Publications

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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Friedrich, H.; Wagner, R.; Sauerzapfe, K.: Development and Application of Electrically Conductive Ceramics, Ceramic applications 7/2019 (2), p. 35-39.

Maier, J.; Nöth, A.; Schönfeld, K.: "BN-Based Fiber Coatings by Wet-Chemical Coating", Key Engineering Materials, Vol. 809, pp. 421-426, 2019.  (zum Abstract)

Vogt, J.: Cost-Efficient Directly Foamed Ceramics for High-Temperature Thermal Insulation, Ceramic applications 1/2019, p. 50-55

Raether, F.; Seifert, G.: Modelling Inherently Homogeneous Sintering Processes, Adv. Theory Simul. 1 (2018) 1800022. (to abstract)

Raether, F.: Thermische Eigenschaften technischer Keramiken, in: Kollenberg, W. (Hrsg.): Technische Keramik, Vulkan Verlag, Essen 2018, p. 84-108.

Nöth, A.; Neubauer, G.: High Temperature Ceramics for Light-Weight Kiln Furniture, CFI Ceramic Forum International 94/2017, p. E24-E28.

Stepanyan, M.; Seifert, G.; Weiß, T.: Why not Using Ceramics – Trends from Ceramics Research, Ceramic applications 2/2017, p. 78-79.

Nöth, A.; Vogt, J.: High-temperature stable gas-tight sealings for plasma-sprayed ceramic components, Ceramic applications 2/2016, p. 66.

Raether, F.: Parameters for Inherently Homogeneous Sintering Processes, Adv. Eng. Mat., 17 (2015), pp. 1374 - 1382. (to abstract)

Schmitt, V.; Raether, F.: Effect of Cobalt Doping on the Sintering Mechanisms of the Lead-Free Piezoceramic (Bi_0.5Na_0.5)TiO₃ , Journal of the European Ceramic Society, vol. 34, 2014, No.1, pp. 15-21. (to abstract)

Raether, F.; Arefin, M.L.: Kinetic field approach to study liquid phase sintering of ZnO based ceramics, Ceramics Int., 36, 2010, pp. 1429-1437. (to abstract)

Huang, X.; Raether, F.: Role of impurities in the sintering behaviour and properties of lead zirconate titanate ceramics, J. Am. Ceram. Soc. 92, 2009, pp. 2011-2016. (to abstract)

Arefin, M. L.; Raether, F.; Dolejš, D.; Klimera, A.: Phase formation during liquid phase sintering of ZnO ceramics, Ceramics Int., 35, 2009, pp. 3313-3320. (to abstract)

Thimm, A.; Raether, F.; Klimera, A.; Ruska, J.: Sintering of aluminium nitride substrates for the electronic industry. Special edition of Ceramic Forum international: Thermal process engineering in the ceramics industry; M. Herrmann, R. Clasen (eds.), Göller Verlag, Baden Baden, Germany, 2008, pp. 24-28.

Klimera, A.; Raether, F.; Ruska, J.: Improving Strength by Controlling Segregation in Liquid Phase Sintered Aluminium Nitride Ceramics, Journal of the European Ceramic Society, 27, 2007, pp. 1419-1424. (to abstract)

Kraft, T.; Riedel, H.; Raether, F.; Becker, F.: Simulation des Brennprozesses bei der Herstellung von Gebrauchskeramiken, Keramische Zeitschrift, 54, 2002, S. 374-381.

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Eckardt, C.; Friedrich, M.; Wamser, T.; Wolff, N.; Metzger, K.: Faserverstärkte Keramik-Armierungen für den Rohrleitungsbau, Chemie Technik April/2019, S. 38-40.

Konschak, A.; Anzer, C.; Ficker, F.: Anforderungsgerechte textile Halbzeuge und Z-verstärkte Preformen für Hochleistungsfaserverbundkeramiken, CFI Ceramic Forum International 8/2018, S. D11-D16.

Becker, M.; Olbrich, S.: Maschinen und Verfahren zur Herstellung individuell gestalteter textiler Produkte, Tagungsband der 16. Chemnitzer Textiltage, 2018.

