[{"publication":"Welding in the World","popular_science":"1","type":"journal_article","abstract":[{"text":"The joining of plastics is required because component geometries are severely restricted in conventional manufacturing processes such as injection molding or extrusion. In addition to established processes such as hot plate welding, infrared welding, or vibration welding, hot gas butt welding is becoming more and more important industrially due to its advantages. The main benefits are the contactless heating process, the suitability for glass fiber reinforced, and high-temperature plastics as well as complex component geometries. However, various degradation phenomena can occur during the heating process used for economic reasons, due to the presence of oxygen in the air and to the high gas temperatures. In addition, the current patent situation suggests that welding with an oxidizing gas is not permissible depending on the material. On the other hand, however, there is experience from extrusion welding, with which long-term resistant weld seams can be produced using air. Investigations have shown that the same weld seam properties can be achieved with polypropylene using either air or nitrogen as the process gas. Experimental investigations have now been carried out on the suitability of different gases with regard to the weld seam quality when welding polyamides, which are generally regarded as more prone to oxidation. The results show that weld strengths are higher when nitrogen is used as process gas. However, equal weld strengths can be achieved with air and nitrogen when the material contains heat stabilizers.","lang":"eng"}],"status":"public","_id":"23867","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"32297","language":[{"iso":"eng"}],"quality_controlled":"1","publication_identifier":{"issn":["0043-2288","1878-6669"]},"publication_status":"published","year":"2021","page":"1161-1169","citation":{"chicago":"Bialaschik, Max, Volker Schöppner, Mirko Albrecht, and Michael Gehde. “Influence of Material Degradation on Weld Seam Quality in Hot Gas Butt Welding of Polyamides.” Welding in the World, 2021, 1161–69. https://doi.org/10.1007/s40194-021-01108-0.","ieee":"M. Bialaschik, V. Schöppner, M. Albrecht, and M. Gehde, “Influence of material degradation on weld seam quality in hot gas butt welding of polyamides,” Welding in the World, pp. 1161–1169, 2021, doi: 10.1007/s40194-021-01108-0.","ama":"Bialaschik M, Schöppner V, Albrecht M, Gehde M. Influence of material degradation on weld seam quality in hot gas butt welding of polyamides. Welding in the World. Published online 2021:1161-1169. doi:10.1007/s40194-021-01108-0","short":"M. Bialaschik, V. Schöppner, M. Albrecht, M. Gehde, Welding in the World (2021) 1161–1169.","mla":"Bialaschik, Max, et al. “Influence of Material Degradation on Weld Seam Quality in Hot Gas Butt Welding of Polyamides.” Welding in the World, 2021, pp. 1161–69, doi:10.1007/s40194-021-01108-0.","bibtex":"@article{Bialaschik_Schöppner_Albrecht_Gehde_2021, title={Influence of material degradation on weld seam quality in hot gas butt welding of polyamides}, DOI={10.1007/s40194-021-01108-0}, journal={Welding in the World}, author={Bialaschik, Max and Schöppner, Volker and Albrecht, Mirko and Gehde, Michael}, year={2021}, pages={1161–1169} }","apa":"Bialaschik, M., Schöppner, V., Albrecht, M., & Gehde, M. (2021). Influence of material degradation on weld seam quality in hot gas butt welding of polyamides. Welding in the World, 1161–1169. https://doi.org/10.1007/s40194-021-01108-0"},"date_updated":"2022-04-25T10:29:46Z","date_created":"2021-09-07T11:32:27Z","author":[{"last_name":"Bialaschik","id":"32297","full_name":"Bialaschik, Max","first_name":"Max"},{"first_name":"Volker","last_name":"Schöppner","full_name":"Schöppner, Volker","id":"20530"},{"first_name":"Mirko","last_name":"Albrecht","full_name":"Albrecht, Mirko"},{"first_name":"Michael","last_name":"Gehde","full_name":"Gehde, Michael"}],"title":"Influence of material degradation on weld seam quality in hot gas butt