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Tillmann et al., “Tribo-mechanical properties and adhesion behavior of DLC coatings sputtered onto 36NiCrMo16 produced by selective laser melting,” Surface and Coatings Technology, vol. 394, Art. no. 125748, 2020, doi: 10.1016/j.surfcoat.2020.125748.","ama":"Tillmann W, Lopes Dias NF, Stangier D, et al. Tribo-mechanical properties and adhesion behavior of DLC coatings sputtered onto 36NiCrMo16 produced by selective laser melting. Surface and Coatings Technology. 2020;394. doi:10.1016/j.surfcoat.2020.125748","apa":"Tillmann, W., Lopes Dias, N. F., Stangier, D., Hagen, L., Schaper, M., Hengsbach, F., & Hoyer, K.-P. (2020). Tribo-mechanical properties and adhesion behavior of DLC coatings sputtered onto 36NiCrMo16 produced by selective laser melting. Surface and Coatings Technology, 394, Article 125748. https://doi.org/10.1016/j.surfcoat.2020.125748","short":"W. Tillmann, N.F. Lopes Dias, D. Stangier, L. Hagen, M. Schaper, F. Hengsbach, K.-P. 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Andreiev, K.-P. Hoyer, O. Grydin, Y. Frolov, M. Schaper, Materialwissenschaft Und Werkstofftechnik 51 (2020) 517–530.","apa":"Andreiev, A., Hoyer, K.-P., Grydin, O., Frolov, Y., & Schaper, M. (2020). Degradable silver‐based alloys. Materialwissenschaft Und Werkstofftechnik, 51(4), 517–530. https://doi.org/10.1002/mawe.201900191","ama":"Andreiev A, Hoyer K-P, Grydin O, Frolov Y, Schaper M. Degradable silver‐based alloys. Materialwissenschaft und Werkstofftechnik. 2020;51(4):517-530. doi:10.1002/mawe.201900191","ieee":"A. Andreiev, K.-P. Hoyer, O. Grydin, Y. Frolov, and M. Schaper, “Degradable silver‐based alloys,” Materialwissenschaft und Werkstofftechnik, vol. 51, no. 4, pp. 517–530, 2020, doi: 10.1002/mawe.201900191.","chicago":"Andreiev, Anatolii, Kay-Peter Hoyer, Olexandr Grydin, Yaroslav Frolov, and Mirko Schaper. “Degradable Silver‐based Alloys.” Materialwissenschaft Und Werkstofftechnik 51, no. 4 (2020): 517–30. https://doi.org/10.1002/mawe.201900191."},"department":[{"_id":"9"},{"_id":"158"}],"author":[{"full_name":"Andreiev, Anatolii","first_name":"Anatolii","id":"50215","last_name":"Andreiev"},{"last_name":"Hoyer","id":"48411","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"id":"43822","last_name":"Grydin","first_name":"Olexandr","full_name":"Grydin, Olexandr"},{"last_name":"Frolov","first_name":"Yaroslav","full_name":"Frolov, Yaroslav"},{"full_name":"Schaper, Mirko","first_name":"Mirko","last_name":"Schaper","id":"43720"}],"intvolume":" 51"},{"user_id":"43720","title":"The mechanical properties of rolled wire-reinforced aluminum composites at different strain values","doi":"10.1080/15376494.2018.1520941","page":"1599-1608","volume":27,"issue":"18","quality_controlled":"1","publication":"Mechanics of Advanced Materials and Structures","type":"journal_article","citation":{"short":"M. Stolbchenko, Y. Frolov, H. Makeieva, O. Grydin, M.A. Tershakovec, M. Schaper, Mechanics of Advanced Materials and Structures 27 (2020) 1599–1608.","bibtex":"@article{Stolbchenko_Frolov_Makeieva_Grydin_Tershakovec_Schaper_2020, title={The mechanical properties of rolled wire-reinforced aluminum composites at different strain values}, volume={27}, DOI={10.1080/15376494.2018.1520941}, number={18}, journal={Mechanics of Advanced Materials and Structures}, author={Stolbchenko, Mykhailo and Frolov, Yaroslav and Makeieva, Hanna and Grydin, Olexandr and Tershakovec, Michael A. and Schaper, Mirko}, year={2020}, pages={1599–1608} }","mla":"Stolbchenko, Mykhailo, et al. “The Mechanical Properties of Rolled Wire-Reinforced Aluminum Composites at Different Strain Values.” Mechanics of Advanced Materials and Structures, vol. 27, no. 18, 2020, pp. 1599–608, doi:10.1080/15376494.2018.1520941.","ieee":"M. Stolbchenko, Y. Frolov, H. Makeieva, O. Grydin, M. A. Tershakovec, and M. Schaper, “The mechanical properties of rolled wire-reinforced aluminum composites at different strain values,” Mechanics of Advanced Materials and Structures, vol. 27, no. 18, pp. 1599–1608, 2020, doi: 10.1080/15376494.2018.1520941.","chicago":"Stolbchenko, Mykhailo, Yaroslav Frolov, Hanna Makeieva, Olexandr Grydin, Michael A. Tershakovec, and Mirko Schaper. “The Mechanical Properties of Rolled Wire-Reinforced Aluminum Composites at Different Strain Values.” Mechanics of Advanced Materials and Structures 27, no. 18 (2020): 1599–1608. https://doi.org/10.1080/15376494.2018.1520941.","ama":"Stolbchenko M, Frolov Y, Makeieva H, Grydin O, Tershakovec MA, Schaper M. The mechanical properties of rolled wire-reinforced aluminum composites at different strain values. Mechanics of Advanced Materials and Structures. 