Shi, Y.; Hönig, S.; Frieß, M.; Rüdinger, A.; Pritzkow, W.; Koch, D.: Manufacture and characterization of oxide ceramic matrix composites out of commercial pre-impregnated fabrics, Ceramics International, 44 (2018), 2320–2327. (to Abstract)

Klemm, H.; Kunz, W.; Wamser, T.; Rüdinger, A.; Weiß, R.; Lauer, A.; Wilhelmi, C.; Machry, T.; Hofmann, S.; Koch, D.: Hot Gas Stability of Various Ceramic Matrix Composites, Advances in High Temperature Ceramic Matrix Compo sites and Materials for Sustainable Development; Ceramic Transactions, Volume CCLXIII, July 2017, pp. 253-260. (to Abstract)

Potzernheim-Zenkel, C.; Kühl, H.; Rüdinger, A.: Technische Keramiken - Werkstoffe für extreme Bedingungen, DGM im Blickpunkt - Hochleistungskeramik, Mai 2017, S. 6-9.

Konschak, A.; Mahr, J.; Schulte, R.; Schmidt, J.: Energieeffiziente Herstellung von C/C-SiC-Bauteilen mittels induktiv beheiztem modularem Schnellsintersystem, CFI Ceramic Forum International 10/2016, S. D16-D20.

Nöth, A.; Rüdinger, A.; Pritzkow, W.: Oxide Ceramic Matrix Composites – Manufacturing, Machining, Properties and Industrial Applications, Ceramic applications 3/2015, pp. 48-54.

Nöth, A.: Fabrication of large diameter SiC monofilaments by polymer route, Journal of the European Ceramic Society, Volume 34, Issue 6, 2014, pp. 1487-1492. (to abstract)

Raether, F.: Ceramic Matrix Composites – an Alternative for Challenging Construction Tasks, Ceramic applications 1/2013, pp. 45-49.

Rüdinger, A.; Pritzkow, W.: Die Entwicklung oxidkeramischer Faserverbundwerkstoffe am Fraunhofer ISC / Zentrum HTL in Zusammenarbeit mit W.E.C. Pritzkow Spezialkeramik, Keram. Z. 65, 2013, [3], pp. 166-169. (to abstract)

Nöth, A.; Hietel, D.; Rothmann, M.: Development and upscaling of spinning processes for ceramic high-tech fiber production, Chemical Fibers International 1/13, 2013, pp. 42-43.

Sha, J.; Hausherr, J. M.; Mucha, H.; Konschak, A.; Krenkel, W.: Microstructure Changes Caused by the Interaction of Fiber-Matrix during the Carbonization, High Temperature Ceramic Materials and Composites (Editors W. Krenkel, J. Lamon), AVISO Verlagsgesellschaft mbH, Berlin, 2010, pp. 143-148.

Hausherr, J. M.; Koch, C.; Krause, M.; Herrmann, C.; Krenkel, W.: Correlation Between Fiber Orientation and Mechanical Properties of Short-Fiber C/C Composites, High Temperature Ceramic Materials and Composites (Editors W. Krenkel, J. Lamon), AVISO Verlagsgesellschaft mbH, Berlin, 2010, pp. 289-295.

Sha, J.; Hausherr, J. M.; Konschak, A.; Krenkel, W.: The Influence of Thermal Treatment of Carbon Fibers on the Interfacial Shear Strength during the Pyrolysis of CFRP to C/C Composites, Proc. of the 11^th Int. Conf. of the Europ. Ceram. Soc., Krakow, Poland, 2009, pp. 524-530.

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Raether, F.; Vogt, J.: From Prototyping to Serial Production – 3D-Printing in Ceramic Manufacturing, CFI Ceramic Forum International DKG 97, 2020, pp. E45-50.

Vogt, L.; Schäfer, M.; Kurth, D.; Raether, F.: Usability of electrophoretic deposition for additive manufacturing of ceramics, Ceramics International, 45 (2019), 14214-14222. (to abstract)

Knoeckel, G.; Ficker, F.; Anzer, C.; Bohlender, M.; Hegermann, R.; Weise, D.; Konschak, A.: Vernadelte Radialgewebe-Sandwich-Preformen für keramische Reibbeläge, TextilPlus, 3/4-2018, S. 27-30.

Gadelmeier, C.; Schmidt, J.: Joining of Ceramic on Metal parts, Ceramic applications 5/2017, pp 59-66.

Nachum, S.; Vogt, J.; Raether, F.: Additive Manufacturing of Ceramics: Stereolithography versus Binder Jetting, CFI Ceramic Forum International, 3/2016, S. E27 ff..

