There is no generally acknowledged method or measuring unit to specify the extrusion behaviour of ceramic bodies. In order to obtain an adequately precise description of the extrusion behaviour, numerous specific methods do exist, which have to be chosen according to the material, for example for bodies to produce bricks and tiles or bodies for the manufacture of catalytic converters, as well as methods relating to specific application requirements, be it, for example, for the purposes of production, quality control or development of the body.
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References
Singer F, Singer SS (1964) Industrielle Keramik, Band 1 Die Rohstoffe. Springer Verlag Berlin, Göttingen, Heidelberg, New York, pp 280–428
Sütterlin D (1982) Das keramische Laboratorium. In: Bender W, Händle F (eds) Handbuch für die Ziegelindustrie. Bauverlag Wiesbaden und Berlin pp 532–550
Handbuch der Keramik (1996) Das keramische Laboratorium. Vol 4 IVA Verlag Schmidt Freiburg
Reh H (2001) Das Keramiker-Jahrbuch. Göller Verlag Baden-Baden
Mettler Toledo (1995) Methoden der Feuchtegehaltsbestimmung. Applikationsbroschüre
Webb P (2002) Interpretation of particle size reported by different analytical techniques. Homepage Micromeritics
Haase T (1957) Die Bildsamkeit plastischer keramischer Massen. J Berichte der DKG 34:27–33
Moore F (1965) Rheology of Ceramic Systems. Mac Laren and Sons Ltd., London
Astbury NF (1962) A plasticity model. J Trans Br Ceram Soc 62:1–18
Heuschkel H, Heuschkel G, Muche K (1990) ABC der Keramik. Verlag für die Grundstoffindustrie, p 329
Hofmann U (1970) Plastizität keramischer Massen. In: Handbuch der Keramik Gruppe IV B 2b, Verlag Schmidt Freiburg
Schlegel W (1982) Bestimmung der Bildsamkeit keramischer Massen. J Keramische Zeitschrift 34:149–152
Remmler T (2006) Bestimmung der Fliebeigenschaften von keramischen Massen mit einem Doppelkapillar-Rheometer. Malvern Instruments
Mazeo FA (2001) Extrusion and rheology of fine particulated ceramic pastes. Dissertation, Rutgers University New Jersey
Lawrence WG (1961) Clay-Water Systems. The Ceramic Association of New York, Alfred University, New York, pp 56–62
Händle F (1978) Contribution to the subject of plasticity in clay-water systems. J ZI Ziegelindustrie International 9:472–476
Länger F (1990–1993) Designing an extruder with allowance for the properties of ceramic extrusion compounds. Part 1 cfi/Berichte der DKG (German Ceramic Society Report) 67(3):162–164, Part 2a 68(9):409–412, Part 2b 68(10/11):531–533, Part 3 69(3):102–108, Part 4a 69(7/8):266–272, Part 4b 69(9):347–352, Part 5a 69(10):397–401, Part 5b 70(3):92–96
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Göhlert, K., Uebel, M. (2009). Test Methods for Plasticity and Extrusion Behaviour. In: Händle, F. (eds) Extrusion in Ceramics. Engineering Materials and Processes. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-27102-4_21
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DOI: https://doi.org/10.1007/978-3-540-27102-4_21
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