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Schaper, Composites Part B: Engineering (2018) 173–185.","bibtex":"@article{Zinn_Bobbert_Dammann_Wang_Tröster_Mahnken_Meschut_Schaper_2018, title={Shear strength and failure behaviour of laser nano-structured and conventionally pre-treated interfaces in intrinsically manufactured CFRP-steel hybrids}, DOI={10.1016/j.compositesb.2018.05.030}, journal={Composites Part B: Engineering}, author={Zinn, Carolin and Bobbert, Mathias and Dammann, Christian and Wang, Zheng and Tröster, Thomas and Mahnken, Rolf and Meschut, Gerson and Schaper, Mirko}, year={2018}, pages={173–185} }"},"page":"173-185","publication_status":"published","publication_identifier":{"issn":["1359-8368"]},"quality_controlled":"1","language":[{"iso":"eng"}],"_id":"15958","user_id":"43720","department":[{"_id":"9"},{"_id":"321"},{"_id":"149"},{"_id":"157"},{"_id":"154"}],"status":"public","type":"journal_article","publication":"Composites Part B: Engineering"},{"date_updated":"2025-05-19T07:01:23Z","publisher":"IOP Publishing","volume":418,"author":[{"first_name":"A A","full_name":"Camberg, A A","last_name":"Camberg"},{"last_name":"Bohner","full_name":"Bohner, F","first_name":"F"},{"first_name":"J","last_name":"Tölle","full_name":"Tölle, J"},{"first_name":"A","full_name":"Schneidt, A","last_name":"Schneidt"},{"first_name":"S","last_name":"Meiners","full_name":"Meiners, S"},{"first_name":"Thomas","last_name":"Tröster","id":"553","full_name":"Tröster, Thomas"}],"date_created":"2025-05-19T06:59:45Z","title":"Formability enhancement of EN AW-5182 H18 aluminum alloy sheet metal parts in a flash forming process: testing, calibration and evaluation of fracture models","doi":"10.1088/1757-899x/418/1/012018","quality_controlled":"1","publication_identifier":{"issn":["1757-899X"]},"publication_status":"published","year":"2018","intvolume":" 418","citation":{"chicago":"Camberg, A A, F Bohner, J Tölle, A Schneidt, S Meiners, and Thomas Tröster. “Formability Enhancement of EN AW-5182 H18 Aluminum Alloy Sheet Metal Parts in a Flash Forming Process: Testing, Calibration and Evaluation of Fracture Models.” IOP Conference Series: Materials Science and Engineering 418 (2018). https://doi.org/10.1088/1757-899x/418/1/012018.","ieee":"A. A. Camberg, F. Bohner, J. Tölle, A. Schneidt, S. Meiners, and T. Tröster, “Formability enhancement of EN AW-5182 H18 aluminum alloy sheet metal parts in a flash forming process: testing, calibration and evaluation of fracture models,” IOP Conference Series: Materials Science and Engineering, vol. 418, Art. no. 012018, 2018, doi: 10.1088/1757-899x/418/1/012018.","ama":"Camberg AA, Bohner F, Tölle J, Schneidt A, Meiners S, Tröster T. Formability enhancement of EN AW-5182 H18 aluminum alloy sheet metal parts in a flash forming process: testing, calibration and evaluation of fracture models. IOP Conference Series: Materials Science and Engineering. 2018;418. doi:10.1088/1757-899x/418/1/012018","bibtex":"@article{Camberg_Bohner_Tölle_Schneidt_Meiners_Tröster_2018, title={Formability enhancement of EN AW-5182 H18 aluminum alloy sheet metal parts in a flash forming process: testing, calibration and evaluation of fracture models}, volume={418}, DOI={10.1088/1757-899x/418/1/012018}, number={012018}, journal={IOP Conference Series: Materials Science and Engineering}, publisher={IOP Publishing}, author={Camberg, A A and Bohner, F and Tölle, J and Schneidt, A and Meiners, S and Tröster, Thomas}, year={2018} }","short":"A.A. Camberg, F. Bohner, J. Tölle, A. Schneidt, S. Meiners, T. Tröster, IOP Conference Series: Materials Science and Engineering 418 (2018).","mla":"Camberg, A. A., et al. “Formability Enhancement of EN AW-5182 H18 Aluminum Alloy Sheet Metal Parts in a Flash Forming Process: Testing, Calibration