Gadelmeier, C.; Schmidt, J.; Göthe, M.; Jovanovic, D.; Zietkowski, M.; Eckardt, C.; Gorywoda, M.: Adhesive Bonding of Oxide Ceramics for Complexe Ceramic Parts in High Temperature Furnaces, Advances in Science and Technology (paper has been accepted for 20^th Symposium July 2014, Wien). (to abstract)

Gadelmeier, C.; Schmidt, J.; Göthe, M.; Jovanovic, D.: Characterization of Furnace Sintered Mullite and Oxide Ceramic Matrix Composites (O-CMC) by Using Glass Solders, Advances in Science and Technology, Vol. 88, 2014, S. 162 ff. (to abstract)

Baber, J.; Raether, F.: Production of oxide ceramic coatings on glass by laser sintering, Glastechn. Ber. Glass Sci. Technol., 73 (2000), pp. 211-215. (to abstract)

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Hofbauer, P.J.; Rädlein, E.; Raether, F.: Finite element modeling of reactive liquid silicon infiltration, Journal of the European Ceramic Society (2019). (to abstract)

Raether, F.; Seifert, G.; Ziebold, H.: Simulation of Sintering across Scales, Advanced Theory and Simulations (2019). (to abstract)

Hofbauer, P.J.; Rädlein, E.; Raether, F.: Fundamental Mechanisms With Reactive Infiltration of Silicon Melt Into Carbon Capillaries, Advanced Engineering Materials (2019). (to abstract)

Raether, F. (Hrsg.): Nachhaltige Wärmebehandlungsprozesse systematisch entwickeln, ISBN 978-3-8163-0728-0, VDMA-Verlag, Frankfurt, Germany (2018). (Publication available on request)

Raether, F.; Seifert, G.: Integrated Computational Ceramics Engineering - an Approach to Radically Reduce Time-to-Market, CFI Ceramic Forum International,11-12/2018, S. E21 ff.

Ziebold, H.; Raether, F.; Seifert, G.: Radical Time Reduction of Debinding Processes by Combined in-situ Measurements and Simulation, cfi/Ber. DKG 95 1-2/2018, pp. E37-E40.

Raether, F.: EnerTHERM – a Joint Effort for Energy and Cost Efficient Heat Treatments, CFI Ceramic Forum International, 5-6/2015, S. E37 ff.

Raether, F.: The kinetic field - a versatile tool for prediction and analysis of heating processes, High Temperatures-High Pressures , 42.4 (2013), pp. 303-319. (to abstract)

Raether, F. (Hrsg.): Energieeffizienz bei der Keramikherstellung, ISBN 978-3-8163-0644-3, VDMA-Verlag, Frankfurt, Germany (2013). (Publication available on request)

Raether, F.: Energy efficiency during production of ceramics, CFI Ceramic Forum International 10/2013, S. E1 ff.

Raether, F.: Energy and cost reduction with heat treatment of ceramics, CFI Ceramic Forum International  88/2011, No 6/7, S. E43 ff.

Hausherr, J. M.; Meinhardt, J.; Hassink, B.; Herrmann, C.; Daimer, J.; Raether, F.; Krenkel, W.: In-Situ-Measurement of the Si-Infiltration Process of C/C-Preforms and 3-D Analysis of the Resulting C/SiC Microstructure, Proc. of the 11^th Int. Conf. of the Europ. Ceram. Soc., Krakow, Poland, 2009, pp. 536-543.

Raether, F.; Schulze Horn, P.: Investigation of sintering mechanism of alumina using kinetic field and master sintering diagrams, J. Eur. Ceramic Soc. 29, 2009, pp. 2225-2234. (to abstract)

Raether, F.; Klimera, A.: Methods of measurement and strategies for binder removal in ceramics. Special edition of Ceramic Forum international: Thermal process engineering in the ceramics industry, M. Herrmann, R. Clasen (eds.), Göller Verlag, Baden Baden, Germany, 2008, pp. 5-11.

Raether, F.; Klimera, A.; Baber, J.: In-Situ Measurement and Simulation of Temperature and Stress Gradients during Sintering of Large Ceramic Components, Ceramics International, 34 , 2007, pp. 385-389. (to abstract)

Klimera, A.; Raether, F.; Schulze Horn, P.: In Situ Investigation of debinding of non-oxide ceramic, Advances in Science and Technology, 45, 2006, pp. 1684-1689. (to abstract)

Raether, F.; Springer, R.: In-Situ measurement of neck formation during sintering of alumina by a novel thermooptical measuring device, Advanced Engineering Materials, 2 (2000), pp. 741-744. (to abstract)

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Raether, F.; Friedrich, H.; Baber, J.: Innovative ThermoOptical Measuring Devices (TOM) for high-temperature testing of refractories, ZKG international, 11/2019, S. 55-59.

