First direct 3D visualisation of microstructural evolutions during sintering through X-ray computed microtomography
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Dominique Bernard | Jean Etourneau | D. Bernard | J. Etourneau | J. Heintz | S. Bordère | D. Gendron | Damien Gendron | Jean-Marc Heintz | S. Bordère
[1] G. Kuczynski. Study of the Sintering of Glass , 1949 .
[2] H. Riedel,et al. Pore-boundary interactions and evolution equations for the porosity and the grain size during sintering , 1992 .
[3] George W. Scherer,et al. Sintering of Low-Density Glasses: I, Theory , 1977 .
[4] H. Exner,et al. Shrinkage and Rearrangement during Sintering of Glass Spheres , 1975 .
[5] J. Mackenzie,et al. A Phenomenological Theory of Sintering , 1949 .
[6] L. Wynn Herron,et al. Isothermal Sintering of Cordierite‐Type Glass Powders , 1984 .
[7] Laurent Babout,et al. Characterization by X-ray computed tomography of decohesion, porosity growth and coalescence in model metal matrix composites , 2001 .
[8] José Baruchel,et al. X-Ray Tomography in Material Science , 2000 .
[9] Y. Censor. Finite series-expansion reconstruction methods , 1983, Proceedings of the IEEE.
[10] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: III, Model Experiments , 1992 .
[11] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: I, Matrix Pores , 1988 .
[12] D. Bernard,et al. Characterisation Of Elementary Sintering Processes Using Monte CarloSimulation And X-ray Computed Microtomography , 2003 .
[13] J. Lannutti,et al. X‐ray Computed Tomography for Evaluation of Density Gradient Formation during the Compaction of Spray‐Dried Granules , 2005 .
[14] Frederick F. Lange,et al. Sinterability of Agglomerated Powders , 1984 .
[15] Frank Natterer,et al. Numerical methods in tomography , 1999, Acta Numerica.
[16] Albert E. Miller,et al. Materials Science Research , 1984 .
[17] G. Scherer. Viscous Sintering of a Bimodal Pore‐Size Distribution , 1984 .
[18] O. Viraphong,et al. Crystal growth and optical properties of new neutron detectors Ce/sup 3+/:Li/sub 6/R(BO/sub 3/)/sub 3/ (R=Gd,Y) , 2001 .
[19] A. Jagota,et al. Isotropic Constitutive Model for Sintering Particle Packings , 1990 .
[20] J. Frenkel. Viscous Flow of Crystalline Bodies under the Action of Surface Tension , 1945 .
[21] J. Lannutti,et al. X‐ray Computed Tomography and Mercury Porosimetry for Evaluation of Density Evolution and Porosity Distribution , 2004 .
[22] W. Kingery,et al. Study of the Initial Stages of Sintering Solids by Viscous Flow, Evaporation‐Condensation, and Self‐Diffusion , 1955 .
[23] R. L. Coble,et al. Sintering Crystalline Solids. I. Intermediate and Final State Diffusion Models , 1961 .
[24] D. H. Phillips,et al. X-ray computed tomography for the testing and evaluation of ceramic processes , 1993 .
[25] O. Viraphong,et al. Crystal growth and optical properties of new neutron detectors Ce 3+:Li6R(BO3)3 (R=Gd,Y) , 2001 .
[26] H. Exner,et al. A Stereology — Based Equation for Isotropic Shrinkage During Sintering by Viscous Flow , 1989 .
[27] R. German. Sintering theory and practice , 1996 .
[28] Gabor T. Herman,et al. Image reconstruction from projections : the fundamentals of computerized tomography , 1980 .
[29] M. Harmer,et al. Effect of Pore Distribution on Microstructure Development: II, First‐ and Second‐Generation Pores , 1988 .