and Evaluation of Fracture Models.” IOP Conference Series: Materials Science and Engineering, vol. 418, 012018, IOP Publishing, 2018, doi:10.1088/1757-899x/418/1/012018.","apa":"Camberg, A. A., Bohner, F., Tölle, J., Schneidt, A., Meiners, S., & Tröster, T. (2018). Formability enhancement of EN AW-5182 H18 aluminum alloy sheet metal parts in a flash forming process: testing, calibration and evaluation of fracture models. IOP Conference Series: Materials Science and Engineering, 418, Article 012018. https://doi.org/10.1088/1757-899x/418/1/012018"},"_id":"59979","department":[{"_id":"9"},{"_id":"149"},{"_id":"321"}],"user_id":"15952","article_number":"012018","language":[{"iso":"eng"}],"publication":"IOP Conference Series: Materials Science and Engineering","type":"journal_article","abstract":[{"lang":"eng","text":"Currently, it is state of the art to use precipitation hardening 6000-series aluminum alloys to manufacture high-strength aluminum automotive parts by extrusion or in a cold forming process. Alternatively, it is also possible to produce such parts by the use of non-precipitation hardening 5000-series aluminum alloys in a work-hardened condition. Therefore, BENTELER Automobiltechnik GmbH developed a special sheet forming process, henceforth referred to as \"flash forming process\". The application of the flash forming process, consisting of a rapid heat treatment and a subsequent cold die stamping, increases the forming capability of the work-hardened 5000-series aluminum sheets and results in high-strength parts with a very good ductility and weldability. In addition, this thermal assisted forming process allows a cost-saving production of such high-strength aluminum parts due to lower material costs of 5000-series aluminum alloys than those of a 6000-series material. Furthermore, the weight-saving effects of \"flash formed\" parts can be higher compared to extruded or cold formed 6000-series aluminum alloys. The suitability of the process is evaluated by forming a commercial AW-5182 H18 aluminum sheet to a crash-relevant automotive part. However, to accurately simulate the flash forming process itself, a temperature dependent fracture model is necessary. Investigations on a coupon basis also showed that the effect of adiabatic heating due to plastic work cannot be neglected. In cooperation with Paderborn University, a detailed mechanical testing, aided by digital image correlation (DIC) and thermal imaging, is carried out to characterize the yield, hardening and fracture behavior at elevated temperatures. The experimental tests are followed by the calibration of a FLD and an incremental stress state dependent fracture model in LS-DYNA. Finally, the simulation models are validated on a cross die deep drawn cup."}],"status":"public"},{"title":"Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing","doi":"10.7449/2018mst/2018/mst_2018_117_124","date_updated":"2025-05-20T06:28:38Z","author":[{"id":"11207","full_name":"Ahlers, Dominik","last_name":"Ahlers","first_name":"Dominik"},{"first_name":"Thomas","last_name":"Tröster","full_name":"Tröster, Thomas","id":"553"},{"first_name":"S.","full_name":"Hermann, S.","last_name":"Hermann"},{"first_name":"P.","full_name":"Koppa, P.","last_name":"Koppa"},{"first_name":"P.","last_name":"Gloetter","full_name":"Gloetter, P."},{"last_name":"Schaper","full_name":"Schaper, Mirko","id":"43720","first_name":"Mirko"},{"first_name":"M.","last_name":"Peters","full_name":"Peters, M."},{"first_name":"M.","full_name":"Burns, M.","last_name":"Burns"},{"full_name":"Hengsbach, Florian","id":"14073","last_name":"Hengsbach","first_name":"Florian"},{"last_name":"Altmann","full_name":"Altmann, A.","first_name":"A."