welding of polyamides","doi":"10.1007/s40194-021-01108-0"},{"doi":"10.1002/pc.26285","title":"Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters","author":[{"last_name":"Moritzer","id":"20531","full_name":"Moritzer, Elmar","first_name":"Elmar"},{"first_name":"Christian Lennart","id":"70729","full_name":"Elsner, Christian Lennart","last_name":"Elsner"},{"first_name":"Christian","last_name":"Schumacher","full_name":"Schumacher, Christian"}],"date_created":"2021-09-16T11:44:48Z","volume":42,"date_updated":"2022-04-25T08:08:07Z","citation":{"bibtex":"@article{Moritzer_Elsner_Schumacher_2021, title={Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters}, volume={42}, DOI={10.1002/pc.26285}, number={11}, journal={Polymer Composites}, author={Moritzer, Elmar and Elsner, Christian Lennart and Schumacher, Christian}, year={2021}, pages={6065–6079} }","mla":"Moritzer, Elmar, et al. “Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters.” Polymer Composites, vol. 42, no. 11, 2021, pp. 6065–79, doi:10.1002/pc.26285.","short":"E. Moritzer, C.L. Elsner, C. Schumacher, Polymer Composites 42 (2021) 6065–6079.","apa":"Moritzer, E., Elsner, C. L., & Schumacher, C. (2021). Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters. Polymer Composites, 42(11), 6065–6079. https://doi.org/10.1002/pc.26285","chicago":"Moritzer, Elmar, Christian Lennart Elsner, and Christian Schumacher. “Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters.” Polymer Composites 42, no. 11 (2021): 6065–79. https://doi.org/10.1002/pc.26285.","ieee":"E. Moritzer, C. L. Elsner, and C. Schumacher, “Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters,” Polymer Composites, vol. 42, no. 11, pp. 6065–6079, 2021, doi: 10.1002/pc.26285.","ama":"Moritzer E, Elsner CL, Schumacher C. Investigation of Metal‐Polymer Composites Manufactured by Fused Deposition Modeling with Regard to Process Parameters. Polymer Composites. 2021;42(11):6065-6079. doi:10.1002/pc.26285"},"page":"6065-6079","intvolume":" 42","year":"2021","issue":"11","publication_status":"published","quality_controlled":"1","publication_identifier":{"issn":["0272-8397","1548-0569"]},"language":[{"iso":"eng"}],"user_id":"70729","department":[{"_id":"219"},{"_id":"624"},{"_id":"367"},{"_id":"9"},{"_id":"321"}],"_id":"24555","status":"public","type":"journal_article","publication":"Polymer Composites"},{"year":"2021","citation":{"short":"T. Wu, S.R. Tinkloh, T. Tröster, W. Zinn, T. Niendorf, Metals (2021).","mla":"Wu, Tao, et al. “Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components.” Metals, 335, 2021, doi:10.3390/met11020335.","bibtex":"@article{Wu_Tinkloh_Tröster_Zinn_Niendorf_2021, title={Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components}, DOI={10.3390/met11020335}, number={335}, journal={Metals}, author={Wu, Tao and Tinkloh, Steffen Rainer and Tröster, Thomas and Zinn, Wolfgang and Niendorf, Thomas}, year={2021} }","apa":"Wu, T., Tinkloh, S. R., Tröster, T., Zinn, W., & Niendorf, T. (2021). Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components. Metals, Article 335. https://doi.org/10.3390/met11020335","ama":"Wu T, Tinkloh SR, Tröster T, Zinn W, Niendorf T. Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components. Metals. Published online 2021. doi:10.3390/met11020335","chicago":"Wu, Tao, Steffen Rainer Tinkloh, Thomas Tröster, Wolfgang Zinn, and Thomas Niendorf. “Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components.” Metals, 2021. https://doi.org/10.3390/met11020335.","ieee":"T. Wu, S. R. Tinkloh, T. Tröster, W. Zinn, and T. Niendorf, “Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components,” Metals, Art. no. 335, 2021, doi: 10.3390/met11020335."