Seifert, G.: Computer-based-design, Multiscale simulation of CMC material properties, Carbon Composites Magazin, 1/2018, pp. 39-40.
Raether, F.: Ceramics Facing Competition with other Materials, Ceramic Applications, 4/2016, pp. 57-61.
Müller, Th.; Raether, F.: 3D modelling of ceramic composites and simulation of their electrical, thermal and elastic properties, Computational materials science, vol. 81, 2014, pp. 205-211. (to abstract)
Iuga, M.; Raether, F.: FEM Simulations of Microstructure Effects on Thermoelastic Properties of Sintered Ceramics, Journal of the European Ceramic Society, 27, 2007, pp. 511-516. (to abstract)
Raether, F.; Iuga, M.: Effect of particle shape and arrangement on thermoelastic properties of porous ceramics, Journal of the European Ceramic Society, 26, 2006, pp. 2653-2667. (to abstract)
Iuga, M.; Raether, F.: Simulation of the thermoelastic properties of sintered ceramics, Advances in Science and Technology, 45, 2006, pp. 89-94. (to abstract)
Brockmann, D.; Staab, T.; Raether, F.: The inﬂuence of sintering additives on the microstructure and material properties of silicon nitride ceramics investigated by advanced simulation tools, Phys. Status Solidi A, 1600634, 2017, DOI 10.1002. (to abstract)
Winkler, D.E.R., Staab, T.E.M., Müller, T.M., Raether, F.G.: Using a novel microstructure generator to calculate macroscopic properties of multi-phase non-oxide ceramics in comparison to experiments, Ceramics Int., 42 Part A (2016) 325 -333 (to abstract)
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