OF AMORPHOUS METALLIC FOAM, by Sarah Shiley Haubrich (Iowa State University, USA)
  133. Three-Dimensional Morphological Measurements of LiCoO2 and LiCoO2/Li(Ni1/3Mn1/3Co1/3)O2 Lithium-ion Battery Cathodes, by Zhao Liu(a), J. Scott Cronin(a), Yu-chen K. Chen-Wiegart(b), James. R. Wilson(a), Kyle J. Yakal-Kremski(a), Jun Wang(b), Katherine T. Faber(a), Scott A. Barnett(a) - (a) Department of Materials Science and Engineering, Northwestern University (USA), (b) Photon Science Directorate, Brookhaven National Laboratory (USA)
  134. Wormhole Propagation in Tar During Matrix Acidizing of Carbonate Formations, by S.H. Al-Mutairi, SPE, M.A. Al-Obied, SPE, I.S. Al-Yami, SPE, A.M. Shebatalhamd, SPE, D.A. Al-Shehri, Saudi Aramco
  135. The Dynamics of Embolism Repair in Xylem: In Vivo Visualizations Using High-Resolution Computed Tomography, by Craig R. Brodersen (1), Andrew J. McElrone (1)(3), Brendan Choat (4), Mark A. Matthews (1), and Kenneth A. Shackel (2) - (1) Department of Viticulture and Enology and (2) Department of Plant Sciences, University of California, USA; (3) Department of Agriculture-Agricultural Research Service, Crops Pathology and Genetics Research Unit, Davis, California, USA; (4) Research School of Biology, Australian National University, Canberra, Australia
  136. MEASUREMENT AND PREDICTION OF THE RELATIONSHIP BETWEEN CAPILLARY PRESSURE, SATURATION, AND INTERFACIAL AREA IN A NAPL-WATER-GLASS BEAD SYSTEM (2010), by Mark L. Porter (1), Dorthe Wildenschild (1), Gavin Grant (2), and Jason I. Gerhard (3) - (1)School of Chemical, Biological, and Environmental Engineering, Oregon State University, USA. (2)Geosyntec Consultants, Guelph, Ontario, Canada. (3)Department of Civil and Environmental Engineering, University of Western Ontario, Canada. « Archived copy » [archive du ] (consulté le )
  137. Huolin L. Xin, Peter Ercius, Kevin J. Hughes, James R. Engstrom, and David A. Muller, Appl. Phys. Lett. 96, 223108 (2010)
  138. MICROSTRUCTURE DE MATÉRIAUX ENTRANT DANS LA COMPOSITION DE PILES A COMBUSTIBLE DE TYPE SOFC by Nicolas Vivet, CEA, France (2010) « Archived copy » [archive du ] (consulté le )
  139. LOKALISERING VAN MINERALISEERBARE KOOLSTOFPOOLS IN THE BODEMMATRIX AAN DE HAND VAN X-STRALEN TOMOGRAFIE, by Bram Hantson - Howest – dDpartement Academische Bachelor- en Masteropleidingen, Belgium
  140. Vincent Guipont, « Simulations et analyses 2D-3D de la porosité de dépôts plasma d'alumine pour la caractérisation de propriétés mécaniques et physiques » [PDF], sur Centre des Matériaux, CNRS (France), (consulté le ).
  141. Laura Dubuis, Stéphane Avril, Pierre Badel et Johan Debayle, « Identification des propriétés des tissus mous de la jambe sous compression élastique », 10e colloque national en calcul des structures, Giens,‎ , Clé USB (HAL hal-00592737).
  142. (en) N Vanderesse, E Maire, A Chabod et Jean-Yves Buffiere, « Microtomographic study and finite element analysis of the porosity harmfulness in a cast aluminium alloy », International Journal of Fatigue, Elsevier, no 33 (12),‎ , p. 1514--1525 (HAL hal-01538229).
  143. (en) Reto Fluckiger, « Transport Phenomena on the Channel-Rib Scale of Polymer Electrolyte Fuel Cells », ETH Zurich,‎ (DOI 10.3929/ethz-a-005911802).
  144. ONE-MONTH SIMULATED PLANET SIMULATOR CIRCULATION, Meteorologisches Institut, Universität Hamburg (Germany)« Archived copy » [archive du ] (consulté le )
  145. VISUALISATION IMMERSIVE ET INTERACTION HAPTIQUE : UNE REVOLUTION POUR LES GEOSCIENCES, by BRGM (Bureau des recherches géologiques et minières, France)

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