},"publication_status":"published","publication_identifier":{"issn":["2075-4701"]},"quality_controlled":"1","title":"Measurement and Analysis of Residual Stresses and Warpage in Fiber Reinforced Plastic and Hybrid Components","doi":"10.3390/met11020335","date_updated":"2022-04-26T06:34:21Z","author":[{"first_name":"Tao","last_name":"Wu","full_name":"Wu, Tao"},{"last_name":"Tinkloh","id":"72722","full_name":"Tinkloh, Steffen Rainer","first_name":"Steffen Rainer"},{"first_name":"Thomas","last_name":"Tröster","id":"553","full_name":"Tröster, Thomas"},{"first_name":"Wolfgang","last_name":"Zinn","full_name":"Zinn, Wolfgang"},{"first_name":"Thomas","last_name":"Niendorf","full_name":"Niendorf, Thomas"}],"date_created":"2021-09-10T08:25:01Z","abstract":[{"lang":"eng","text":"Glass/carbon fiber reinforced plastic (GFRP/CFRP) and hybrid components have attracted increasing attention in lightweight applications. However, residual stresses induced in the manufacturing process of these components can result in warpage and, eventually, negatively affect the mechanical performance of the composite structures. In the present work, GFRP, CFRP, GFRP/steel and CFRP/steel hybrid components were manufactured through the prepreg-press-technology always employing the same process parameters. The residual stresses of these components were measured through the hole drilling method (HDM), based on an adequate formalism to evaluate the residual stresses for orthotropic materials including the calculation of the calibration coefficients via finite element analysis (FEA). In FEA, the real material lay-up and mechanical properties of the samples were considered. The warpage induced by residual stresses was measured after the samples were removed from the tool. The measured residual stresses and warpage of four different types of samples were compared and results were analyzed in depth. The results obtained can be extended to other hybrid materials and even could be used for designing multi-stable laminates for application in adaptive structures. Moreover, the effects of the drilling process parameters of HDM, e.g., the drilling speed, the drilling increment and the zero-depth setting, on the resulting residual stresses of GFRP were investigated. The reliability of residual stress measurements in GFRP using HDM was validated through mechanical bending tests. The conclusions concerning the choice of optimal drilling parameters for GFRP could be directly applied for other types of samples considered in the present work."}],"status":"public","type":"journal_article","publication":"Metals","article_number":"335","language":[{"iso":"eng"}],"_id":"24131","user_id":"72722","department":[{"_id":"9"},{"_id":"321"},{"_id":"149"}]},{"citation":{"ieee":"S. R. Tinkloh, T. Wu, T. Tröster, and T. Niendorf, “The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis,” Metals, Art. no. 156, 2021, doi: 10.3390/met11010156.","chicago":"Tinkloh, Steffen Rainer, Tao Wu, Thomas Tröster, and Thomas Niendorf. “The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis.” Metals, 2021. https://doi.org/10.3390/met11010156.","ama":"Tinkloh SR, Wu T, Tröster T, Niendorf T. The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis. Metals. Published online 2021. doi:10.3390/met11010156","short":"S.R. Tinkloh, T. Wu, T. Tröster, T. Niendorf, Metals (2021).","mla":"Tinkloh, Steffen Rainer, et al. “The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis.” Metals, 156, 2021, doi:10.3390/met11010156.","bibtex":"@article{Tinkloh_Wu_Tröster_Niendorf_2021, title={The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis}, DOI={10.3390/met11010156}, number={156}, journal={Metals}, author={Tinkloh, Steffen Rainer and Wu, Tao and Tröster, Thomas and Niendorf, Thomas}, year={2021} }","apa":"Tinkloh, S. R., Wu, T., Tröster, T., & Niendorf, T. (2021). The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis. Metals, Article 156. https://doi.org/10.3390/met11010156"},"year":"2021","publication_status":"published","quality_controlled":"1","publication_identifier":{"issn":["2075-4701"]},"doi":"10.3390/met11010156","title":"The Effect of Fiber Waviness on the Residual Stress State and Its Prediction by the Hole Drilling Method in Fiber Metal Laminates: A Global-Local Finite Element Analysis","author":[{"first_name":"Steffen Rainer","id":"72722","full_name":"Tinkloh, Steffen