[{"_id":"41500","user_id":"43720","department":[{"_id":"9"},{"_id":"158"}],"article_number":"3774","keyword":["General Materials Science"],"language":[{"iso":"eng"}],"type":"journal_article","publication":"Materials","abstract":[{"lang":"eng","text":"Titanium alloys, especially β alloys, are favorable as implant materials due to their promising combination of low Young’s modulus, high strength, corrosion resistance, and biocompatibility. In particular, the low Young’s moduli reduce the risk of stress shielding and implant loosening. The processing of Ti-24Nb-4Zr-8Sn through laser powder bed fusion is presented. The specimens were heat-treated, and the microstructure was investigated using X-ray diffraction, scanning electron microscopy, and transmission electron microscopy. The mechanical properties were determined by hardness and tensile tests. The microstructures reveal a mainly β microstructure with α″ formation for high cooling rates and α precipitates after moderate cooling rates or aging. The as-built and α″ phase containing conditions exhibit a hardness around 225 HV5, yield strengths (YS) from 340 to 490 MPa, ultimate tensile strengths (UTS) around 706 MPa, fracture elongations around 20%, and Young’s moduli about 50 GPa. The α precipitates containing conditions reveal a hardness around 297 HV5, YS around 812 MPa, UTS from 871 to 931 MPa, fracture elongations around 12%, and Young’s moduli about 75 GPa. Ti-24Nb-4Zr-8Sn exhibits, depending on the heat treatment, promising properties regarding the material behavior and the opportunity to tailor the mechanical performance as a low modulus, high strength implant material."}],"status":"public","publisher":"MDPI AG","date_updated":"2023-04-27T16:46:15Z","author":[{"id":"52771","full_name":"Hein, Maxwell","last_name":"Hein","orcid":"0000-0002-3732-2236","first_name":"Maxwell"},{"first_name":"Nelson Filipe","last_name":"Lopes Dias","full_name":"Lopes Dias, Nelson Filipe"},{"first_name":"Sudipta","full_name":"Pramanik, Sudipta","last_name":"Pramanik"},{"first_name":"Dominic","full_name":"Stangier, Dominic","last_name":"Stangier"},{"first_name":"Kay-Peter","last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","id":"48411"},{"last_name":"Tillmann","full_name":"Tillmann, Wolfgang","first_name":"Wolfgang"},{"first_name":"Mirko","full_name":"Schaper, Mirko","id":"43720","last_name":"Schaper"}],"date_created":"2023-02-02T14:28:54Z","volume":15,"title":"Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion","doi":"10.3390/ma15113774","publication_status":"published","quality_controlled":"1","publication_identifier":{"issn":["1996-1944"]},"issue":"11","year":"2022","citation":{"apa":"Hein, M., Lopes Dias, N. F., Pramanik, S., Stangier, D., Hoyer, K.-P., Tillmann, W., & Schaper, M. (2022). Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion. Materials, 15(11), Article 3774. https://doi.org/10.3390/ma15113774","mla":"Hein, Maxwell, et al. “Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion.” Materials, vol. 15, no. 11, 3774, MDPI AG, 2022, doi:10.3390/ma15113774.","bibtex":"@article{Hein_Lopes Dias_Pramanik_Stangier_Hoyer_Tillmann_Schaper_2022, title={Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion}, volume={15}, DOI={10.3390/ma15113774}, number={113774}, journal={Materials}, publisher={MDPI AG}, author={Hein, Maxwell and Lopes Dias, Nelson Filipe and Pramanik, Sudipta and Stangier, Dominic and Hoyer, Kay-Peter and Tillmann, Wolfgang and Schaper, Mirko}, year={2022} }","short":"M. Hein, N.F. Lopes Dias, S. Pramanik, D. Stangier, K.-P. Hoyer, W. Tillmann, M. Schaper, Materials 15 (2022).","ieee":"M. Hein et al., “Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion,” Materials, vol. 15, no. 11, Art. no. 3774, 2022, doi: 10.3390/ma15113774.","chicago":"Hein, Maxwell, Nelson Filipe Lopes Dias, Sudipta Pramanik, Dominic Stangier, Kay-Peter Hoyer, Wolfgang Tillmann, and Mirko Schaper. “Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion.” Materials 15, no. 11 (2022). https://doi.org/10.3390/ma15113774.","ama":"Hein M, Lopes Dias NF, Pramanik S, et al. Heat Treatments of Metastable β Titanium Alloy Ti-24Nb-4Zr-8Sn Processed by Laser Powder Bed Fusion. Materials. 2022;15(11). doi:10.3390/ma15113774"},"intvolume":" 15"},{"doi":"10.3390/magnetism2020007","title":"Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study","author":[{"last_name":"Pramanik","full_name":"Pramanik, Sudipta","first_name":"Sudipta"},{"last_name":"Tasche","full_name":"Tasche, Frederik","first_name":"Frederik"},{"first_name":"Kay-Peter","id":"48411","full_name":"Hoyer, Kay-Peter","last_name":"Hoyer"},{"last_name":"Schaper","id":"43720","full_name":"Schaper, Mirko","first_name":"Mirko"}],"date_created":"2023-02-02T14:29:57Z","volume":2,"date_updated":"2023-04-27T16:46:28Z","publisher":"MDPI AG","citation":{"short":"S. Pramanik, F. Tasche, K.-P. Hoyer, M. Schaper, Magnetism 2 (2022) 88–104.","mla":"Pramanik, Sudipta, et al. “Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study.” Magnetism, vol. 2, no. 2, MDPI AG, 2022, pp. 88–104, doi:10.3390/magnetism2020007.","bibtex":"@article{Pramanik_Tasche_Hoyer_Schaper_2022, title={Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study}, volume={2}, DOI={10.3390/magnetism2020007}, number={2}, journal={Magnetism}, publisher={MDPI AG}, author={Pramanik, Sudipta and Tasche, Frederik and Hoyer, Kay-Peter and Schaper, Mirko}, year={2022}, pages={88–104} }","apa":"Pramanik, S., Tasche, F., Hoyer, K.-P., & Schaper, M. (2022). Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study. Magnetism, 2(2), 88–104. https://doi.org/10.3390/magnetism2020007","ieee":"S. Pramanik, F. Tasche, K.