}],"date_created":"2020-02-24T16:11:19Z","year":"2018","citation":{"apa":"Ahlers, D., Tröster, T., Hermann, S., Koppa, P., Gloetter, P., Schaper, M., Peters, M., Burns, M., Hengsbach, F., & Altmann, A. (2018). Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing. Contributed Papers from MS&T17. https://doi.org/10.7449/2018mst/2018/mst_2018_117_124","mla":"Ahlers, Dominik, et al. “Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing.” Contributed Papers from MS&T17, 2018, doi:10.7449/2018mst/2018/mst_2018_117_124.","short":"D. Ahlers, T. Tröster, S. Hermann, P. Koppa, P. Gloetter, M. Schaper, M. Peters, M. Burns, F. Hengsbach, A. Altmann, in: Contributed Papers from MS&T17, 2018.","bibtex":"@inproceedings{Ahlers_Tröster_Hermann_Koppa_Gloetter_Schaper_Peters_Burns_Hengsbach_Altmann_2018, title={Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing}, DOI={10.7449/2018mst/2018/mst_2018_117_124}, booktitle={Contributed Papers from MS&T17}, author={Ahlers, Dominik and Tröster, Thomas and Hermann, S. and Koppa, P. and Gloetter, P. and Schaper, Mirko and Peters, M. and Burns, M. and Hengsbach, Florian and Altmann, A.}, year={2018} }","ama":"Ahlers D, Tröster T, Hermann S, et al. Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing. In: Contributed Papers from MS&T17. ; 2018. doi:10.7449/2018mst/2018/mst_2018_117_124","chicago":"Ahlers, Dominik, Thomas Tröster, S. Hermann, P. Koppa, P. Gloetter, Mirko Schaper, M. Peters, M. Burns, Florian Hengsbach, and A. Altmann. “Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing.” In Contributed Papers from MS&T17, 2018. https://doi.org/10.7449/2018mst/2018/mst_2018_117_124.","ieee":"D. Ahlers et al., “Selective Laser Melting of Ti6Al4V with High Build Rates and Following Hot Isostatic Pressing,” 2018, doi: 10.7449/2018mst/2018/mst_2018_117_124."},"publication_identifier":{"isbn":["9780873397667"]},"quality_controlled":"1","publication_status":"published","language":[{"iso":"eng"}],"_id":"16048","department":[{"_id":"9"},{"_id":"321"},{"_id":"149"},{"_id":"219"}],"user_id":"43720","status":"public","publication":"Contributed Papers from MS&T17","type":"conference"},{"status":"public","type":"conference","language":[{"iso":"eng"}],"_id":"15960","department":[{"_id":"9"},{"_id":"321"},{"_id":"149"}],"user_id":"15952","year":"2018","citation":{"chicago":"Weiß-Borkowski, Nathalie, Junhe Lian, Alan Adam Camberg, Thomas Tröster, Sebastian Münstermann, Wolfgang Bleck, Helmut Gese, and Helmut Richter. “Forming Limit Curves of DP600 Determined in High-Speed Nakajima Tests and Predicted by Two Different Strain-Rate-Sensitive Models,” 2018. https://doi.org/10.1063/1.5035024.","ieee":"N. Weiß-Borkowski et al., “Forming limit curves of DP600 determined in high-speed Nakajima tests and predicted by two different strain-rate-sensitive models,” 2018, doi: 10.1063/1.5035024.","ama":"Weiß-Borkowski N, Lian J, Camberg AA, et al. Forming limit curves of DP600 determined in high-speed Nakajima tests and predicted by two different strain-rate-sensitive models. In: ; 2018. doi:10.1063/1.5035024","mla":"Weiß-Borkowski, Nathalie, et al. Forming Limit Curves of DP600 Determined in High-Speed Nakajima Tests and Predicted by Two Different Strain-Rate-Sensitive Models. 2018, doi:10.1063/1.5035024.","short":"N. Weiß-Borkowski, J. Lian, A.A. Camberg, T. Tröster, S. Münstermann, W. Bleck, H. Gese, H. Richter, in: 2018.","bibtex":"@inproceedings{Weiß-Borkowski_Lian_Camberg_Tröster_Münstermann_Bleck_Gese_Richter_2018, title={Forming limit curves of DP600 determined in high-speed Nakajima tests and predicted by two different strain-rate-sensitive models}, DOI={10.1063/1.5035024}, author={Weiß-Borkowski, Nathalie and Lian, Junhe and Camberg, Alan Adam and Tröster, Thomas and Münstermann, Sebastian and Bleck, Wolfgang and Gese, Helmut and