Rainer","last_name":"Tinkloh"},{"first_name":"Tao","full_name":"Wu, Tao","last_name":"Wu"},{"full_name":"Tröster, Thomas","id":"553","last_name":"Tröster","first_name":"Thomas"},{"last_name":"Niendorf","full_name":"Niendorf, Thomas","first_name":"Thomas"}],"date_created":"2021-01-24T16:12:14Z","date_updated":"2022-04-26T06:34:47Z","status":"public","type":"journal_article","publication":"Metals","language":[{"iso":"eng"}],"article_number":"156","user_id":"72722","department":[{"_id":"149"},{"_id":"9"},{"_id":"321"}],"project":[{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"_id":"21064"},{"language":[{"iso":"eng"}],"_id":"31744","publication_date":"2021","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","status":"public","publication":"Joining Plastics","type":"newspaper_article","title":"Designing of thermosetting plastic components for direct screwing - Auslegung von Duroplastbauteilen zur Direktverschraubung","date_updated":"2022-06-07T09:34:48Z","author":[{"last_name":"Moritzer","full_name":"Moritzer, Elmar","id":"20531","first_name":"Elmar"},{"full_name":"Hillemeyer, Johannes","id":"27285","last_name":"Hillemeyer","first_name":"Johannes"},{"first_name":"M.","full_name":"Kramer, M.","last_name":"Kramer"},{"first_name":"C.","last_name":"Hopmann","full_name":"Hopmann, C."}],"date_created":"2022-06-07T09:34:45Z","year":"2021","page":"94-103","citation":{"apa":"Moritzer, E., Hillemeyer, J., Kramer, M., & Hopmann, C. (2021). Designing of thermosetting plastic components for direct screwing - Auslegung von Duroplastbauteilen zur Direktverschraubung. Joining Plastics, 94–103.","short":"E. Moritzer, J. Hillemeyer, M. Kramer, C. Hopmann, Joining Plastics (2021) 94–103.","bibtex":"@article{Moritzer_Hillemeyer_Kramer_Hopmann_2021, title={Designing of thermosetting plastic components for direct screwing - Auslegung von Duroplastbauteilen zur Direktverschraubung}, journal={Joining Plastics}, author={Moritzer, Elmar and Hillemeyer, Johannes and Kramer, M. and Hopmann, C.}, year={2021}, pages={94–103} }","mla":"Moritzer, Elmar, et al. “Designing of Thermosetting Plastic Components for Direct Screwing - Auslegung von Duroplastbauteilen Zur Direktverschraubung.” Joining Plastics, 2021, pp. 94–103.","chicago":"Moritzer, Elmar, Johannes Hillemeyer, M. Kramer, and C. Hopmann. “Designing of Thermosetting Plastic Components for Direct Screwing - Auslegung von Duroplastbauteilen Zur Direktverschraubung.” Joining Plastics, 2021.","ieee":"E. Moritzer, J. Hillemeyer, M. Kramer, and C. Hopmann, “Designing of thermosetting plastic components for direct screwing - Auslegung von Duroplastbauteilen zur Direktverschraubung,” Joining Plastics, pp. 94–103, 2021.","ama":"Moritzer E, Hillemeyer J, Kramer M, Hopmann C. Designing of thermosetting plastic components for direct screwing - Auslegung von Duroplastbauteilen zur Direktverschraubung. Joining Plastics. 2021:94-103."},"publication_identifier":{"issn":["1864-3450"]}},{"publication_date":"2021","_id":"31740","user_id":"44116","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"language":[{"iso":"eng"}],"type":"newspaper_article","publication":"Journal of Applied Polymer Science","status":"public","date_updated":"2022-06-07T09:32:54Z","date_created":"2022-06-07T09:32:45Z","author":[{"last_name":"Moritzer","full_name":"Moritzer, Elmar","id":"20531","first_name":"Elmar"},{"first_name":"Maximilian","last_name":"Richters","full_name":"Richters, Maximilian","id":"38221"}],"volume":138,"title":" Characterization of wood-filled thermoplastic polyurethanes for the injection molding process","issue":"38","year":"2021","citation":{"chicago":"Moritzer, Elmar, and Maximilian Richters. “ Characterization of Wood-Filled Thermoplastic Polyurethanes for the Injection Molding Process.” Journal of Applied Polymer Science, 2021.","ieee":"E. Moritzer and M. Richters, “ Characterization of wood-filled thermoplastic polyurethanes for the injection molding process,” Journal of Applied Polymer Science, vol. 138, no. 38, 2021.","ama":"Moritzer E, Richters M. Characterization of wood-filled thermoplastic polyurethanes for the injection molding process. Journal of Applied Polymer Science. 