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Polymers, 946.","bibtex":"@article{Schöppner_Dörner_Marschik_Steinbichler_2020, title={Development of an Analytical Model to Describe the Disperse Melting in Wave-Dispersion Screws}, journal={Polymers}, author={Schöppner, Volker and Dörner, M. and Marschik, C. and Steinbichler, G.}, year={2020}, pages={946} }","mla":"Schöppner, Volker, et al. “Development of an Analytical Model to Describe the Disperse Melting in Wave-Dispersion Screws.” Polymers, 2020, p. 946.","short":"V. Schöppner, M. Dörner, C. Marschik, G. Steinbichler, Polymers (2020) 946.","ama":"Schöppner V, Dörner M, Marschik C, Steinbichler G. Development of an Analytical Model to Describe the Disperse Melting in Wave-Dispersion Screws. Polymers. Published online 2020:946.","chicago":"Schöppner, Volker, M. Dörner, C. Marschik, and G. Steinbichler. “Development of an Analytical Model to Describe the Disperse Melting in Wave-Dispersion Screws.” Polymers, 2020, 946.","ieee":"V. Schöppner, M. Dörner, C. Marschik, and G. Steinbichler, “Development of an Analytical Model to Describe the Disperse Melting in Wave-Dispersion Screws,” Polymers, p. 946, 2020."},"page":"946"},{"date_created":"2021-09-13T08:33:57Z","author":[{"first_name":"Elmar","id":"20531","full_name":"Moritzer, Elmar","last_name":"Moritzer"},{"first_name":"J.","last_name":"Jilg","full_name":"Jilg, J."},{"full_name":"Schilp, C.","last_name":"Schilp","first_name":"C."},{"full_name":"Krempl, N.","last_name":"Krempl","first_name":"N."},{"full_name":"Friesenbichler, W.","last_name":"Friesenbichler","first_name":"W."}],"date_updated":"2022-01-06T06:56:13Z","title":"Die Kunst der Entformung","citation":{"mla":"Moritzer, Elmar, et al. “Die Kunst Der Entformung.” Kunststoffe, 2020, pp. 60–63.","bibtex":"@article{Moritzer_Jilg_Schilp_Krempl_Friesenbichler_2020, title={Die Kunst der Entformung}, journal={Kunststoffe}, author={Moritzer, Elmar and Jilg, J. and Schilp, C. and Krempl, N. and Friesenbichler, W.}, year={2020}, pages={60–63} }","short":"E. Moritzer, J. Jilg, C. Schilp, N. Krempl, W. Friesenbichler, Kunststoffe (2020) 60–63.","apa":"Moritzer, E., Jilg, J., Schilp, C., Krempl, N., & Friesenbichler, W. (2020). Die Kunst der Entformung. Kunststoffe, 60–63.","ama":"Moritzer E, Jilg J, Schilp C, Krempl N, Friesenbichler W. Die Kunst der Entformung. Kunststoffe. Published online 2020:60-63.","ieee":"E. Moritzer, J. Jilg, C. Schilp, N. Krempl, and W. Friesenbichler, “Die Kunst der Entformung,” Kunststoffe, pp. 60–63, 2020.","chicago":"Moritzer, Elmar, J. Jilg, C. Schilp, N. Krempl, and W. Friesenbichler. “Die Kunst Der Entformung.” Kunststoffe, 2020, 60–63."},"page":"60-63","year":"2020","user_id":"44116","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"_id":"24232","language":[{"iso":"eng"}],"type":"journal_article","publication":"Kunststoffe","status":"public"},{"date_updated":"2022-01-06T06:56:13Z","date_created":"2021-09-13T08:36:03Z","author":[{"full_name":"Moritzer, Elmar","id":"20531","last_name":"Moritzer","first_name":"Elmar"},{"last_name":"Hopp","id":"13142","full_name":"Hopp, Matthias","first_name":"Matthias"},{"first_name":"Marius","last_name":"Wittke","full_name":"Wittke, Marius"}],"title":"EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG","year":"2020","citation":{"ieee":"E. Moritzer, M. Hopp, and M. Wittke, “EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG,” WAK Jahreszeitschrift, pp. 2–5, 2020.","chicago":"Moritzer, Elmar, Matthias Hopp, and Marius Wittke. “EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG.” WAK Jahreszeitschrift, 2020, 2–5.","ama":"Moritzer E, Hopp M, Wittke M. EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG. WAK Jahreszeitschrift. Published online 2020:2-5.","apa":"Moritzer, E., Hopp, M., & Wittke, M. (2020). EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG. WAK Jahreszeitschrift, 2–5.","bibtex":"@article{Moritzer_Hopp_Wittke_2020, title={EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG}, journal={WAK Jahreszeitschrift}, author={Moritzer, Elmar and Hopp, Matthias and Wittke, Marius}, year={2020}, pages={2–5} }","mla":"Moritzer, Elmar, et al. “EINSATZ VON MASCHINELLEM LERNEN FÜR DIE REZYKLAT-VERARBEITUNG.” WAK Jahreszeitschrift, 2020, pp. 2–5.","short":"E. Moritzer, M. Hopp, M. Wittke, WAK Jahreszeitschrift (2020) 2–5."