-P. Hoyer, and M. Schaper, “Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study,” Magnetism, vol. 2, no. 2, pp. 88–104, 2022, doi: 10.3390/magnetism2020007.","chicago":"Pramanik, Sudipta, Frederik Tasche, Kay-Peter Hoyer, and Mirko Schaper. “Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study.” Magnetism 2, no. 2 (2022): 88–104. https://doi.org/10.3390/magnetism2020007.","ama":"Pramanik S, Tasche F, Hoyer K-P, Schaper M. Orientation-Dependent Indentation Behaviour of Additively Manufactured FeCo Sample: A Quasi In-Situ Study. Magnetism. 2022;2(2):88-104. doi:10.3390/magnetism2020007"},"intvolume":" 2","page":"88-104","year":"2022","issue":"2","publication_status":"published","publication_identifier":{"issn":["2673-8724"]},"quality_controlled":"1","language":[{"iso":"eng"}],"keyword":["General Earth and Planetary Sciences","General Environmental Science"],"user_id":"43720","department":[{"_id":"9"},{"_id":"158"}],"_id":"41503","status":"public","abstract":[{"text":"The quasi in-situ indentation behaviour of <110>||BD and <111>||BD-oriented grains in a FeCo alloy is studied in this investigation. The effect of build height on melt pool shape and melt pool size is also studied by finite element method simulations. As the building height increases, the aspect ratio of the elliptical melt pool increases. Correspondingly, the effect of the laser scan speed on the melt pool shape and size is studied by the finite element method, because, as the laser scan speed increases, the aspect ratio of the elliptical melt pool increases, too. The microstructural characterisation of the indentation area before and after indentation is performed by electron backscatter diffraction (EBSD). Based on the EBSD data grain reference orientation deviation (GROD), calculations are performed to describe the effect of indentations on the neighbouring grain orientations. High GROD angles are detected in the neighbouring grain region adjoining the indented grain. An in-depth slip trace analysis shows the activation of all three slip systems ({110}<111>, {112}<111> and {123}<111>) which is also confirmed by slip lines on the sample surface that are detected by laser scanning confocal microscopy. A high concentration of geometrically necessary dislocations (GNDs) are observed on the adjoining area to the indentation. Local surface topography measurements by laser scanning confocal microscopy confirmed the formation of pile-ups near the indentation.","lang":"eng"}],"type":"journal_article","publication":"Magnetism"},{"title":"Tribo-functional PVD thin films deposited onto additively manufactured Ti6Al7Nb for biomedical applications","doi":"10.1016/j.matlet.2022.132384","date_updated":"2023-04-27T16:46:18Z","publisher":"Elsevier BV","author":[{"first_name":"Wolfgang","full_name":"Tillmann, Wolfgang","last_name":"Tillmann"},{"full_name":"Lopes Dias, Nelson Filipe","last_name":"Lopes Dias","first_name":"Nelson Filipe"},{"first_name":"David","last_name":"Kokalj","full_name":"Kokalj, David"},{"first_name":"Dominic","full_name":"Stangier, Dominic","last_name":"Stangier"},{"first_name":"Maxwell","id":"52771","full_name":"Hein, Maxwell","orcid":"0000-0002-3732-2236","last_name":"Hein"},{"first_name":"Kay-Peter","full_name":"Hoyer, Kay-Peter","id":"48411","last_name":"Hoyer"},{"id":"43720","full_name":"Schaper, Mirko","last_name":"Schaper","first_name":"Mirko"},{"first_name":"Daria","last_name":"Gödecke","full_name":"Gödecke, Daria"},{"full_name":"Oltmanns, Hilke","last_name":"Oltmanns","first_name":"Hilke"},{"full_name":"Meißner, Jessica","last_name":"Meißner","first_name":"Jessica"}],"date_created":"2023-02-02T14:29:15Z","volume":321,"year":"2022","citation":{"ieee":"W. Tillmann et al., “Tribo-functional PVD thin films deposited onto additively manufactured Ti6Al7Nb for biomedical applications,” Materials Letters, vol. 321, Art. no. 132384, 2022, doi: 10.1016/j.matlet.2022.132384.","chicago":"Tillmann, Wolfgang, Nelson Filipe Lopes Dias, David Kokalj, Dominic Stangier, Maxwell Hein, Kay-Peter Hoyer, Mirko Schaper, Daria Gödecke, Hilke Oltmanns, and Jessica Meißner. “Tribo-Functional PVD Thin Films Deposited onto Additively Manufactured Ti6Al7Nb for Biomedical Applications.” Materials Letters 321 (2022). https://doi.org/10.1016/j.matlet.2022.132384.","ama":"Tillmann W, Lopes Dias NF, Kokalj D, et al. Tribo-functional PVD thin films deposited onto additively manufactured Ti6Al7Nb for biomedical applications. Materials Letters. 2022;321. doi:10.1016/j.matlet.2022.132384","apa":"Tillmann, W., Lopes Dias, N. F., Kokalj, D., Stangier, D., Hein, M., Hoyer, K.-P., Schaper, M., Gödecke, D., Oltmanns, H., & Meißner, J. (2022). Tribo-functional PVD thin films deposited onto additively manufactured Ti6Al7Nb for biomedical applications. Materials Letters, 321, Article 132384. https://doi.org/10.1016/j.matlet.2022.132384","short":"W. Tillmann, N.F. Lopes Dias, D. Kokalj, D. Stangier, M. Hein, K.-P. Hoyer, M. Schaper, D. Gödecke, H. Oltmanns, J. Meißner, Materials Letters 321 (2022).","bibtex":"@article{Tillmann_Lopes Dias_Kokalj_Stangier_Hein_Hoyer_Schaper_Gödecke_Oltmanns_Meißner_2022, title={Tribo-functional PVD thin films deposited onto additively manufactured Ti6Al7Nb for biomedical applications}, volume={321}, DOI={10.1016/j.matlet.2022.132384}, number={132384}, journal={Materials Letters}, publisher={Elsevier BV}, author={Tillmann, Wolfgang and Lopes Dias, Nelson Filipe and Kokalj, David and Stangier, Dominic and Hein, Maxwell and Hoyer, Kay-Peter and Schaper, Mirko and Gödecke, Daria and Oltmanns, Hilke and Meißner, Jessica}, year={2022} }","mla":"Tillmann, Wolfgang, et al. “Tribo-Functional PVD Thin Films Deposited onto Additively Manufactured Ti6Al7Nb for Biomedical Applications.” Materials Letters, vol. 321, 132384, Elsevier BV, 2022, doi:10.1016/j.matlet.2022.132384."},"intvolume":" 321","publication_status":"published","publication_identifier":{"issn":["0167-577X"]},"quality_controlled":"1","article_number":"132384","keyword":["Mechanical Engineering","Mechanics of Materials","Condensed Matter Physics","General Materials Science"],"language":[{"iso":"eng"}],"_id":"41501","user_id":"43720","department":[{"_id":"9"},{"_id":"158"}],"status":"public","type":"journal_article","publication":"Materials Letters"},{"citation":{"ieee":"J. Huang, A. G. Orive, J. T. Krüger, K.