2020;27(18):1599-1608. doi:10.1080/15376494.2018.1520941","apa":"Stolbchenko, M., Frolov, Y., Makeieva, H., Grydin, O., Tershakovec, M. A., & Schaper, M. (2020). The mechanical properties of rolled wire-reinforced aluminum composites at different strain values. 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Tillmann, L. Hagen, K.-U. Garthe, K.-P. Hoyer, and M. Schaper, “Effect of substrate pre‐treatment on the low cycle fatigue performance of tungsten carbide‐cobalt coated additive manufactured 316 L substrates,” Materialwissenschaft und Werkstofftechnik, pp. 1452–1464, 2020, doi: 10.1002/mawe.202000109.","chicago":"Tillmann, Wolfgang, Leif Hagen, Kai-Uwe Garthe, Kay-Peter Hoyer, and Mirko Schaper. “Effect of Substrate Pre‐treatment on the Low Cycle Fatigue Performance of Tungsten Carbide‐cobalt Coated Additive Manufactured 316 L Substrates.” Materialwissenschaft Und Werkstofftechnik, 2020, 1452–64. https://doi.org/10.1002/mawe.202000109.","apa":"Tillmann, W., Hagen, L., Garthe, K.-U., Hoyer, K.-P., & Schaper, M. (2020). Effect of substrate pre‐treatment on the low cycle fatigue performance of tungsten carbide‐cobalt coated additive manufactured 316 L substrates. Materialwissenschaft Und Werkstofftechnik, 1452–1464. https://doi.org/10.1002/mawe.202000109","ama":"Tillmann W, Hagen L, Garthe K-U, Hoyer K-P, Schaper M. Effect of substrate pre‐treatment on the low cycle fatigue performance of tungsten carbide‐cobalt coated additive manufactured 316 L substrates. Materialwissenschaft und Werkstofftechnik. Published online 2020:1452-1464. doi:10.1002/mawe.202000109","short":"W. Tillmann, L. Hagen, K.-U. Garthe, K.-P. Hoyer, M. Schaper, Materialwissenschaft Und Werkstofftechnik (2020) 1452–1464.","bibtex":"@article{Tillmann_Hagen_Garthe_Hoyer_Schaper_2020, title={Effect of substrate pre‐treatment on the low cycle fatigue performance of tungsten carbide‐cobalt coated additive manufactured 316 L substrates}, DOI={10.1002/mawe.202000109}, journal={Materialwissenschaft und Werkstofftechnik}, author={Tillmann, Wolfgang and Hagen, Leif and Garthe, Kai-Uwe and Hoyer, Kay-Peter and Schaper, Mirko}, year={2020}, pages={1452–1464} }","mla":"Tillmann, Wolfgang, et al. “Effect of Substrate Pre‐treatment on the Low Cycle Fatigue Performance of Tungsten Carbide‐cobalt Coated Additive Manufactured 316 L Substrates.” Materialwissenschaft Und Werkstofftechnik, 2020, pp. 1452–64, doi:10.1002/mawe.202000109."},"doi":"10.1002/mawe.202000109","author":[{"first_name":"Wolfgang","full_name":"Tillmann, Wolfgang","last_name":"Tillmann"},{"full_name":"Hagen, Leif","first_name":"Leif","last_name":"Hagen"},{"orcid":"0000-0003-0741-3812","id":"11199","last_name":"Garthe","full_name":"Garthe, Kai-Uwe","first_name":"Kai-Uwe"},{"full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter","id":"48411","last_name":"Hoyer"},{"full_name":"Schaper, Mirko","first_name":"Mirko","id":"43720","last_name":"Schaper"}],"title":"Effect of substrate pre‐treatment on the low cycle fatigue performance of tungsten carbide‐cobalt coated additive manufactured 316 L substrates"},{"_id":"24092","page":"1396-1409","date_updated":"2023-06-01T14:31:48Z","publication":"Journal of Thermal Spray Technology","quality_controlled":"1","date_created":"2021-09-09T15:52:15Z","year":"2020","publication_identifier":{"issn":["1059-9630","1544-1016"]},"type":"journal_article","language":[{"iso":"eng"}],"status":"public","citation":{"bibtex":"@article{Tillmann_Hagen_Schaak_Liß_Schaper_Hoyer_Aydinöz_Garthe_2020, title={Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM}, DOI={10.1007/s11666-020-01081-y}, journal={Journal of Thermal Spray Technology}, author={Tillmann, Wolfgang and Hagen, Leif and Schaak, Christopher and Liß, Jan and Schaper, Mirko and Hoyer, Kay-Peter and Aydinöz, Mehmet Esat and Garthe, Kai-Uwe}, year={2020}, pages={1396–1409} }","mla":"Tillmann, Wolfgang, et al. “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM.” Journal of Thermal Spray Technology, 2020, pp. 1396–409, doi:10.1007/s11666-020-01081-y.","short":"W. Tillmann, L. Hagen, C. Schaak, J. Liß, M. Schaper, K.-P. Hoyer, M.E. Aydinöz, K.-U. Garthe, Journal of Thermal Spray Technology (2020) 1396–1409.","apa":"Tillmann, W., Hagen, L., Schaak, C., Liß, J., Schaper, M., Hoyer, K.-P., Aydinöz, M. E., & Garthe, K.-U. (2020). Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM. Journal of Thermal Spray Technology, 1396–1409. https://doi.org/10.1007/s11666-020-01081-y","ama":"Tillmann W, Hagen L, Schaak C, et al. Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM. Journal of Thermal Spray Technology. Published online 2020:1396-1409. doi:10.1007/s11666-020-01081-y","ieee":"W. Tillmann et al., “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM,” Journal of Thermal Spray Technology, pp. 1396–1409, 2020, doi: 10.1007/s11666-020-01081-y.","chicago":"Tillmann, Wolfgang, Leif Hagen, Christopher Schaak, Jan Liß, Mirko Schaper, Kay-Peter Hoyer, Mehmet Esat Aydinöz, and Kai-Uwe Garthe. “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM.” Journal of Thermal Spray Technology, 2020, 1396–1409. https://doi.org/10.1007/s11666-020-01081-y."},"user_id":"43720","publication_status":"published","department":[{"_id":"158"}],"title":"Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM","author":[{"first_name":"Wolfgang","full_name":"Tillmann, Wolfgang","last_name":"Tillmann"},{"full_name":"Hagen, Leif","first_name":"Leif","last_name":"Hagen"},{"last_name":"Schaak","full_name":"Schaak, Christopher","first_name":"Christopher"},{"first_name":"Jan","full_name":"Liß, Jan","last_name":"Liß"},{"id":"43720","last_name":"Schaper","full_name":"Schaper, Mirko","first_name":"Mirko"},{"id":"48411","last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"last_name":"Aydinöz","full_name":"Aydinöz, Mehmet Esat","first_name":"Mehmet Esat"},{"orcid":"0000-0003-0741-3812","id":"11199","last_name":"Garthe","full_name":"Garthe, Kai-Uwe","first_name":"Kai-Uwe"}],"abstract":[{"lang":"eng","text":"AbstractDifferent studies have been demonstrated that the surface integrity of substrate bulk materials to be coated has a significant impact on the adhesion of thermally sprayed coatings. It is known that the surface integrity of parts processed by selective laser melting (SLM) differs from those obtained from bulk materials. Although 316L stainless steel is among the most investigated material for SLM, the adhesion of thermally sprayed coatings on 316L stainless steel substrates processed by SLM has not been studied yet. This study aims at evaluating the effect of various mechanical pre-treatments onto 316L stainless steel substrates processed by SLM and their effect on the adhesion of high velocity oxy-fuel (HVOF)-sprayed WC-Co coatings. To differentiate between topographical effects and residual stress-related phenomena, a stress-relief heat treatment of the SLM substrates served as a reference throughout the investigations. The differently pre-treated SLM substrates were investigated with regard to the surface roughness and residual stresses. For the HVOF-sprayed SLM composites, Vickers interfacial indentation tests were conducted to assess the resulting coating adhesion. The findings demonstrated that the HVOF-sprayed WC-Co coatings predominantly exhibit good adhesion to the SLM 316L substrates. However, it was found that the stress state in the SLM 316L substrate surface is more likely to affect the adhesion of the WC-Co coating, while the substrate surface roughness showed a marginal effect."}],"doi":"10.1007/s11666-020-01081-y"},{"page":"1396-1409","_id":"24255","date_updated":"2023-06-01T14:31:19Z","date_created":"2021-09-13T09:15:27Z","quality_controlled":"1","publication":"Journal of Thermal Spray Technology","language":[{"iso":"eng"}],"type":"journal_article","publication_identifier":{"issn":["1059-9630","1544-1016"]},"year":"2020","status":"public","citation":{"short":"W. Tillmann, L. Hagen, C. Schaak, J. Liß, M. Schaper, K.-P. Hoyer, M.E. Aydinöz, K.-U. Garthe, Journal of Thermal Spray Technology (2020) 1396–1409.","mla":"Tillmann, W., et al. “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM.” Journal of Thermal Spray Technology, 2020, pp. 1396–409, doi:10.1007/s11666-020-01081-y.","bibtex":"@article{Tillmann_Hagen_Schaak_Liß_Schaper_Hoyer_Aydinöz_Garthe_2020, title={Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM}, DOI={10.1007/s11666-020-01081-y}, journal={Journal of Thermal Spray Technology}, author={Tillmann, W. and Hagen, L. and Schaak, C. and Liß, J. and Schaper, Mirko and Hoyer, Kay-Peter and Aydinöz, M. E. and Garthe, Kai-Uwe}, year={2020}, pages={1396–1409} }","chicago":"Tillmann, W., L. Hagen, C. Schaak, J. Liß, Mirko Schaper, Kay-Peter Hoyer, M. E. Aydinöz, and Kai-Uwe Garthe. “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM.” Journal of Thermal Spray Technology, 2020, 1396–1409. https://doi.org/10.1007/s11666-020-01081-y.","ieee":"W. Tillmann et al., “Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM,” Journal of Thermal Spray Technology, pp. 1396–1409, 2020, doi: 10.1007/s11666-020-01081-y.","apa":"Tillmann, W., Hagen, L., Schaak, C., Liß, J., Schaper, M., Hoyer, K.