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Springer; 2020. doi:10.1007/978-3-030-36628-5_7"},"quality_controlled":"1","publication_identifier":{"issn":["2367-1181","2367-1696"]},"publication_status":"published","language":[{"iso":"eng"}],"_id":"23801","department":[{"_id":"158"},{"_id":"321"}],"user_id":"24803","status":"public","publication":"The Minerals, Metals & Materials Series","type":"book_chapter"},{"_id":"23861","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"33420","language":[{"iso":"eng"}],"publication":"Kunststoffe","type":"journal_article","status":"public","date_updated":"2022-01-06T06:56:02Z","publisher":"Carl Hanser Verlag","date_created":"2021-09-07T10:45:44Z","author":[{"last_name":"Altepeter","full_name":"Altepeter, Matthias","id":"33420","first_name":"Matthias"},{"first_name":"Volker","full_name":"Schöppner, Volker","id":"20530","last_name":"Schöppner"}],"title":"Materialabbau im Doppelschneckenextruder","year":"2020","citation":{"mla":"Altepeter, Matthias, and Volker Schöppner. “Materialabbau Im Doppelschneckenextruder.” Kunststoffe, Carl Hanser Verlag, 2020.","bibtex":"@article{Altepeter_Schöppner_2020, title={Materialabbau im Doppelschneckenextruder}, journal={Kunststoffe}, publisher={Carl Hanser Verlag}, author={Altepeter, Matthias and Schöppner, Volker}, year={2020} }","short":"M. 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Various simplifications are necessary for an analytical modelling of the solids conveying, e.g. the classification into conveying cases, the assumption of solid block flow and the assumption of pressure anisotropy coefficients. In numerical simulations with the Discrete Element Method (DEM), which has recently been successfully used to describe solids conveying in smooth barrel extruders, the simplifications mentioned above are not taken into account. Here, the pellets are approximated as spherical particles or particles composed of spheres. Based on virtual overlaps, contact models and the solution of Newton's equations of motion, a more complex consideration of the pellet flow is possible. In each iteration step of the simulation, the particle velocities, contact forces and derived quantities, e.g. the mass throughput in the screw channel and the grooves or the radial pressure build-up along the grooved barrel can be evaluated. Therefore, a DEM simulation model can be investigated by means of statistical design of experiments in order to convert the target values into a metamodel by regression. Long computation times of numerical simulations will be avoided in this matter as well as too simple assumptions of analytical approaches. The influencing parameters to be simulated are divided into material, geometry and process parameters. Relevant material parameters are the coefficients of friction of the polymer-polymer and polymer-steel surface as well as the restitution coefficient and the particle diameter. The geometry is varied in the form of the screw diameter, the channel depth and pitch, the number of grooves and their width, depth and angle. By varying the angle, both conventional axial grooves and helical grooves are taken into account. Finally, the process parameters speed and backpressure are also considered in the simulations. In order to reduce the simulation effort, irrelevant parameters are identified in preliminary investigations.\r\n","lang":"eng"}],"date_created":"2021-09-07T11:21:23Z","author":[{"id":"20530","full_name":"Schöppner, Volker","last_name":"Schöppner","first_name":"Volker"},{"id":"72920","full_name":"Brüning, Florian","last_name":"Brüning","first_name":"Florian"}],"date_updated":"2022-01-06T06:56:02Z","publisher":"Springer","title":"Development of a Solids Conveying Throughput Model for Grooved Barrel Extruders based on Discrete Element Simulations","publication_status":"published","publication_identifier":{"unknown":["9783662608081"]},"quality_controlled":"1","citation":{"apa":"Schöppner, V., & Brüning, F. (2020). Development of a Solids Conveying Throughput Model for Grooved Barrel Extruders based on Discrete Element Simulations. In C. Hopmann & R. Dahlmann (Eds.), Advances in Polymer Processing 2020: Proceedings of the International Symposium on Plastics Technology. 