-P. Hoyer, A. Keller, and G. Grundmeier, “Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes,” Corrosion Science, vol. 200, p. 110186, 2022, doi: 10.1016/j.corsci.2022.110186.","chicago":"Huang, Jingyuan, Alejandro Gonzalez Orive, Jan Tobias Krüger, Kay-Peter Hoyer, Adrian Keller, and Guido Grundmeier. “Influence of Proteins on the Corrosion of a Conventional and Selective Laser Beam Melted FeMn Alloy in Physiological Electrolytes.” Corrosion Science 200 (2022): 110186. https://doi.org/10.1016/j.corsci.2022.110186.","ama":"Huang J, Orive AG, Krüger JT, Hoyer K-P, Keller A, Grundmeier G. Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes. Corrosion Science. 2022;200:110186. doi:10.1016/j.corsci.2022.110186","apa":"Huang, J., Orive, A. G., Krüger, J. T., Hoyer, K.-P., Keller, A., & Grundmeier, G. (2022). Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes. Corrosion Science, 200, 110186. https://doi.org/10.1016/j.corsci.2022.110186","short":"J. Huang, A.G. Orive, J.T. Krüger, K.-P. Hoyer, A. Keller, G. Grundmeier, Corrosion Science 200 (2022) 110186.","bibtex":"@article{Huang_Orive_Krüger_Hoyer_Keller_Grundmeier_2022, title={Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes}, volume={200}, DOI={10.1016/j.corsci.2022.110186}, journal={Corrosion Science}, publisher={Elsevier BV}, author={Huang, Jingyuan and Orive, Alejandro Gonzalez and Krüger, Jan Tobias and Hoyer, Kay-Peter and Keller, Adrian and Grundmeier, Guido}, year={2022}, pages={110186} }","mla":"Huang, Jingyuan, et al. “Influence of Proteins on the Corrosion of a Conventional and Selective Laser Beam Melted FeMn Alloy in Physiological Electrolytes.” Corrosion Science, vol. 200, Elsevier BV, 2022, p. 110186, doi:10.1016/j.corsci.2022.110186."},"page":"110186","intvolume":" 200","year":"2022","publication_status":"published","publication_identifier":{"issn":["0010-938X"]},"quality_controlled":"1","doi":"10.1016/j.corsci.2022.110186","title":"Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes","author":[{"last_name":"Huang","full_name":"Huang, Jingyuan","first_name":"Jingyuan"},{"full_name":"Orive, Alejandro Gonzalez","last_name":"Orive","first_name":"Alejandro Gonzalez"},{"last_name":"Krüger","orcid":"0000-0002-0827-9654","id":"44307","full_name":"Krüger, Jan Tobias","first_name":"Jan Tobias"},{"full_name":"Hoyer, Kay-Peter","id":"48411","last_name":"Hoyer","first_name":"Kay-Peter"},{"first_name":"Adrian","last_name":"Keller","orcid":"0000-0001-7139-3110","full_name":"Keller, Adrian","id":"48864"},{"last_name":"Grundmeier","id":"194","full_name":"Grundmeier, Guido","first_name":"Guido"}],"date_created":"2022-02-25T09:32:43Z","volume":200,"publisher":"Elsevier BV","date_updated":"2023-04-27T16:47:42Z","status":"public","type":"journal_article","publication":"Corrosion Science","language":[{"iso":"eng"}],"keyword":["General Materials Science","General Chemical Engineering","General Chemistry"],"user_id":"48411","department":[{"_id":"302"},{"_id":"158"}],"_id":"30103"},{"status":"public","publication":"Advanced Engineering Materials","type":"journal_article","keyword":["Condensed Matter Physics","General Materials Science"],"article_number":"2200022","language":[{"iso":"eng"}],"_id":"41502","department":[{"_id":"9"},{"_id":"158"}],"user_id":"43720","year":"2022","intvolume":" 24","citation":{"bibtex":"@article{Teng_Wu_Pramanik_Hoyer_Schaper_Zhang_Boller_Starke_2022, title={Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel}, volume={24}, DOI={10.1002/adem.202200022}, number={92200022}, journal={Advanced Engineering Materials}, publisher={Wiley}, author={Teng, Zhenjie and Wu, Haoran and Pramanik, Sudipta and Hoyer, Kay-Peter and Schaper, Mirko and Zhang, Hanlong and Boller, Christian and Starke, Peter}, year={2022} }","short":"Z. Teng, H. Wu, S. Pramanik, K.-P. Hoyer, M. Schaper, H. Zhang, C. Boller, P. Starke, Advanced Engineering Materials 24 (2022).","mla":"Teng, Zhenjie, et al. “Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel.” Advanced Engineering Materials, vol. 24, no. 9, 2200022, Wiley, 2022, doi:10.1002/adem.202200022.","apa":"Teng, Z., Wu, H., Pramanik, S., Hoyer, K.-P., Schaper, M., Zhang, H., Boller, C., & Starke, P. (2022). Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel. Advanced Engineering Materials, 24(9), Article 2200022. https://doi.org/10.1002/adem.202200022","ieee":"Z. Teng et al., “Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel,” Advanced Engineering Materials, vol. 24, no. 9, Art. no. 2200022, 2022, doi: 10.1002/adem.202200022.","chicago":"Teng, Zhenjie, Haoran Wu, Sudipta Pramanik, Kay-Peter Hoyer, Mirko Schaper, Hanlong Zhang, Christian Boller, and Peter Starke. “Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel.” Advanced Engineering Materials 24, no. 9 (2022). https://doi.org/10.1002/adem.202200022.","ama":"Teng Z, Wu H, Pramanik S, et al. Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel. Advanced Engineering Materials. 