-P., Aydinöz, M. E., & Garthe, K.-U. (2020). Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM. Journal of Thermal Spray Technology, 1396–1409. https://doi.org/10.1007/s11666-020-01081-y","ama":"Tillmann W, Hagen L, Schaak C, et al. Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM. Journal of Thermal Spray Technology. Published online 2020:1396-1409. doi:10.1007/s11666-020-01081-y"},"publication_status":"published","user_id":"43720","department":[{"_id":"158"}],"title":"Adhesion of HVOF-Sprayed WC-Co Coatings on 316L Substrates Processed by SLM","author":[{"first_name":"W.","full_name":"Tillmann, W.","last_name":"Tillmann"},{"full_name":"Hagen, L.","first_name":"L.","last_name":"Hagen"},{"first_name":"C.","full_name":"Schaak, C.","last_name":"Schaak"},{"last_name":"Liß","full_name":"Liß, J.","first_name":"J."},{"id":"43720","last_name":"Schaper","full_name":"Schaper, Mirko","first_name":"Mirko"},{"first_name":"Kay-Peter","full_name":"Hoyer, Kay-Peter","last_name":"Hoyer","id":"48411"},{"first_name":"M. E.","full_name":"Aydinöz, M. E.","last_name":"Aydinöz"},{"orcid":"0000-0003-0741-3812","full_name":"Garthe, Kai-Uwe","first_name":"Kai-Uwe","id":"11199","last_name":"Garthe"}],"abstract":[{"text":"AbstractDifferent studies have been demonstrated that the surface integrity of substrate bulk materials to be coated has a significant impact on the adhesion of thermally sprayed coatings. It is known that the surface integrity of parts processed by selective laser melting (SLM) differs from those obtained from bulk materials. Although 316L stainless steel is among the most investigated material for SLM, the adhesion of thermally sprayed coatings on 316L stainless steel substrates processed by SLM has not been studied yet. This study aims at evaluating the effect of various mechanical pre-treatments onto 316L stainless steel substrates processed by SLM and their effect on the adhesion of high velocity oxy-fuel (HVOF)-sprayed WC-Co coatings. To differentiate between topographical effects and residual stress-related phenomena, a stress-relief heat treatment of the SLM substrates served as a reference throughout the investigations. The differently pre-treated SLM substrates were investigated with regard to the surface roughness and residual stresses. For the HVOF-sprayed SLM composites, Vickers interfacial indentation tests were conducted to assess the resulting coating adhesion. The findings demonstrated that the HVOF-sprayed WC-Co coatings predominantly exhibit good adhesion to the SLM 316L substrates. However, it was found that the stress state in the SLM 316L substrate surface is more likely to affect the adhesion of the WC-Co coating, while the substrate surface roughness showed a marginal effect.","lang":"eng"}],"doi":"10.1007/s11666-020-01081-y"},{"article_number":"139597","date_updated":"2023-06-01T14:32:04Z","_id":"24093","language":[{"iso":"eng"}],"publication_identifier":{"issn":["0921-5093"]},"year":"2020","type":"journal_article","status":"public","date_created":"2021-09-09T15:54:23Z","quality_controlled":"1","publication":"Materials Science and Engineering: A","department":[{"_id":"158"}],"citation":{"mla":"Wu, Haoran, et al. “Characterization of the Fatigue Behaviour for SAE 1045 Steel without and with Load-Free Sequences Based on Non-Destructive, X-Ray Diffraction and Transmission Electron Microscopic Investigations.” Materials Science and Engineering: A, 139597, 2020, doi:10.1016/j.msea.2020.139597.","bibtex":"@article{Wu_Bill_Teng_Pramanik_Hoyer_Schaper_Starke_2020, title={Characterization of the fatigue behaviour for SAE 1045 steel without and with load-free sequences based on non-destructive, X-ray diffraction and transmission electron microscopic investigations}, DOI={10.1016/j.msea.2020.139597}, number={139597}, journal={Materials Science and Engineering: A}, author={Wu, Haoran and Bill, Tobias and Teng, Zhenjie and Pramanik, Sudipta and Hoyer, Kay-Peter and Schaper, Mirko and Starke, Peter}, year={2020} }","short":"H. 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Tasche, K.-P. Hoyer, E. Zhuravlev, G. Grundmeier, M. Schaper, and O. Keßler, “Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry,” in The Minerals, Metals & Materials Series, Cham: Springer International Publishing, 2019.","chicago":"Tasche, Lennart, Kay-Peter Hoyer, Evgeny Zhuravlev, Guido Grundmeier, Mirko Schaper, and Olaf Keßler. “Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry.” In The Minerals, Metals & Materials Series. Cham: Springer International Publishing, 2019. https://doi.org/10.1007/978-3-030-05861-6_45.","apa":"Tasche, L., Hoyer, K.