2021.","apa":"Moritzer, E., & Richters, M. (2021). Characterization of wood-filled thermoplastic polyurethanes for the injection molding process. Journal of Applied Polymer Science, 138(38).","short":"E. Moritzer, M. Richters, Journal of Applied Polymer Science 138 (2021).","mla":"Moritzer, Elmar, and Maximilian Richters. “ Characterization of Wood-Filled Thermoplastic Polyurethanes for the Injection Molding Process.” Journal of Applied Polymer Science, vol. 138, no. 38, 2021.","bibtex":"@article{Moritzer_Richters_2021, title={ Characterization of wood-filled thermoplastic polyurethanes for the injection molding process}, volume={138}, number={38}, journal={Journal of Applied Polymer Science}, author={Moritzer, Elmar and Richters, Maximilian}, year={2021} }"},"intvolume":" 138"},{"status":"public","publication":"11. Fügetechnisches Gemeinschaftskolloquium","type":"conference","language":[{"iso":"eng"}],"department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","_id":"31760","citation":{"apa":"Moritzer, E., Krassmann, D., & Brikmann, J. (2021). Entwicklung der Spritzniettechnik als werkstoffgerechtes Fügeverfahren für hybride Strukturen. 11. Fügetechnisches Gemeinschaftskolloquium. 11. Fügetechnisches Gemeinschaftskolloquium, Dresden.","mla":"Moritzer, Elmar, et al. “Entwicklung Der Spritzniettechnik Als Werkstoffgerechtes Fügeverfahren Für Hybride Strukturen.” 11. Fügetechnisches Gemeinschaftskolloquium, 2021.","bibtex":"@inproceedings{Moritzer_Krassmann_Brikmann_2021, place={Dresden}, title={Entwicklung der Spritzniettechnik als werkstoffgerechtes Fügeverfahren für hybride Strukturen}, booktitle={11. Fügetechnisches Gemeinschaftskolloquium}, author={Moritzer, Elmar and Krassmann, Dimitri and Brikmann, Johannes}, year={2021} }","short":"E. Moritzer, D. Krassmann, J. Brikmann, in: 11. Fügetechnisches Gemeinschaftskolloquium, Dresden, 2021.","ieee":"E. Moritzer, D. Krassmann, and J. Brikmann, “Entwicklung der Spritzniettechnik als werkstoffgerechtes Fügeverfahren für hybride Strukturen,” presented at the 11. Fügetechnisches Gemeinschaftskolloquium, Dresden, 2021.","chicago":"Moritzer, Elmar, Dimitri Krassmann, and Johannes Brikmann. “Entwicklung Der Spritzniettechnik Als Werkstoffgerechtes Fügeverfahren Für Hybride Strukturen.” In 11. Fügetechnisches Gemeinschaftskolloquium. Dresden, 2021.","ama":"Moritzer E, Krassmann D, Brikmann J. Entwicklung der Spritzniettechnik als werkstoffgerechtes Fügeverfahren für hybride Strukturen. In: 11. Fügetechnisches Gemeinschaftskolloquium. ; 2021."},"year":"2021","place":"Dresden","conference":{"location":"Dresden","name":"11. Fügetechnisches Gemeinschaftskolloquium"},"title":"Entwicklung der Spritzniettechnik als werkstoffgerechtes Fügeverfahren für hybride Strukturen","author":[{"first_name":"Elmar","last_name":"Moritzer","full_name":"Moritzer, Elmar","id":"20531"},{"last_name":"Krassmann","id":"41916","full_name":"Krassmann, Dimitri","first_name":"Dimitri"},{"first_name":"Johannes","last_name":"Brikmann","full_name":"Brikmann, Johannes"}],"date_created":"2022-06-07T09:41:17Z","date_updated":"2022-06-07T09:41:23Z"},{"year":"2021","citation":{"bibtex":"@article{Moritzer_Jilg_Rücker_2021, title={Er kommt auf die Korngröße an, Mikrogranulat verbessert die Verteilung feindisperser Füllstoffe in der Direktcompoundierung}, journal={Kunststoffe}, author={Moritzer, Elmar and Jilg, J. and Rücker, Tobias}, year={2021}, pages={24–27} }","short":"E. Moritzer, J. Jilg, T. Rücker, Kunststoffe (2021) 24–27.","mla":"Moritzer, Elmar, et al. “Er Kommt Auf Die Korngröße an, Mikrogranulat Verbessert Die Verteilung Feindisperser Füllstoffe in Der Direktcompoundierung.” Kunststoffe, 2021, pp. 24–27.","apa":"Moritzer, E., Jilg, J., & Rücker, T. (2021). Er kommt auf die Korngröße an, Mikrogranulat verbessert die Verteilung feindisperser Füllstoffe in der Direktcompoundierung. Kunststoffe, 24–27.","ama":"Moritzer E, Jilg J, Rücker T. Er kommt auf die Korngröße an, Mikrogranulat verbessert die Verteilung feindisperser Füllstoffe in der Direktcompoundierung. Kunststoffe. 