2022;24(9). doi:10.1002/adem.202200022"},"quality_controlled":"1","publication_identifier":{"issn":["1438-1656","1527-2648"]},"publication_status":"published","issue":"9","title":"Characterization and Analysis of Plastic Instability in an Ultrafine‐Grained Medium Mn TRIP Steel","doi":"10.1002/adem.202200022","date_updated":"2023-04-27T16:46:25Z","publisher":"Wiley","volume":24,"author":[{"full_name":"Teng, Zhenjie","last_name":"Teng","first_name":"Zhenjie"},{"first_name":"Haoran","last_name":"Wu","full_name":"Wu, Haoran"},{"first_name":"Sudipta","full_name":"Pramanik, Sudipta","last_name":"Pramanik"},{"first_name":"Kay-Peter","last_name":"Hoyer","id":"48411","full_name":"Hoyer, Kay-Peter"},{"first_name":"Mirko","last_name":"Schaper","full_name":"Schaper, Mirko","id":"43720"},{"first_name":"Hanlong","full_name":"Zhang, Hanlong","last_name":"Zhang"},{"last_name":"Boller","full_name":"Boller, Christian","first_name":"Christian"},{"full_name":"Starke, Peter","last_name":"Starke","first_name":"Peter"}],"date_created":"2023-02-02T14:29:36Z"},{"language":[{"iso":"eng"}],"article_number":"110186","keyword":["General Materials Science","General Chemical Engineering","General Chemistry"],"user_id":"48411","department":[{"_id":"9"},{"_id":"158"}],"_id":"41504","status":"public","type":"journal_article","publication":"Corrosion Science","doi":"10.1016/j.corsci.2022.110186","title":"Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes","date_created":"2023-02-02T14:30:17Z","author":[{"full_name":"Huang, Jingyuan","last_name":"Huang","first_name":"Jingyuan"},{"first_name":"Alejandro","full_name":"Gonzalez Orive, Alejandro","last_name":"Gonzalez Orive"},{"first_name":"Jan Tobias","full_name":"Krüger, Jan Tobias","id":"44307","last_name":"Krüger","orcid":"0000-0002-0827-9654"},{"last_name":"Hoyer","id":"48411","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"id":"48864","full_name":"Keller, Adrian","last_name":"Keller","orcid":"0000-0001-7139-3110","first_name":"Adrian"},{"first_name":"Guido","id":"194","full_name":"Grundmeier, Guido","last_name":"Grundmeier"}],"volume":200,"date_updated":"2023-04-27T16:47:31Z","publisher":"Elsevier BV","citation":{"mla":"Huang, Jingyuan, et al. “Influence of Proteins on the Corrosion of a Conventional and Selective Laser Beam Melted FeMn Alloy in Physiological Electrolytes.” Corrosion Science, vol. 200, 110186, Elsevier BV, 2022, doi:10.1016/j.corsci.2022.110186.","short":"J. Huang, A. Gonzalez Orive, J.T. Krüger, K.-P. Hoyer, A. Keller, G. Grundmeier, Corrosion Science 200 (2022).","bibtex":"@article{Huang_Gonzalez Orive_Krüger_Hoyer_Keller_Grundmeier_2022, title={Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes}, volume={200}, DOI={10.1016/j.corsci.2022.110186}, number={110186}, journal={Corrosion Science}, publisher={Elsevier BV}, author={Huang, Jingyuan and Gonzalez Orive, Alejandro and Krüger, Jan Tobias and Hoyer, Kay-Peter and Keller, Adrian and Grundmeier, Guido}, year={2022} }","apa":"Huang, J., Gonzalez Orive, A., Krüger, J. T., Hoyer, K.-P., Keller, A., & Grundmeier, G. (2022). Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes. Corrosion Science, 200, Article 110186. https://doi.org/10.1016/j.corsci.2022.110186","ieee":"J. Huang, A. Gonzalez Orive, J. T. Krüger, K.-P. Hoyer, A. Keller, and G. Grundmeier, “Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes,” Corrosion Science, vol. 200, Art. no. 110186, 2022, doi: 10.1016/j.corsci.2022.110186.","chicago":"Huang, Jingyuan, Alejandro Gonzalez Orive, Jan Tobias Krüger, Kay-Peter Hoyer, Adrian Keller, and Guido Grundmeier. “Influence of Proteins on the Corrosion of a Conventional and Selective Laser Beam Melted FeMn Alloy in Physiological Electrolytes.” Corrosion Science 200 (2022). https://doi.org/10.1016/j.corsci.2022.110186.","ama":"Huang J, Gonzalez Orive A, Krüger JT, Hoyer K-P, Keller A, Grundmeier G. Influence of proteins on the corrosion of a conventional and selective laser beam melted FeMn alloy in physiological electrolytes. Corrosion Science. 2022;200. doi:10.1016/j.corsci.2022.110186"},"intvolume":" 200","year":"2022","publication_status":"published","publication_identifier":{"issn":["0010-938X"]}},{"status":"public","publication":"Advanced Engineering Materials","type":"journal_article","language":[{"iso":"eng"}],"keyword":["Condensed Matter Physics","General Materials Science"],"article_number":"2201008","department":[{"_id":"9"},{"_id":"158"}],"user_id":"48411","_id":"41493","citation":{"ama":"Krüger JT, Hoyer K-P, Andreiev A, Schaper M, Zinn C. Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate. Advanced Engineering Materials. Published online 2022. doi:10.1002/adem.202201008","ieee":"J. T. Krüger, K.-P. Hoyer, A. Andreiev, M. Schaper, and C. Zinn, “Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate,” Advanced Engineering Materials, Art. no. 2201008, 2022, doi: 10.1002/adem.202201008.","chicago":"Krüger, Jan Tobias, Kay-Peter Hoyer, Anatolii Andreiev, Mirko Schaper, and Carolin Zinn. “Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate.” Advanced Engineering Materials, 2022. https://doi.org/10.1002/adem.202201008.","bibtex":"@article{Krüger_Hoyer_Andreiev_Schaper_Zinn_2022, title={Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate}, DOI={10.1002/adem.202201008}, number={2201008}, journal={Advanced Engineering Materials}, publisher={Wiley}, author={Krüger, Jan Tobias and Hoyer, Kay-Peter and Andreiev, Anatolii and Schaper, Mirko and Zinn, Carolin}, year={2022} }","mla":"Krüger, Jan Tobias, et al. “Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate.” Advanced Engineering Materials, 2201008, Wiley, 2022, doi:10.1002/adem.202201008.","short":"J.T. Krüger, K.-P. Hoyer, A. Andreiev, M. Schaper, C. Zinn, Advanced Engineering Materials (2022).","apa":"Krüger, J. T., Hoyer, K.-P., Andreiev, A., Schaper, M., & Zinn, C. (2022). Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate. Advanced Engineering Materials, Article 2201008. https://doi.org/10.1002/adem.202201008"},"year":"2022","publication_identifier":{"issn":["1438-1656","1527-2648"]},"publication_status":"published","doi":"10.1002/adem.202201008","title":"Modification of Iron with Degradable Silver Phases Processed via Laser Beam Melting for Implants with Adapted Degradation Rate","date_created":"2023-02-02T14:25:30Z","author":[{"last_name":"Krüger","orcid":"0000-0002-0827-9654","id":"44307","full_name":"Krüger, Jan Tobias","first_name":"Jan Tobias"},{"first_name":"Kay-Peter","full_name":"Hoyer, Kay-Peter","id":"48411","last_name":"Hoyer"},{"first_name":"Anatolii","last_name":"Andreiev","id":"50215","full_name":"Andreiev, Anatolii"},{"first_name":"Mirko","full_name":"Schaper, Mirko","id":"43720","last_name":"Schaper"},{"first_name":"Carolin","last_name":"Zinn","full_name":"Zinn, Carolin"}],"date_updated":"2023-04-27T16:46:44Z","publisher":"Wiley"},{"_id":"41491","department":[{"_id":"9"},{"_id":"158"}],"user_id":"48411","keyword":["Mechanical Engineering","Mechanics of Materials","Condensed Matter Physics","General Materials Science"],"article_number":"143887","language":[{"iso":"eng"}],"publication":"Materials Science and Engineering: A","type":"journal_article","status":"public","publisher":"Elsevier BV","date_updated":"2023-04-27T16:47:59Z","volume":854,"date_created":"2023-02-02T14:24:04Z","author":[{"first_name":"Sudipta","last_name":"Pramanik","full_name":"Pramanik, Sudipta"},{"first_name":"Dennis","full_name":"Milaege, Dennis","last_name":"Milaege"},{"last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"first_name":"Mirko","full_name":"Schaper, Mirko","last_name":"Schaper"}],"title":"Additively manufactured novel Ti6Al7Nb circular honeycomb cellular solid for energy absorbing applications","doi":"10.1016/j.msea.2022.143887","publication_identifier":{"issn":["0921-5093"]},"publication_status":"published","year":"2022","intvolume":" 854","citation":{"mla":"Pramanik, Sudipta, et al. “Additively Manufactured Novel Ti6Al7Nb Circular Honeycomb Cellular Solid for Energy Absorbing Applications.” Materials Science and Engineering: A, vol. 854, 143887, Elsevier BV, 2022, doi:10.1016/j.msea.2022.143887.","short":"S. Pramanik, D. Milaege, K.-P. Hoyer, M. Schaper, Materials Science and Engineering: A 854 (2022).","bibtex":"@article{Pramanik_Milaege_Hoyer_Schaper_2022, title={Additively manufactured novel Ti6Al7Nb circular honeycomb cellular solid for energy absorbing applications}, volume={854}, DOI={10.1016/j.msea.2022.143887}, number={143887}, journal={Materials Science and Engineering: A}, publisher={Elsevier BV}, author={Pramanik, Sudipta and Milaege, Dennis and Hoyer, Kay-Peter and Schaper, Mirko}, year={2022} }","apa":"Pramanik, S., Milaege, D., Hoyer, K.-P., & Schaper, M. (2022). Additively manufactured novel Ti6Al7Nb circular honeycomb cellular solid for energy absorbing applications. Materials Science and Engineering: A, 854, Article 143887. https://doi.org/10.1016/j.msea.2022.143887","ieee":"S. Pramanik, D. Milaege, K.-P. Hoyer, and M. Schaper, “Additively manufactured novel Ti6Al7Nb circular honeycomb cellular solid for energy absorbing applications,” Materials Science and Engineering: A, vol. 854, Art. no. 143887, 2022, doi: 10.1016/j.msea.2022.143887.","chicago":"Pramanik, Sudipta, Dennis Milaege, Kay-Peter Hoyer, and Mirko Schaper. “Additively Manufactured Novel Ti6Al7Nb Circular Honeycomb Cellular Solid for Energy Absorbing Applications.” Materials Science and Engineering: A 854 (2022). https://doi.org/10.1016/j.msea.2022.143887.","ama":"Pramanik S, Milaege D, Hoyer K-P, Schaper M. Additively manufactured novel Ti6Al7Nb circular honeycomb cellular solid for energy absorbing applications. Materials Science and Engineering: A. 2022;854. doi:10.1016/j.msea.2022.143887"}},{"status":"public","abstract":[{"lang":"eng","text":"In this study, the design, additive manufacturing and experimental as well as simulation investigation of mechanical and thermal properties of cellular solids are addressed. For this, two cellular solids having nested and non-nested structures are designed and additively manufactured via laser powder bed fusion. The primary objective is to design cellular solids which absorb a significant amount of energy upon impact loading without transmitting a high amount of stress into the cellular solids. Therefore, compression testing of the two cellular solids is performed. The nested and non-nested cellular solids show similar energy absorption properties; however, the nested cellular solid transmits a lower amount of stress in the cellular structure compared to the non-nested cellular solid. The experimentally measured strain (by DIC) in the interior region of the nested cellular solid is lower despite a higher value of externally imposed compressive strain. The second objective of this study is to determine the thermal insulation properties of cellular solids. For measuring the thermal insulation properties, the samples are placed on a hot plate; and the surface temperature distribution is measured by an infrared camera. The thermal insulating performance of both cellular types is sufficient for temperatures exceeding 100 °C. However, the thermal insulating performance of a non-nested cellular solid is slightly better than that of the nested cellular solid. Additional thermal simulations predict a relatively higher temperature distribution on the cellular solid surfaces compared to experimental results. The simulated residual stress shows a similar distribution for both types, but the magnitude of residual stress is different for the cellular solids upon cooling from different temperatures of the hot plate."}],"type":"journal_article","publication":"Crystals","language":[{"iso":"eng"}],"article_number":"1217","keyword":["Inorganic Chemistry","Condensed Matter Physics","General Materials Science","General Chemical Engineering"],"user_id":"48411","department":[{"_id":"9"},{"_id":"158"}],"_id":"41489","citation":{"mla":"Pramanik, Sudipta, et al. “Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study.” Crystals, vol. 12, no. 9, 1217, MDPI AG, 2022, doi:10.3390/cryst12091217.","bibtex":"@article{Pramanik_Milaege_Hoyer_Schaper_2022, title={Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study}, volume={12}, DOI={10.3390/cryst12091217}, number={91217}, journal={Crystals}, publisher={MDPI AG}, author={Pramanik, Sudipta and Milaege, Dennis and Hoyer, Kay-Peter and Schaper, Mirko}, year={2022} }","short":"S. Pramanik, D. Milaege, K.