-P., Zhuravlev, E., Grundmeier, G., Schaper, M., & Keßler, O. (2019). Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry. In The Minerals, Metals & Materials Series. 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Keßler, in: The Minerals, Metals & Materials Series, Springer International Publishing, Cham, 2019.","bibtex":"@inbook{Tasche_Hoyer_Zhuravlev_Grundmeier_Schaper_Keßler_2019, place={Cham}, title={Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry}, DOI={10.1007/978-3-030-05861-6_45}, booktitle={The Minerals, Metals & Materials Series}, publisher={Springer International Publishing}, author={Tasche, Lennart and Hoyer, Kay-Peter and Zhuravlev, Evgeny and Grundmeier, Guido and Schaper, Mirko and Keßler, Olaf}, year={2019} }","mla":"Tasche, Lennart, et al. “Surface Inoculation of Aluminium Powders for Additive Manufacturing Guided by Differential Fast Scanning Calorimetry.” The Minerals, Metals & Materials Series, Springer International Publishing, 2019, doi:10.1007/978-3-030-05861-6_45."}},{"language":[{"iso":"eng"}],"type":"journal_article","year":"2019","publication_identifier":{"issn":["1662-9752"]},"status":"public","date_created":"2021-09-08T07:31:34Z","publication":"Materials Science Forum","quality_controlled":"1","date_updated":"2023-06-01T14:28:28Z","_id":"23907","page":"85-92","abstract":[{"text":"One of the strategies employed to lower weight and to decrease material consumption is reducing part thickness itself. Thus, functionally graded materials in which structural reinforcement is adjusted locally, are of great interest. With regard to conventional industrial processes, such as extrusion or flexible cold rolling, thickness variations can only be achieved either longitudinally or through the cross-section of the semi-finished products. Hence, a combined thickness variation (along both axes) is difficult to generate solely by extrusion or rolling. A simultaneous thickness variation in both directions, however, would enable further weight savings in structural components such as car body parts. In this study, a promising approach with extruded shapes, serving as a billet for a flexible hot rolling process, is elaborated upon. By employing the described process modification, shapes with simultaneous thickness variations in longitudinal as well as in transverse direction are feasible. Initial numerical analysis reveals the weight-saving potential of using these semi-finished products for structural parts in a car body. A demonstration of the production process for the semi-finished parts and the occurring challenges are discussed. To verify and adjust the new technology, a numerical model of the flexible hot rolling process has been created based on the finite element software QForm VX. This model is also employed for tool design optimization to produce semi-finished components with the required geometrical quality. Finally, the results of hot rolling experiments conducted using the adjusted roll design are presented.","lang":"eng"}],"doi":"10.4028/www.scientific.net/msf.949.85","title":"Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082","author":[{"id":"43822","last_name":"Grydin","first_name":"Olexandr","full_name":"Grydin, Olexandr"},{"last_name":"Sotirov","first_name":"Nikolay","full_name":"Sotirov, Nikolay"},{"last_name":"Samsonenko","full_name":"Samsonenko, Andrii","first_name":"Andrii"},{"first_name":"Nikolay","full_name":"Biba, Nikolay","last_name":"Biba"},{"full_name":"Andreiev, Anatolii","first_name":"Anatolii","id":"50215","last_name":"Andreiev"},{"first_name":"Mykhailo","full_name":"Stolbchenko, Mykhailo","last_name":"Stolbchenko"},{"last_name":"Behr","first_name":"Teresa","full_name":"Behr, Teresa"},{"last_name":"Frolov","full_name":"Frolov, Iaroslav","first_name":"Iaroslav"},{"full_name":"Schaper, Mirko","first_name":"Mirko","last_name":"Schaper","id":"43720"}],"department":[{"_id":"158"},{"_id":"321"}],"citation":{"chicago":"Grydin, Olexandr, Nikolay Sotirov, Andrii Samsonenko, Nikolay Biba, Anatolii Andreiev, Mykhailo Stolbchenko, Teresa Behr, Iaroslav Frolov, and Mirko Schaper. “Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082.” Materials Science Forum, 2019, 85–92. https://doi.org/10.4028/www.scientific.net/msf.949.85.","ieee":"O. Grydin et al., “Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082,” Materials Science Forum, pp. 85–92, 2019, doi: 10.4028/www.scientific.net/msf.949.85.","ama":"Grydin O, Sotirov N, Samsonenko A, et al. Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082. Materials Science Forum. Published online 2019:85-92. doi:10.4028/www.scientific.net/msf.949.85","apa":"Grydin, O., Sotirov, N., Samsonenko, A., Biba, N., Andreiev, A., Stolbchenko, M., Behr, T., Frolov, I., & Schaper, M. (2019). Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082. Materials Science Forum, 85–92. https://doi.org/10.4028/www.scientific.net/msf.949.85","short":"O. Grydin, N. Sotirov, A. Samsonenko, N. Biba, A. Andreiev, M. Stolbchenko, T. Behr, I. Frolov, M. Schaper, Materials Science Forum (2019) 85–92.","mla":"Grydin, Olexandr, et al. “Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082.” Materials Science Forum, 2019, pp. 85–92, doi:10.4028/www.scientific.net/msf.949.85.","bibtex":"@article{Grydin_Sotirov_Samsonenko_Biba_Andreiev_Stolbchenko_Behr_Frolov_Schaper_2019, title={Flexible Hot Rolling of Extruded Shapes of Aluminum Alloy EN AW-6082}, DOI={10.4028/www.scientific.net/msf.949.85}, journal={Materials Science Forum}, author={Grydin, Olexandr and Sotirov, Nikolay and Samsonenko, Andrii and Biba, Nikolay and Andreiev, Anatolii and Stolbchenko, Mykhailo and Behr, Teresa and Frolov, Iaroslav and Schaper, Mirko}, year={2019}, pages={85–92} }"},"publication_status":"published","user_id":"43720"},{"intvolume":" 31","author":[{"full_name":"Engelkemeier, Katja","first_name":"Katja","id":"21743","last_name":"Engelkemeier"},{"last_name":"Lindner","first_name":"Jörg K N","full_name":"Lindner, Jörg K N"},{"last_name":"Bürger","id":"46952","first_name":"Julius","full_name":"Bürger, Julius"},{"last_name":"Vaupel","full_name":"Vaupel, Kathrin","first_name":"Kathrin"},{"last_name":"Hartmann","full_name":"Hartmann, Marc","first_name":"Marc"},{"orcid":"0000-0003-1711-2722","first_name":"Michael","full_name":"Tiemann, Michael","last_name":"Tiemann","id":"23547"},{"full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter","id":"48411","last_name":"Hoyer"},{"id":"43720","last_name":"Schaper","full_name":"Schaper, Mirko","first_name":"Mirko"}],"department":[{"_id":"9"},{"_id":"158"}],"publication_status":"published","citation":{"mla":"Engelkemeier, Katja, et al. “Nano-Architectural Complexity of Zinc Oxide Nanowall Hollow Microspheres and Their Structural Properties.” Nanotechnology, vol. 31, no. 9, 095701, IOP Publishing, 2019, doi:10.1088/1361-6528/ab55bc.","bibtex":"@article{Engelkemeier_Lindner_Bürger_Vaupel_Hartmann_Tiemann_Hoyer_Schaper_2019, title={Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties}, volume={31}, DOI={10.1088/1361-6528/ab55bc}, number={9095701}, journal={Nanotechnology}, publisher={IOP Publishing}, author={Engelkemeier, Katja and Lindner, Jörg K N and Bürger, Julius and Vaupel, Kathrin and Hartmann, Marc and Tiemann, Michael and Hoyer, Kay-Peter and Schaper, Mirko}, year={2019} }","short":"K. Engelkemeier, J.K.N. Lindner, J. Bürger, K. Vaupel, M. Hartmann, M. Tiemann, K.-P. Hoyer, M. Schaper, Nanotechnology 31 (2019).","ama":"Engelkemeier K, Lindner JKN, Bürger J, et al. Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties. Nanotechnology. 2019;31(9). doi:10.1088/1361-6528/ab55bc","apa":"Engelkemeier, K., Lindner, J. K. N., Bürger, J., Vaupel, K., Hartmann, M., Tiemann, M., Hoyer, K.-P., & Schaper, M. (2019). Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties. Nanotechnology, 31(9), Article 095701. https://doi.org/10.1088/1361-6528/ab55bc","chicago":"Engelkemeier, Katja, Jörg K N Lindner, Julius Bürger, Kathrin Vaupel, Marc Hartmann, Michael Tiemann, Kay-Peter Hoyer, and Mirko Schaper. “Nano-Architectural Complexity of Zinc Oxide Nanowall Hollow Microspheres and Their Structural Properties.” Nanotechnology 31, no. 9 (2019). https://doi.org/10.1088/1361-6528/ab55bc.","ieee":"K. Engelkemeier et al., “Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties,” Nanotechnology, vol. 31, no. 9, Art. no. 095701, 2019, doi: 10.1088/1361-6528/ab55bc."