},"page":"2-5","_id":"24233","user_id":"13142","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"language":[{"iso":"eng"}],"type":"journal_article","publication":"WAK Jahreszeitschrift","status":"public"},{"status":"public","publication":"Joining Plastics","type":"journal_article","language":[{"iso":"eng"}],"_id":"24234","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","year":"2020","page":"96-103","citation":{"apa":"Moritzer, E., & Krassmann, D. (2020). Entwicklung einer neuartigen Fügetechnik für Organoblech-Hybridverbindungen. Joining Plastics, 96–103.","short":"E. Moritzer, D. Krassmann, Joining Plastics (2020) 96–103.","bibtex":"@article{Moritzer_Krassmann_2020, title={Entwicklung einer neuartigen Fügetechnik für Organoblech-Hybridverbindungen}, journal={Joining Plastics}, author={Moritzer, Elmar and Krassmann, Dimitri}, year={2020}, pages={96–103} }","mla":"Moritzer, Elmar, and Dimitri Krassmann. “Entwicklung Einer Neuartigen Fügetechnik Für Organoblech-Hybridverbindungen.” Joining Plastics, 2020, pp. 96–103.","ama":"Moritzer E, Krassmann D. Entwicklung einer neuartigen Fügetechnik für Organoblech-Hybridverbindungen. Joining Plastics. Published online 2020:96-103.","ieee":"E. Moritzer and D. 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Fügetechnisches Gemeinschaftskolloquium. ; 2020.","chicago":"Moritzer, Elmar, Dimitri Krassmann, and Johannes Brikmann. “Entwicklung Eines Spritzgießsonderverfahrens Zur Herstellung von Hybridbauteilen Aus Faserverstärkten Thermoplasten Und Metallblechen.” In 10. Fügetechnisches Gemeinschaftskolloquium, 2020.","ieee":"E. Moritzer, D. Krassmann, and J. Brikmann, “Entwicklung eines Spritzgießsonderverfahrens zur Herstellung von Hybridbauteilen aus faserverstärkten Thermoplasten und Metallblechen,” presented at the 10. Fügetechnisches Gemeinschaftskolloquium, 2020."},"date_updated":"2022-01-06T06:56:13Z","date_created":"2021-09-13T08:40:29Z","author":[{"first_name":"Elmar","id":"20531","full_name":"Moritzer, Elmar","last_name":"Moritzer"},{"last_name":"Krassmann","id":"41916","full_name":"Krassmann, Dimitri","first_name":"Dimitri"},{"first_name":"Johannes","last_name":"Brikmann","full_name":"Brikmann, Johannes"}],"title":"Entwicklung eines Spritzgießsonderverfahrens zur Herstellung von Hybridbauteilen aus faserverstärkten Thermoplasten und Metallblechen","conference":{"name":"10. Fügetechnisches Gemeinschaftskolloquium"},"type":"conference","publication":"10. 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Kartelmeyer, M. Hüttemann, C. Jaroschek, in: 78th Annual Technical Conference for Plastics Professionals (ANTEC), San Antonio (USA), 2020.","apa":"Moritzer, E., Kartelmeyer, S., Hüttemann, M., & Jaroschek, C. (2020). INJECTION MOLD COOLED WITH ADDITIVE MANUFACTURED HEAT PIPE CORE-ELEMENT. 78th Annual Technical Conference for Plastics Professionals (ANTEC). 