-P. Hoyer, M. Schaper, Crystals 12 (2022).","apa":"Pramanik, S., Milaege, D., Hoyer, K.-P., & Schaper, M. (2022). Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study. Crystals, 12(9), Article 1217. https://doi.org/10.3390/cryst12091217","ama":"Pramanik S, Milaege D, Hoyer K-P, Schaper M. Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study. Crystals. 2022;12(9). doi:10.3390/cryst12091217","chicago":"Pramanik, Sudipta, Dennis Milaege, Kay-Peter Hoyer, and Mirko Schaper. “Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study.” Crystals 12, no. 9 (2022). https://doi.org/10.3390/cryst12091217.","ieee":"S. Pramanik, D. Milaege, K.-P. Hoyer, and M. Schaper, “Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study,” Crystals, vol. 12, no. 9, Art. no. 1217, 2022, doi: 10.3390/cryst12091217."},"intvolume":" 12","year":"2022","issue":"9","publication_status":"published","publication_identifier":{"issn":["2073-4352"]},"doi":"10.3390/cryst12091217","title":"Additively Manufactured Nested and Non-Nested Cellular Solids for Effective Stress Distribution and Thermal Insulation Applications: An Experimental and Finite Element Analysis Study","date_created":"2023-02-02T14:22:59Z","author":[{"full_name":"Pramanik, Sudipta","last_name":"Pramanik","first_name":"Sudipta"},{"last_name":"Milaege","full_name":"Milaege, Dennis","first_name":"Dennis"},{"first_name":"Kay-Peter","last_name":"Hoyer","full_name":"Hoyer, Kay-Peter"},{"first_name":"Mirko","full_name":"Schaper, Mirko","last_name":"Schaper"}],"volume":12,"date_updated":"2023-04-27T16:48:04Z","publisher":"MDPI AG"},{"_id":"41488","user_id":"48411","department":[{"_id":"9"},{"_id":"158"}],"article_number":"4072","keyword":["General Materials Science"],"language":[{"iso":"eng"}],"type":"journal_article","publication":"Materials","abstract":[{"text":"The additive manufacturing (AM) of innovative lattice structures with unique mechanical properties has received widespread attention due to the capability of AM processes to fabricate freeform and intricate structures. The most common way to characterize the additively manufactured lattice structures is via the uniaxial compression test. However, although there are many applications for which lattice structures are designed for bending (e.g., sandwich panels cores and some medical implants), limited attention has been paid toward investigating the flexural behavior of metallic AM lattice structures with tunable internal architectures. The purpose of this study was to experimentally investigate the flexural behavior of AM Ti-6Al-4V lattice structures with graded density and hybrid Poisson’s ratio (PR). Four configurations of lattice structure beams with positive, negative, hybrid PR, and a novel hybrid PR with graded density were manufactured via the laser powder bed fusion (LPBF) AM process and tested under four-point bending. The manufacturability, microstructure, micro-hardness, and flexural properties of the lattices were evaluated. During the bending tests, different failure mechanisms were observed, which were highly dependent on the type of lattice geometry. The best response in terms of absorbed energy was obtained for the functionally graded hybrid PR (FGHPR) structure. Both the FGHPR and hybrid PR (HPR) structured showed a 78.7% and 62.9% increase in the absorbed energy, respectively, compared to the positive PR (PPR) structure. This highlights the great potential for FGHPR lattices to be used in protective devices, load-bearing medical implants, and energy-absorbing applications.","lang":"eng"}],"status":"public","date_updated":"2023-04-27T16:48:14Z","publisher":"MDPI AG","date_created":"2023-02-02T14:19:59Z","author":[{"first_name":"Osama","full_name":"Abdelaal, Osama","last_name":"Abdelaal"},{"first_name":"Florian","last_name":"Hengsbach","full_name":"Hengsbach, Florian"},{"full_name":"Schaper, Mirko","last_name":"Schaper","first_name":"Mirko"},{"first_name":"Kay-Peter","last_name":"Hoyer","full_name":"Hoyer, Kay-Peter"}],"volume":15,"title":"LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio","doi":"10.3390/ma15124072","publication_status":"published","publication_identifier":{"issn":["1996-1944"]},"issue":"12","year":"2022","citation":{"bibtex":"@article{Abdelaal_Hengsbach_Schaper_Hoyer_2022, title={LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio}, volume={15}, DOI={10.3390/ma15124072}, number={124072}, journal={Materials}, publisher={MDPI AG}, author={Abdelaal, Osama and Hengsbach, Florian and Schaper, Mirko and Hoyer, Kay-Peter}, year={2022} }","mla":"Abdelaal, Osama, et al. “LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio.” Materials, vol. 15, no. 12, 4072, MDPI AG, 2022, doi:10.3390/ma15124072.","short":"O. Abdelaal, F. Hengsbach, M. Schaper, K.-P. Hoyer, Materials 15 (2022).","apa":"Abdelaal, O., Hengsbach, F., Schaper, M., & Hoyer, K.-P. (2022). LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio. Materials, 15(12), Article 4072. https://doi.org/10.3390/ma15124072","chicago":"Abdelaal, Osama, Florian Hengsbach, Mirko Schaper, and Kay-Peter Hoyer. “LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio.” Materials 15, no. 12 (2022). https://doi.org/10.3390/ma15124072.","ieee":"O. Abdelaal, F. Hengsbach, M. Schaper, and K.-P. Hoyer, “LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio,” Materials, vol. 15, no. 12, Art. no. 4072, 2022, doi: 10.3390/ma15124072.","ama":"Abdelaal O, Hengsbach F, Schaper M, Hoyer K-P. LPBF Manufactured Functionally Graded Lattice Structures Obtained by Graded Density and Hybrid Poisson’s Ratio. Materials. 