},"status":"public","language":[{"iso":"eng"}],"year":"2019","publication_identifier":{"issn":["0957-4484","1361-6528"]},"publisher":"IOP Publishing","date_created":"2023-02-02T14:44:47Z","date_updated":"2023-06-01T14:27:50Z","_id":"41524","doi":"10.1088/1361-6528/ab55bc","title":"Nano-architectural complexity of zinc oxide nanowall hollow microspheres and their structural properties","keyword":["Electrical and Electronic Engineering","Mechanical Engineering","Mechanics of Materials","General Materials Science","General Chemistry","Bioengineering"],"user_id":"43720","type":"journal_article","quality_controlled":"1","publication":"Nanotechnology","issue":"9","article_number":"095701","volume":31},{"doi":"10.1016/j.msea.2019.02.025","author":[{"full_name":"Grydin, Olexandr","first_name":"Olexandr","last_name":"Grydin","id":"43822"},{"full_name":"Andreiev, Anatolii","first_name":"Anatolii","id":"50215","last_name":"Andreiev"},{"full_name":"Holzweißig, Martin Joachim","first_name":"Martin Joachim","last_name":"Holzweißig"},{"last_name":"Rüsing","full_name":"Rüsing, Christian Johannes","first_name":"Christian Johannes"},{"last_name":"Duschik","first_name":"Kristina","full_name":"Duschik, Kristina"},{"first_name":"Yaroslav","full_name":"Frolov, Yaroslav","last_name":"Frolov"},{"id":"43720","last_name":"Schaper","full_name":"Schaper, Mirko","first_name":"Mirko"}],"title":"Short austenitization treatment with subsequent press hardening: Correlation between process parameters, microstructure and mechanical properties","department":[{"_id":"158"},{"_id":"321"}],"publication_status":"published","user_id":"43720","citation":{"ama":"Grydin O, Andreiev A, Holzweißig MJ, et al. Short austenitization treatment with subsequent press hardening: Correlation between process parameters, microstructure and mechanical properties. Materials Science and Engineering: A. Published online 2019:176-195. doi:10.1016/j.msea.2019.02.025","apa":"Grydin, O., Andreiev, A., Holzweißig, M. J., Rüsing, C. J., Duschik, K., Frolov, Y., & Schaper, M. (2019). Short austenitization treatment with subsequent press hardening: Correlation between process parameters, microstructure and mechanical properties. Materials Science and Engineering: A, 176–195. https://doi.org/10.1016/j.msea.2019.02.025","ieee":"O. Grydin et al., “Short austenitization treatment with subsequent press hardening: Correlation between process parameters, microstructure and mechanical properties,” Materials Science and Engineering: A, pp. 176–195, 2019, doi: 10.1016/j.msea.2019.02.025.","chicago":"Grydin, Olexandr, Anatolii Andreiev, Martin Joachim Holzweißig, Christian Johannes Rüsing, Kristina Duschik, Yaroslav Frolov, and Mirko Schaper. “Short Austenitization Treatment with Subsequent Press Hardening: Correlation between Process Parameters, Microstructure and Mechanical Properties.” Materials Science and Engineering: A, 2019, 176–95. https://doi.org/10.1016/j.msea.2019.02.025.","bibtex":"@article{Grydin_Andreiev_Holzweißig_Rüsing_Duschik_Frolov_Schaper_2019, title={Short austenitization treatment with subsequent press hardening: Correlation between process parameters, microstructure and mechanical properties}, DOI={10.1016/j.msea.2019.02.025}, journal={Materials Science and Engineering: A}, author={Grydin, Olexandr and Andreiev, Anatolii and Holzweißig, Martin Joachim and Rüsing, Christian Johannes and Duschik, Kristina and Frolov, Yaroslav and Schaper, Mirko}, year={2019}, pages={176–195} }","mla":"Grydin, Olexandr, et al. “Short Austenitization Treatment with Subsequent Press Hardening: Correlation between Process Parameters, Microstructure and Mechanical Properties.” Materials Science and Engineering: A, 2019, pp. 176–95, doi:10.1016/j.msea.2019.02.025.","short":"O. Grydin, A. Andreiev, M.J. Holzweißig, C.J. Rüsing, K. Duschik, Y. Frolov, M. Schaper, Materials Science and Engineering: A (2019) 176–195."},"status":"public","language":[{"iso":"eng"}],"publication_identifier":{"issn":["0921-5093"]},"year":"2019","type":"journal_article","date_created":"2021-09-08T07:30:13Z","quality_controlled":"1","publication":"Materials Science and Engineering: A","date_updated":"2023-06-01T14:28:06Z","_id":"23900","page":"176-195"},{"status":"public","language":[{"iso":"eng"}],"year":"2019","publication_identifier":{"issn":["1438-1656","1527-2648"]},"type":"journal_article","date_created":"2021-09-08T07:30:23Z","quality_controlled":"1","publication":"Advanced Engineering Materials","date_updated":"2023-06-01T14:28:17Z","article_number":"1900134","_id":"23901","doi":"10.1002/adem.201900134","author":[{"first_name":"Olexandr","full_name":"Grydin, Olexandr","last_name":"Grydin","id":"43822"},{"full_name":"Andreiev, Anatolii","first_name":"Anatolii","last_name":"Andreiev","id":"50215"},{"first_name":"Mergim","full_name":"Zogaj, Mergim","last_name":"Zogaj"},{"full_name":"Frolov, Yaroslav","first_name":"Yaroslav","last_name":"Frolov"},{"full_name":"Schaper, Mirko","first_name":"Mirko","id":"43720","last_name":"Schaper"}],"title":"Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel","department":[{"_id":"158"},{"_id":"321"}],"publication_status":"published","user_id":"43720","citation":{"apa":"Grydin, O., Andreiev, A., Zogaj, M., Frolov, Y., & Schaper, M. (2019). Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel. Advanced Engineering Materials, Article 1900134. https://doi.org/10.1002/adem.201900134","ama":"Grydin O, Andreiev A, Zogaj M, Frolov Y, Schaper M. Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel. Advanced Engineering Materials. Published online 2019. doi:10.1002/adem.201900134","ieee":"O. Grydin, A. Andreiev, M. Zogaj, Y. Frolov, and M. Schaper, “Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel,” Advanced Engineering Materials, Art. no. 1900134, 2019, doi: 10.1002/adem.201900134.","chicago":"Grydin, Olexandr, Anatolii Andreiev, Mergim Zogaj, Yaroslav Frolov, and Mirko Schaper. “Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel.” Advanced Engineering Materials, 2019. https://doi.org/10.1002/adem.201900134.","bibtex":"@article{Grydin_Andreiev_Zogaj_Frolov_Schaper_2019, title={Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel}, DOI={10.1002/adem.201900134}, number={1900134}, journal={Advanced Engineering Materials}, author={Grydin, Olexandr and Andreiev, Anatolii and Zogaj, Mergim and Frolov, Yaroslav and Schaper, Mirko}, year={2019} }","mla":"Grydin, Olexandr, et al. “Relationships between Microstructural and Mechanical Performance on Example of an Air‐Hardening Steel.” Advanced Engineering Materials, 1900134, 2019, doi:10.1002/adem.201900134.","short":"O. Grydin, A. Andreiev, M. Zogaj, Y. Frolov, M. Schaper, Advanced Engineering Materials (2019)."}},{"author":[{"last_name":"Urbanek","first_name":"Stefan","full_name":"Urbanek, Stefan"},{"full_name":"Ponick, Bernd","first_name":"Bernd","last_name":"Ponick"},{"last_name":"Taube","full_name":"Taube, Alexander","first_name":"Alexander"},{"last_name":"Hoyer","id":"48411","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"last_name":"Schaper","id":"43720","full_name":"Schaper, Mirko","first_name":"Mirko"},{"id":"13835","last_name":"Lammers","full_name":"Lammers, Stefan","first_name":"Stefan"},{"first_name":"Tobias","full_name":"Lieneke, Tobias","last_name":"Lieneke","id":"13956"},{"first_name":"Detmar","full_name":"Zimmer, Detmar","last_name":"Zimmer","id":"604"}],"title":"Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine","doi":"10.1109/itec.2018.8450250","user_id":"48411","publication_status":"published","citation":{"chicago":"Urbanek, Stefan, Bernd Ponick, Alexander Taube, Kay-Peter Hoyer, Mirko Schaper, Stefan Lammers, Tobias Lieneke, and Detmar Zimmer. “Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine.” In 2018 IEEE Transportation Electrification Conference and Expo (ITEC), 2018. https://doi.org/10.1109/itec.2018.8450250.","ieee":"S. Urbanek et al., “Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine,” 2018, doi: 10.1109/itec.2018.8450250.","apa":"Urbanek, S., Ponick, B., Taube, A., Hoyer, K.-P., Schaper, M., Lammers, S., Lieneke, T., & Zimmer, D. (2018). Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine. 2018 IEEE Transportation Electrification Conference and Expo (ITEC). https://doi.org/10.1109/itec.2018.8450250","ama":"Urbanek S, Ponick B, Taube A, et al. Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine. In: 2018 IEEE Transportation Electrification Conference and Expo (ITEC). ; 2018. doi:10.1109/itec.2018.8450250","short":"S. Urbanek, B. Ponick, A. Taube, K.-P. Hoyer, M. Schaper, S. Lammers, T. Lieneke, D. Zimmer, in: 2018 IEEE Transportation Electrification Conference and Expo (ITEC), 2018.","mla":"Urbanek, Stefan, et al. “Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine.” 2018 IEEE Transportation Electrification Conference and Expo (ITEC), 2018, doi:10.1109/itec.2018.8450250.","bibtex":"@inproceedings{Urbanek_Ponick_Taube_Hoyer_Schaper_Lammers_Lieneke_Zimmer_2018, title={Additive Manufacturing of a Soft Magnetic Rotor Active Part and Shaft for a Permanent Magnet Synchronous Machine}, DOI={10.1109/itec.2018.8450250}, booktitle={2018 IEEE Transportation Electrification Conference and Expo (ITEC)}, author={Urbanek, Stefan and Ponick, Bernd and Taube, Alexander and Hoyer, Kay-Peter and Schaper, Mirko and Lammers, Stefan and Lieneke, Tobias and Zimmer, Detmar}, year={2018} }"},"department":[{"_id":"9"},{"_id":"158"},{"_id":"146"}],"publication":"2018 IEEE Transportation Electrification Conference and Expo (ITEC)","date_created":"2021-09-10T07:14:31Z","status":"public","type":"conference","year":"2018","language":[{"iso":"eng"}],"_id":"24105","date_updated":"2022-01-06T06:56:07Z"}]