78th Annual Technical Conference for Plastics Professionals (ANTEC), San Antonio (USA).","ieee":"E. Moritzer, S. Kartelmeyer, M. Hüttemann, and C. Jaroschek, “INJECTION MOLD COOLED WITH ADDITIVE MANUFACTURED HEAT PIPE CORE-ELEMENT,” presented at the 78th Annual Technical Conference for Plastics Professionals (ANTEC), San Antonio (USA), 2020.","chicago":"Moritzer, Elmar, S. Kartelmeyer, M. Hüttemann, and C. Jaroschek. “INJECTION MOLD COOLED WITH ADDITIVE MANUFACTURED HEAT PIPE CORE-ELEMENT.” In 78th Annual Technical Conference for Plastics Professionals (ANTEC). San Antonio (USA), 2020.","ama":"Moritzer E, Kartelmeyer S, Hüttemann M, Jaroschek C. INJECTION MOLD COOLED WITH ADDITIVE MANUFACTURED HEAT PIPE CORE-ELEMENT. In: 78th Annual Technical Conference for Plastics Professionals (ANTEC). ; 2020."},"place":"San Antonio (USA)","year":"2020","author":[{"first_name":"Elmar","last_name":"Moritzer","id":"20531","full_name":"Moritzer, Elmar"},{"full_name":"Kartelmeyer, S.","last_name":"Kartelmeyer","first_name":"S."},{"first_name":"M.","full_name":"Hüttemann, M.","last_name":"Hüttemann"},{"full_name":"Jaroschek, C.","last_name":"Jaroschek","first_name":"C."}],"date_created":"2021-09-13T08:46:32Z","date_updated":"2022-01-06T06:56:13Z","conference":{"location":"San Antonio (USA)","name":"78th Annual Technical Conference for Plastics Professionals (ANTEC)"},"title":"INJECTION MOLD COOLED WITH ADDITIVE MANUFACTURED HEAT PIPE CORE-ELEMENT"},{"year":"2020","citation":{"ama":"Moritzer E, Mühlhoff FM. Inline Surface Activation in the multi Injection Molding Process. In: Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020. ; 2020.","ieee":"E. Moritzer and F. M. Mühlhoff, “Inline Surface Activation in the multi Injection Molding Process,” presented at the Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020, Digital, 2020.","chicago":"Moritzer, Elmar, and Frederik Marvin Mühlhoff. “Inline Surface Activation in the Multi Injection Molding Process.” In Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020, 2020.","apa":"Moritzer, E., & Mühlhoff, F. M. (2020). Inline Surface Activation in the multi Injection Molding Process. Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020. 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Mühlhoff, in: Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020, 2020."},"date_updated":"2022-01-06T06:56:13Z","date_created":"2021-09-13T08:48:33Z","author":[{"first_name":"Elmar","last_name":"Moritzer","full_name":"Moritzer, Elmar"},{"first_name":"Frederik Marvin","last_name":"Mühlhoff","full_name":"Mühlhoff, Frederik Marvin","id":"41312"}],"title":"Inline Surface Activation in the multi Injection Molding Process","conference":{"location":"Digital","name":"Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020"},"publication":"Annual Technical Conference of the Society of Plastics Engineers (ANTEC) 2020","type":"conference","status":"public","_id":"24238","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","language":[{"iso":"eng"}]},{"language":[{"iso":"eng"}],"_id":"24239","user_id":"44116","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"status":"public","type":"journal_article","publication":"KGK - Rubberpoint","title":"InMould-Plasma Technologie - Dauerhaft beständige 2K-Verbunde aus originär inkompatiblen Kunststoffen","date_updated":"2022-01-06T06:56:13Z","author":[{"first_name":"Elmar","last_name":"Moritzer","id":"20531","full_name":"Moritzer, Elmar"},{"first_name":"Frederik Marvin","full_name":"Mühlhoff, Frederik Marvin","id":"41312","last_name":"Mühlhoff"},{"full_name":"Lochbaum, Ella","last_name":"Lochbaum","first_name":"Ella"},{"first_name":"Erhard","last_name":"Krampe","full_name":"Krampe, Erhard"}],"date_created":"2021-09-13T08:51:22Z","year":"2020","citation":{"ama":"Moritzer E, Mühlhoff FM, Lochbaum E, Krampe E. InMould-Plasma Technologie - Dauerhaft beständige 2K-Verbunde aus originär inkompatiblen Kunststoffen. KGK - Rubberpoint. Published online 2020:22-26.","ieee":"E. Moritzer, F. M. Mühlhoff, E. Lochbaum, and E. Krampe, “InMould-Plasma Technologie - Dauerhaft beständige 2K-Verbunde aus originär inkompatiblen Kunststoffen,” KGK - Rubberpoint, pp. 22–26, 