2022;15(12). doi:10.3390/ma15124072"},"intvolume":" 15"},{"publication_status":"published","publication_identifier":{"issn":["0142-1123"]},"citation":{"chicago":"Hein, Maxwell, Nelson Filipe Lopes Dias, David Kokalj, Dominic Stangier, Kay-Peter Hoyer, Wolfgang Tillmann, and Mirko Schaper. “On the Influence of Physical Vapor Deposited Thin Coatings on the Low-Cycle Fatigue Behavior of Additively Processed Ti-6Al-7Nb Alloy.” International Journal of Fatigue 166 (2022). https://doi.org/10.1016/j.ijfatigue.2022.107235.","ieee":"M. Hein et al., “On the influence of physical vapor deposited thin coatings on the low-cycle fatigue behavior of additively processed Ti-6Al-7Nb alloy,” International Journal of Fatigue, vol. 166, Art. no. 107235, 2022, doi: 10.1016/j.ijfatigue.2022.107235.","ama":"Hein M, Lopes Dias NF, Kokalj D, et al. On the influence of physical vapor deposited thin coatings on the low-cycle fatigue behavior of additively processed Ti-6Al-7Nb alloy. International Journal of Fatigue. 2022;166. doi:10.1016/j.ijfatigue.2022.107235","short":"M. Hein, N.F. Lopes Dias, D. Kokalj, D. Stangier, K.-P. Hoyer, W. Tillmann, M. Schaper, International Journal of Fatigue 166 (2022).","bibtex":"@article{Hein_Lopes Dias_Kokalj_Stangier_Hoyer_Tillmann_Schaper_2022, title={On the influence of physical vapor deposited thin coatings on the low-cycle fatigue behavior of additively processed Ti-6Al-7Nb alloy}, volume={166}, DOI={10.1016/j.ijfatigue.2022.107235}, number={107235}, journal={International Journal of Fatigue}, publisher={Elsevier BV}, author={Hein, Maxwell and Lopes Dias, Nelson Filipe and Kokalj, David and Stangier, Dominic and Hoyer, Kay-Peter and Tillmann, Wolfgang and Schaper, Mirko}, year={2022} }","mla":"Hein, Maxwell, et al. “On the Influence of Physical Vapor Deposited Thin Coatings on the Low-Cycle Fatigue Behavior of Additively Processed Ti-6Al-7Nb Alloy.” International Journal of Fatigue, vol. 166, 107235, Elsevier BV, 2022, doi:10.1016/j.ijfatigue.2022.107235.","apa":"Hein, M., Lopes Dias, N. F., Kokalj, D., Stangier, D., Hoyer, K.-P., Tillmann, W., & Schaper, M. (2022). On the influence of physical vapor deposited thin coatings on the low-cycle fatigue behavior of additively processed Ti-6Al-7Nb alloy. International Journal of Fatigue, 166, Article 107235. https://doi.org/10.1016/j.ijfatigue.2022.107235"},"intvolume":" 166","year":"2022","date_created":"2023-02-02T14:23:43Z","author":[{"first_name":"Maxwell","last_name":"Hein","full_name":"Hein, Maxwell"},{"first_name":"Nelson Filipe","full_name":"Lopes Dias, Nelson Filipe","last_name":"Lopes Dias"},{"last_name":"Kokalj","full_name":"Kokalj, David","first_name":"David"},{"first_name":"Dominic","full_name":"Stangier, Dominic","last_name":"Stangier"},{"last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"last_name":"Tillmann","full_name":"Tillmann, Wolfgang","first_name":"Wolfgang"},{"last_name":"Schaper","full_name":"Schaper, Mirko","first_name":"Mirko"}],"volume":166,"publisher":"Elsevier BV","date_updated":"2023-04-27T16:48:10Z","doi":"10.1016/j.ijfatigue.2022.107235","title":"On the influence of physical vapor deposited thin coatings on the low-cycle fatigue behavior of additively processed Ti-6Al-7Nb alloy","type":"journal_article","publication":"International Journal of Fatigue","status":"public","user_id":"48411","department":[{"_id":"9"},{"_id":"158"}],"_id":"41490","language":[{"iso":"eng"}],"article_number":"107235","keyword":["Industrial and Manufacturing Engineering","Mechanical Engineering","Mechanics of Materials","General Materials Science","Modeling and Simulation"]},{"doi":"10.3390/ijtpp7020012","volume":7,"author":[{"full_name":"Sundermeier, Stephan","last_name":"Sundermeier","first_name":"Stephan"},{"first_name":"Maximilian","last_name":"Passmann","full_name":"Passmann, Maximilian"},{"first_name":"Stefan","full_name":"aus der Wiesche, Stefan","last_name":"aus der Wiesche"},{"full_name":"Kenig, Eugeny Y.","id":"665","last_name":"Kenig","first_name":"Eugeny Y."}],"date_updated":"2023-04-27T16:53:41Z","intvolume":" 7","citation":{"ieee":"S. Sundermeier, M. Passmann, S. aus der Wiesche, and E. Y. Kenig, “Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers,” International Journal of Turbomachinery, Propulsion and Power, vol. 7, no. 2, Art. no. 12, 2022, doi: 10.3390/ijtpp7020012.","chicago":"Sundermeier, Stephan, Maximilian Passmann, Stefan aus der Wiesche, and Eugeny Y. Kenig. “Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers.” International Journal of Turbomachinery, Propulsion and Power 7, no. 2 (2022). https://doi.org/10.3390/ijtpp7020012.","ama":"Sundermeier S, Passmann M, aus der Wiesche S, Kenig EY. Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers. International Journal of Turbomachinery, Propulsion and Power. 2022;7(2). doi:10.3390/ijtpp7020012","mla":"Sundermeier, Stephan, et al. “Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers.” International Journal of Turbomachinery, Propulsion and Power, vol. 7, no. 2, 12, MDPI AG, 2022, doi:10.3390/ijtpp7020012.","short":"S. Sundermeier, M. Passmann, S. aus der Wiesche, E.Y. Kenig, International Journal of Turbomachinery, Propulsion and Power 7 (2022).","bibtex":"@article{Sundermeier_Passmann_aus der Wiesche_Kenig_2022, title={Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers}, volume={7}, DOI={10.3390/ijtpp7020012}, number={212}, journal={International Journal of Turbomachinery, Propulsion and Power}, publisher={MDPI AG}, author={Sundermeier, Stephan and Passmann, Maximilian and aus der Wiesche, Stefan and Kenig, Eugeny Y.}, year={2022} }","apa":"Sundermeier, S., Passmann, M., aus der Wiesche, S., & Kenig, E. Y. (2022). Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers. International Journal of Turbomachinery, Propulsion and Power, 7(2), Article 12. https://doi.org/10.3390/ijtpp7020012"},"publication_identifier":{"issn":["2504-186X"]},"publication_status":"published","article_number":"12","department":[{"_id":"145"}],"user_id":"90390","_id":"44238","status":"public","type":"journal_article","title":"Flow in Pillow-Plate Channels for High-Speed Turbomachinery Heat Exchangers","date_created":"2023-04-27T16:21:44Z","publisher":"MDPI AG","year":"2022","issue":"2","quality_controlled":"1","language":[{"iso":"eng"}],"keyword":["Mechanical Engineering","Energy Engineering and Power Technology","Aerospace Engineering"],"abstract":[{"lang":"eng","text":"In numerous turbomachinery applications, e.g., in aero-engines with regenerators for improving specific fuel consumption (SFC), heat exchangers with low-pressure loss are required. Pil low-plate heat exchangers (PPHE) are a novel exchanger type and promising candidates for high-speed flow applications due to their smooth profiles avoiding blunt obstacles in the flow path. This work deals with the overall system behavior and gas dynamics of pillow-plate channels. A pillow-plate channel was placed in the test section of a blow-down wind tunnel working with dry air, and compressible flow phenomena were investigated utilizing conventional and focusing schlieren optics; furthermore, static and total pressure measurements were performed. The experiments supported the assumption that the system behavior can be described through a Fanno–Rayleigh flow model. Since only wavy walls with smooth profiles were involved, linearized gas dynamics was able to cover important flow features within the channel. The effects of the wavy wall structures on pressure drop and Mach number distribution within the flow path were investigated, and a good qualitative agreement with theoretical and numerical predictions was found. The present analysis demonstrates that pressure losses in pillow-plate heat exchangers are rather low, although their strong turbulent mixing enables high convective heat transfer coefficients."}],"publication":"International Journal of Turbomachinery, Propulsion and Power"},{"_id":"44243","user_id":"90390","department":[{"_id":"145"}],"language":[{"iso":"eng"}],"type":"journal_article","publication":"Chemical Engineering Transactions","status":"public","date_updated":"2023-04-27T17:15:26Z","date_created":"2023-04-27T17:15:17Z","author":[{"first_name":"Eugeny Y.","id":"665","full_name":"Kenig, Eugeny Y.","last_name":"Kenig"}],"volume":94,"title":"State-of-the-Art Modeling of Separation Columns: A Review","quality_controlled":"1","year":"2022","citation":{"bibtex":"@article{Kenig_2022, title={State-of-the-Art Modeling of Separation Columns: A Review}, volume={94}, journal={Chemical Engineering Transactions}, author={Kenig, Eugeny Y.}, year={2022}, pages={325–330} }","short":"E.Y. Kenig, Chemical Engineering Transactions 94 (2022) 325–330.","mla":"Kenig, Eugeny Y. “State-of-the-Art Modeling of Separation Columns: A Review.” Chemical Engineering Transactions, vol. 94, 2022, pp. 325–30.","apa":"Kenig, E. Y. (2022). State-of-the-Art Modeling of Separation Columns: A Review. Chemical Engineering Transactions, 94, 325–330.","ama":"Kenig EY. State-of-the-Art Modeling of Separation Columns: A Review. Chemical Engineering Transactions. 2022;94:325-330.","chicago":"Kenig, Eugeny Y. “State-of-the-Art Modeling of Separation Columns: A Review.” Chemical Engineering Transactions 94 (2022): 325–30.","ieee":"E. Y. Kenig, “State-of-the-Art Modeling of Separation Columns: A Review,” Chemical Engineering Transactions, vol. 94, pp. 325–330, 2022."},"intvolume":" 94","page":"325-330"},{"ddc":["660"],"language":[{"iso":"eng"}],"_id":"31243","user_id":"22006","department":[{"_id":"9"},{"_id":"145"},{"_id":"728"}],"status":"public","type":"conference","publication":"Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik","title":"Wässrige Aminozuckerlösungen als neue Lösungsmittel zur CO2-Abscheidung","conference":{"end_date":"2022-05-03","location":"Frankfurt am Main","name":"Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik","start_date":"2022-05-02"},"date_updated":"2023-04-28T03:37:33Z","date_created":"2022-05-16T07:41:56Z","author":[{"id":"54836","full_name":"Hami Dindar, Iman","last_name":"Hami Dindar","first_name":"Iman"},{"first_name":"Elmar","id":"15164","full_name":"Baumhögger, Elmar","last_name":"Baumhögger"},{"last_name":"Lutters","full_name":"Lutters, Nicole","id":"22006","first_name":"Nicole"},{"first_name":"Eugeny","id":"665","full_name":"Kenig, Eugeny","last_name":"Kenig"}],"year":"2022","citation":{"apa":"Hami Dindar, I., Baumhögger, E., Lutters, N., & Kenig, E. (2022). Wässrige Aminozuckerlösungen als neue Lösungsmittel zur CO2-Abscheidung. Jahrestreffen Der ProcessNet Fachgruppen Fluidverfahrenstechnik Und Hochdruckverfahrenstechnik. Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik, Frankfurt am Main.","short":"I. Hami Dindar, E. Baumhögger, N. Lutters, E. Kenig, in: Jahrestreffen Der ProcessNet Fachgruppen Fluidverfahrenstechnik Und Hochdruckverfahrenstechnik, 2022.","mla":"Hami Dindar, Iman, et al. “Wässrige Aminozuckerlösungen Als Neue Lösungsmittel Zur CO2-Abscheidung.” Jahrestreffen Der ProcessNet Fachgruppen Fluidverfahrenstechnik Und Hochdruckverfahrenstechnik, 2022.","bibtex":"@inproceedings{Hami Dindar_Baumhögger_Lutters_Kenig_2022, title={Wässrige Aminozuckerlösungen als neue Lösungsmittel zur CO2-Abscheidung}, booktitle={Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik}, author={Hami Dindar, Iman and Baumhögger, Elmar and Lutters, Nicole and Kenig, Eugeny}, year={2022} }","ieee":"I. Hami Dindar, E. Baumhögger, N. Lutters, and E. Kenig, “Wässrige Aminozuckerlösungen als neue Lösungsmittel zur CO2-Abscheidung,” presented at the Jahrestreffen der ProcessNet Fachgruppen Fluidverfahrenstechnik und Hochdruckverfahrenstechnik, Frankfurt am Main, 2022.","chicago":"Hami Dindar, Iman, Elmar Baumhögger, Nicole Lutters, and Eugeny Kenig. “Wässrige Aminozuckerlösungen Als Neue Lösungsmittel Zur CO2-Abscheidung.” In Jahrestreffen Der ProcessNet Fachgruppen Fluidverfahrenstechnik Und Hochdruckverfahrenstechnik, 2022.","ama":"Hami Dindar I, Baumhögger E, Lutters N, Kenig E. Wässrige Aminozuckerlösungen als neue Lösungsmittel zur CO2-Abscheidung. 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