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Brüning, “Development of a Solids Conveying Throughput Model for Grooved Barrel Extruders based on Discrete Element Simulations,” in Advances in Polymer Processing 2020: Proceedings of the International Symposium on Plastics Technology, 2020."},"year":"2020"},{"year":"2020","intvolume":" 365","citation":{"apa":"Albrecht, M., Bialaschik, M., Gehde, M., & Schöppner, V. (2020). Einfluss der Materialschädigung auf die Schweißnahtqualität beim Warmgasstumpfschweißen von Polyamiden. 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Kolloquium Gemeinsame Forschung in der Klebtechnik"},"title":"Experimentelle und numerische Untersuchung der Dämpfungseigenschaften geklebter Strukturen unter dynamischer Beanspruchung","corporate_editor":["DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. "],"citation":{"bibtex":"@inproceedings{Göddecke_Meschut_Teutenberg_Ummenhofer_Albiez_Damm_Matzenmiller_Kötz_2020, series={20. Kolloquium Gemeinsame Forschung in der Klebtechnik}, title={Experimentelle und numerische Untersuchung der Dämpfungseigenschaften geklebter Strukturen unter dynamischer Beanspruchung}, booktitle={20. Kolloquium Gemeinsame Forschung in der Klebtechnik}, author={Göddecke, Johannes and Meschut, Gerson and Teutenberg, Dominik and Ummenhofer, Thomas and Albiez, Matthias and Damm, Jannis and Matzenmiller, Anton and Kötz, Fabian}, editor={DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. Editor}, year={2020}, collection={20. Kolloquium Gemeinsame Forschung in der Klebtechnik} }","mla":"Göddecke, Johannes, et al. “Experimentelle Und Numerische Untersuchung Der Dämpfungseigenschaften Geklebter Strukturen Unter Dynamischer Beanspruchung.” 20. Kolloquium Gemeinsame Forschung in Der Klebtechnik, edited by DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. , 2020.","short":"J. Göddecke, G. Meschut, D. Teutenberg, T. Ummenhofer, M. Albiez, J. Damm, A. Matzenmiller, F. Kötz, in: DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. (Ed.), 20. Kolloquium Gemeinsame Forschung in Der Klebtechnik, 2020.","apa":"Göddecke, J., Meschut, G., Teutenberg, D., Ummenhofer, T., Albiez, M., Damm, J., … Kötz, F. (2020). Experimentelle und numerische Untersuchung der Dämpfungseigenschaften geklebter Strukturen unter dynamischer Beanspruchung. In DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. (Ed.), 20. Kolloquium Gemeinsame Forschung in der Klebtechnik.","ama":"Göddecke J, Meschut G, Teutenberg D, et al. Experimentelle und numerische Untersuchung der Dämpfungseigenschaften geklebter Strukturen unter dynamischer Beanspruchung. In: DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. , ed. 20. Kolloquium Gemeinsame Forschung in Der Klebtechnik. 20. Kolloquium Gemeinsame Forschung in der Klebtechnik. ; 2020.","chicago":"Göddecke, Johannes, Gerson Meschut, Dominik Teutenberg, Thomas Ummenhofer, Matthias Albiez, Jannis Damm, Anton Matzenmiller, and Fabian Kötz. “Experimentelle Und Numerische Untersuchung Der Dämpfungseigenschaften Geklebter Strukturen Unter Dynamischer Beanspruchung.” In 20. Kolloquium Gemeinsame Forschung in Der Klebtechnik, edited by DECHEMA, Gesellschaft für Chemische Technik und Biotechnologie e.V. . 20. Kolloquium Gemeinsame Forschung in Der Klebtechnik, 2020.","ieee":"J. Göddecke et al., “Experimentelle und numerische Untersuchung der Dämpfungseigenschaften geklebter Strukturen unter dynamischer Beanspruchung,” in 20. Kolloquium Gemeinsame Forschung in der Klebtechnik, 2020."},"year":"2020"}]