Raether, F.; Friedrich, H.; Baber, J.: Hochtemperaturprüfung von Feuerfestwerkstoffen mit neuartigen Thermooptischen Messverfahren, Keramische Zeitschrift 04/2019, S. 36-41.

Seifert, G.; Raether, F.; Baber, J.: A New Device for Measuring Hot Thermal Shock, Thermal Cycling and Other High Temperature Properties of Refractories, refractories worldforum rwf 1/2018, pp. 77-80 ff.

Raether, F.; Baber, J.; Friedrich, H.: Thermal Management of Heating Processes - Measuring Heat Transfer Properties, refractories worldforum rwf 11/2019, S. 59-65.

Raether, F., Energy Efficiency during Production of Ceramics, CFI Ceramic Forum International, 90 (2013) E1-E4.

Brendel, H.; Seifert, G.; Raether. F.: Approximative Derivation of the Extinction Efficiency for Stratified Cylinders, Optics Communications 391 (2017), pp. 141-147. (to abstract)

Brendel, H.; Seifert, G.; Raether. F.: Determination of thermal diffusivity of fibrous insulating materials at high temperatures by thermal wave analysis, Int. J. Heat & Mass Transfer 108, Part B (2017), pp.  2514-2522. (to abstract)

Brendel, H.; Seifert, G.; Raether, F.: Heat Transfer Properties of Hollow Fiber Insulation Materials at High Temperatures, Journal of Thermophysics and Heat Transfer, August 26, 2016. (to abstract)

Seifert, G.; Schmitt, V.; Raether, F.: New Techniques for the Determination of Refractory Material Properties at High Temperatures, refractories worldforum rwf 3/2015, S. 77 ff.

Müller, T. M.; Meinhardt, J., Raether, F.: Impedance spectroscopy on ceramic materials at high temperatures, considering stray fields and electromagnetic noise, Rev. Sci. Instrum. 84, (2013), 015118.

Raether, F.: Current state of in-situ measuring methods for the control of firing processes. J. Am. Ceram. Soc. 92, 2009, pp. 146-152. (to abstract)

Raether, F.; Meinhardt, J.; Kienzle, A.: Oxidation Behaviour of Carbon Short Fibre Reinforced C/SiC Composites, J. Eur. Ceram. Soc., 27 (2007), pp. 1217-1221. (to abstract)

Meinhardt, J.; Woyke, T.; Raether, F.; Kienzle, A.: Measurement and simulation of the oxidation of carbon fibers and C/SiC ceramic, Advances in Science and Technology, 45, 2006, pp. 1489-1494. (to abstract)

Springer, R.; Raether, F.; Caps, R.; Manara, J.: In Situ Measurement of Light Scattering in Porous Ceramics During Sintering. High Temperatures  - High Pressures, 2 (2000), pp. 385-390.

Raether, F.; Springer, R.; Beyer, St.: Optical dilatometry for the control of microstructure development during sintering, Mat. Res. Innovations, 4 (2001), pp. 245-250.

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Hausherr, J. M.¹; Eitel M.¹; Krenkel, W.: Determination of Material Properties for Short Fibre Reinforced C/C-SiC, Proceedingsband des Workshop on Testing and Modelling Ceramic and Carbon Matrix Composites (WCMC 2014). (to abstract)

A. Neubrand, A.¹; Hausherr, J. M.²; Lauer, A.³; Weiss, R.³; Wilhelmi, C.⁴: Investigation of cutting-induced damage in CMC bend bars, Proceedingsband des Workshop on Testing and Modelling Ceramic and Carbon Matrix Composites (WCMC 2014). (to abstract)

Hausherr, J. M.; Herrmann, C.; Spatz, C.; Krenkel, W.: Qualitative und quantitative mikrostrukturelle Untersuchungen der Werkstoffe bei der Herstellung von C/SiC-Hochleistungskeramiken mittels Computertomografie, Verbundwerkstoffe (Editor: W. Krenkel), WILEY-VCH Weinheim, Germany, 2009, pp. 233-240. (to abstract)

Herrmann, C.; Hausherr, J. M.; Krenkel, W.: Einsatz der Computertomografie zur zerstörungsfreien Prüfung und Charakterisierung von Faserverbundwerkstoffen, Verbundwerkstoffe (Editor: W. Krenkel), WILEY-VCH Weinheim, Germany, 2009, pp. 249-256. (to abstract)

Hausherr, J. M.; Krenkel, W.: Non-Destructive Testing Techniques for CMC Materials, Ceramic Matrix Comp. (Editor: W. Krenkel), WILEY-VCH Weinheim, Germany, 2008, pp. 261-285. (to abstract)

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