2021:24-27.","chicago":"Moritzer, Elmar, J. Jilg, and Tobias Rücker. “Er Kommt Auf Die Korngröße an, Mikrogranulat Verbessert Die Verteilung Feindisperser Füllstoffe in Der Direktcompoundierung.” Kunststoffe, 2021.","ieee":"E. Moritzer, J. Jilg, and T. Rücker, “Er kommt auf die Korngröße an, Mikrogranulat verbessert die Verteilung feindisperser Füllstoffe in der Direktcompoundierung,” Kunststoffe, pp. 24–27, 2021."},"page":"24-27","title":"Er kommt auf die Korngröße an, Mikrogranulat verbessert die Verteilung feindisperser Füllstoffe in der Direktcompoundierung","date_updated":"2022-06-07T09:43:06Z","author":[{"first_name":"Elmar","full_name":"Moritzer, Elmar","id":"20531","last_name":"Moritzer"},{"full_name":"Jilg, J.","last_name":"Jilg","first_name":"J."},{"first_name":"Tobias","full_name":"Rücker, Tobias","last_name":"Rücker"}],"date_created":"2022-06-07T09:42:58Z","status":"public","type":"newspaper_article","publication":"Kunststoffe","language":[{"iso":"eng"}],"publication_date":"2021","_id":"31762","user_id":"44116","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}]},{"date_updated":"2022-06-07T09:39:31Z","date_created":"2022-06-07T09:39:25Z","author":[{"full_name":"Schöppner, Volker","id":"20530","last_name":"Schöppner","first_name":"Volker"},{"full_name":"Martens, Jan Hendrik","id":"38293","last_name":"Martens","first_name":"Jan Hendrik"}],"title":"Eine runde Sache","publication_identifier":{"issn":["0023- 5563"]},"year":"2021","page":"91-93","citation":{"chicago":"Schöppner, Volker, and Jan Hendrik Martens. “Eine Runde Sache.” Kunststoffe, 2021.","ieee":"V. Schöppner and J. H. Martens, “Eine runde Sache,” Kunststoffe, pp. 91–93, 2021.","ama":"Schöppner V, Martens JH. Eine runde Sache. Kunststoffe. 2021:91-93.","apa":"Schöppner, V., & Martens, J. H. (2021). Eine runde Sache. Kunststoffe, 91–93.","short":"V. Schöppner, J.H. Martens, Kunststoffe (2021) 91–93.","mla":"Schöppner, Volker, and Jan Hendrik Martens. “Eine Runde Sache.” Kunststoffe, 2021, pp. 91–93.","bibtex":"@article{Schöppner_Martens_2021, title={Eine runde Sache}, journal={Kunststoffe}, author={Schöppner, Volker and Martens, Jan Hendrik}, year={2021}, pages={91–93} }"},"_id":"31758","publication_date":"2021","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","language":[{"iso":"eng"}],"publication":"Kunststoffe","type":"newspaper_article","status":"public"},{"_id":"31767","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"user_id":"44116","language":[{"iso":"eng"}],"publication":"36th International Conference of Polymer Processing Society (PPS)","type":"conference","status":"public","date_updated":"2022-06-07T09:48:36Z","date_created":"2022-06-07T09:48:32Z","author":[{"last_name":"Hopp","full_name":"Hopp, Matthias","id":"13142","first_name":"Matthias"},{"last_name":"Tölle","full_name":"Tölle, Lisa","id":"82465","first_name":"Lisa"}],"title":"Influence of Fiber Content on the Fiber Dust Formation During Shredding for Mechanical Recycling of Different Glass and Carbon Fiber Reinforced Thermoplastics","conference":{"name":"36th International Conference of Polymer Processing Society (PPS)"},"year":"2021","citation":{"ieee":"M. Hopp and L. Tölle, “Influence of Fiber Content on the Fiber Dust Formation During Shredding for Mechanical Recycling of Different Glass and Carbon Fiber Reinforced Thermoplastics,” presented at the 36th International Conference of Polymer Processing Society (PPS), 2021.","chicago":"Hopp, Matthias, and Lisa Tölle. “Influence of Fiber Content on the Fiber Dust Formation During Shredding for Mechanical Recycling of Different Glass and Carbon Fiber Reinforced Thermoplastics.” In 36th International Conference of Polymer Processing Society (PPS), 2021.","ama":"Hopp M, Tölle L. Influence of Fiber Content on the Fiber Dust Formation During Shredding for Mechanical Recycling of Different Glass and Carbon Fiber Reinforced Thermoplastics. In: 36th International Conference of Polymer Processing Society (PPS). ; 2021.","apa":"Hopp, M., & Tölle, L. (2021). 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