2020.","chicago":"Moritzer, Elmar, Frederik Marvin Mühlhoff, Ella Lochbaum, and Erhard Krampe. “InMould-Plasma Technologie - Dauerhaft Beständige 2K-Verbunde Aus Originär Inkompatiblen Kunststoffen.” KGK - Rubberpoint, 2020, 22–26.","apa":"Moritzer, E., Mühlhoff, F. M., Lochbaum, E., & Krampe, E. (2020). InMould-Plasma Technologie - Dauerhaft beständige 2K-Verbunde aus originär inkompatiblen Kunststoffen. KGK - Rubberpoint, 22–26.","mla":"Moritzer, Elmar, et al. “InMould-Plasma Technologie - Dauerhaft Beständige 2K-Verbunde Aus Originär Inkompatiblen Kunststoffen.” KGK - Rubberpoint, 2020, pp. 22–26.","bibtex":"@article{Moritzer_Mühlhoff_Lochbaum_Krampe_2020, title={InMould-Plasma Technologie - Dauerhaft beständige 2K-Verbunde aus originär inkompatiblen Kunststoffen}, journal={KGK - Rubberpoint}, author={Moritzer, Elmar and Mühlhoff, Frederik Marvin and Lochbaum, Ella and Krampe, Erhard}, year={2020}, pages={22–26} }","short":"E. Moritzer, F.M. Mühlhoff, E. Lochbaum, E. Krampe, KGK - Rubberpoint (2020) 22–26."},"page":"22-26","publication_identifier":{"unknown":["0948-3276"]}},{"publication_identifier":{"issn":["0034-6748","1089-7623"]},"publication_status":"published","citation":{"apa":"Rasche, D. B., Tigges, L., & Schmid, H.-J. (2020). An apparatus to synthesize ceramic nanoparticles with a precisely adjusted temperature history and a significant mass output. Review of Scientific Instruments, Article 055104. https://doi.org/10.1063/1.5133438","bibtex":"@article{Rasche_Tigges_Schmid_2020, title={An apparatus to synthesize ceramic nanoparticles with a precisely adjusted temperature history and a significant mass output}, DOI={10.1063/1.5133438}, number={055104}, journal={Review of Scientific Instruments}, author={Rasche, David B. and Tigges, Lena and Schmid, Hans-Joachim}, year={2020} }","mla":"Rasche, David B., et al. “An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output.” Review of Scientific Instruments, 055104, 2020, doi:10.1063/1.5133438.","short":"D.B. Rasche, L. Tigges, H.-J. Schmid, Review of Scientific Instruments (2020).","ieee":"D. B. Rasche, L. Tigges, and H.-J. Schmid, “An apparatus to synthesize ceramic nanoparticles with a precisely adjusted temperature history and a significant mass output,” Review of Scientific Instruments, Art. no. 055104, 2020, doi: 10.1063/1.5133438.","chicago":"Rasche, David B., Lena Tigges, and Hans-Joachim Schmid. “An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output.” Review of Scientific Instruments, 2020. https://doi.org/10.1063/1.5133438.","ama":"Rasche DB, Tigges L, Schmid H-J. An apparatus to synthesize ceramic nanoparticles with a precisely adjusted temperature history and a significant mass output. Review of Scientific Instruments. Published online 2020. doi:10.1063/1.5133438"},"year":"2020","author":[{"first_name":"David B.","full_name":"Rasche, David B.","last_name":"Rasche"},{"first_name":"Lena","last_name":"Tigges","full_name":"Tigges, Lena"},{"first_name":"Hans-Joachim","last_name":"Schmid","full_name":"Schmid, Hans-Joachim"}],"date_created":"2021-09-13T08:49:58Z","date_updated":"2022-01-06T06:56:13Z","doi":"10.1063/1.5133438","title":"An apparatus to synthesize ceramic nanoparticles with a precisely adjusted temperature history and a significant mass output","publication":"Review of Scientific Instruments","type":"journal_article","status":"public","user_id":"464","_id":"24240","language":[{"iso":"eng"}],"article_number":"055104"},{"publication_status":"published","citation":{"apa":"Rasche, D. B., Tigges, L., & Schmid, H.-J. (2020). An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output. Review of Scientific Instruments, 91, 055104. https://doi.org/10.1063/1.5133438","short":"D.B. Rasche, L. Tigges, H.-J. Schmid, Review of Scientific Instruments 91 (2020) 055104.","mla":"Rasche, David B., et al. “An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output.” Review of Scientific Instruments, vol. 91, AIP Publishing, 2020, p. 055104, doi:10.1063/1.5133438.","bibtex":"@article{Rasche_Tigges_Schmid_2020, title={An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output}, volume={91}, DOI={10.1063/1.5133438}, journal={Review of Scientific Instruments}, publisher={AIP Publishing}, author={Rasche, David B. and Tigges, Lena and Schmid, Hans-Joachim}, year={2020}, pages={055104} }","ieee":"D. B. Rasche, L. Tigges, and H.-J. Schmid, “An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output,” Review of Scientific Instruments, vol. 91, p. 055104, 2020, doi: 10.1063/1.5133438.","chicago":"Rasche, David B., Lena Tigges, and Hans-Joachim Schmid. “An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output.” Review of Scientific Instruments 91 (2020): 055104. https://doi.org/10.1063/1.5133438.","ama":"Rasche DB, Tigges L, Schmid H-J. An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output. Review of Scientific Instruments. 2020;91:055104. doi:10.1063/1.5133438"},"intvolume":" 91","page":"055104","date_updated":"2022-01-06T06:56:13Z","author":[{"last_name":"Rasche","full_name":"Rasche, David B.","first_name":"David B."},{"first_name":"Lena","full_name":"Tigges, Lena","last_name":"Tigges"},{"first_name":"Hans-Joachim","id":"464","full_name":"Schmid, Hans-Joachim","last_name":"Schmid"}],"volume":91,"doi":"10.1063/1.5133438","type":"journal_article","status":"public","_id":"24241","user_id":"464","department":[{"_id":"9"}],"article_type":"original","quality_controlled":"1","year":"2020","publisher":"AIP Publishing","date_created":"2021-09-13T08:59:12Z","title":"An Apparatus to Synthesize Ceramic Nanoparticles with a Precisely Adjusted Temperature History and a Significant Mass Output","publication":"Review of Scientific Instruments","abstract":[{"text":"For gas phase nanoparticle production, hot wall reactors are widely used. In this article, we will describe the fundamental design considerations for a hot wall reactor system able to produce oxide nanoparticles. The system is outstanding in its ability to produce mostly spherical nanoparticles at particle sizes of up to 100 nm and even larger at mass outputs in the order of grams per hour by being able to rapidly quench the aerosol. While high production rates or larger particle sizes are already easily obtained with hot wall reactors, it is very challenging to produce these spherical particles at high mass rates. We will show in this research that the temperature and the particle number concentration are the major aspects influencing the particle morphology at the end of the process. Investigation on the performance of the setup shows good control over the temperature and the particle production stability. A representative particle characterization using SEM and scanning mobility particle sizer showed that particles are mostly spherical, while the particle size distribution had a geometric standard deviation close to 1.5. In addition to the aspects mentioned above, a possibility to manipulate the aggregation downstream of the reactor is to be presented as well. We found that applying electrical charges to the aerosol particles (in opposite polarity) can significantly foster aggregation.","lang":"eng"}],"language":[{"iso":"eng"}]},{"publication_identifier":{"unknown":["978-3-030-54333-4 "]},"page":"112-129","citation":{"ama":"Moritzer E, Hirsch A, Dalmer C. Investigation of Plastic Freeformed, Open-Pored Structures with Regard to Producibility, Reproducibility and Liquid Permeability. In: Additive Manufacturing in Products and Applications (AMPA). ; 2020:112-129.","chicago":"Moritzer, Elmar, André Hirsch, and C. 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