Richter, Helmut}, year={2018} }","apa":"Weiß-Borkowski, N., Lian, J., Camberg, A. A., Tröster, T., Münstermann, S., Bleck, W., Gese, H., & Richter, H. (2018). Forming limit curves of DP600 determined in high-speed Nakajima tests and predicted by two different strain-rate-sensitive models. https://doi.org/10.1063/1.5035024"},"quality_controlled":"1","publication_status":"published","title":"Forming limit curves of DP600 determined in high-speed Nakajima tests and predicted by two different strain-rate-sensitive models","doi":"10.1063/1.5035024","date_updated":"2025-06-06T07:42:34Z","author":[{"last_name":"Weiß-Borkowski","full_name":"Weiß-Borkowski, Nathalie","first_name":"Nathalie"},{"first_name":"Junhe","last_name":"Lian","full_name":"Lian, Junhe"},{"first_name":"Alan Adam","last_name":"Camberg","id":"60544","full_name":"Camberg, Alan Adam"},{"full_name":"Tröster, Thomas","id":"553","last_name":"Tröster","first_name":"Thomas"},{"first_name":"Sebastian","full_name":"Münstermann, Sebastian","last_name":"Münstermann"},{"full_name":"Bleck, Wolfgang","last_name":"Bleck","first_name":"Wolfgang"},{"first_name":"Helmut","last_name":"Gese","full_name":"Gese, Helmut"},{"last_name":"Richter","full_name":"Richter, Helmut","first_name":"Helmut"}],"date_created":"2020-02-21T14:33:57Z"},{"publication_status":"published","publication_identifier":{"issn":["2363-9512","2363-9520"]},"citation":{"chicago":"Hengsbach, Florian, Peter Koppa, Martin Joachim Holzweissig, Mehmet Esat Aydinöz, Alexander Taube, Kay-Peter Hoyer, Oleksiy Starykov, et al. “Inline Additively Manufactured Functionally Graded Multi-Materials: Microstructural and Mechanical Characterization of 316L Parts with H13 Layers.” Progress in Additive Manufacturing 3, no. 4 (2018): 221–31. https://doi.org/10.1007/s40964-018-0044-4.","ieee":"F. Hengsbach et al., “Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers,” Progress in Additive Manufacturing, vol. 3, no. 4, pp. 221–231, 2018, doi: 10.1007/s40964-018-0044-4.","ama":"Hengsbach F, Koppa P, Holzweissig MJ, et al. Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers. Progress in Additive Manufacturing. 2018;3(4):221-231. doi:10.1007/s40964-018-0044-4","bibtex":"@article{Hengsbach_Koppa_Holzweissig_Aydinöz_Taube_Hoyer_Starykov_Tonn_Niendorf_Tröster_et al._2018, title={Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers}, volume={3}, DOI={10.1007/s40964-018-0044-4}, number={4}, journal={Progress in Additive Manufacturing}, publisher={Springer Science and Business Media LLC}, author={Hengsbach, Florian and Koppa, Peter and Holzweissig, Martin Joachim and Aydinöz, Mehmet Esat and Taube, Alexander and Hoyer, Kay-Peter and Starykov, Oleksiy and Tonn, Babette and Niendorf, Thomas and Tröster, Thomas and et al.}, year={2018}, pages={221–231} }","mla":"Hengsbach, Florian, et al. “Inline Additively Manufactured Functionally Graded Multi-Materials: Microstructural and Mechanical Characterization of 316L Parts with H13 Layers.” Progress in Additive Manufacturing, vol. 3, no. 4, Springer Science and Business Media LLC, 2018, pp. 221–31, doi:10.1007/s40964-018-0044-4.","short":"F. Hengsbach, P. Koppa, M.J. Holzweissig, M.E. Aydinöz, A. Taube, K.-P. Hoyer, O. Starykov, B. Tonn, T. Niendorf, T. Tröster, M. Schaper, Progress in Additive Manufacturing 3 (2018) 221–231.","apa":"Hengsbach, F., Koppa, P., Holzweissig, M. J., Aydinöz, M. E., Taube, A., Hoyer, K.-P., Starykov, O., Tonn, B., Niendorf, T., Tröster, T., & Schaper, M. (2018). Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers. Progress in Additive Manufacturing, 3(4), 221–231. https://doi.org/10.1007/s40964-018-0044-4"},"intvolume":" 3","page":"221-231","date_updated":"2025-06-06T08:28:06Z","author":[{"full_name":"Hengsbach, Florian","id":"14073","last_name":"Hengsbach","first_name":"Florian"},{"full_name":"Koppa, Peter","last_name":"Koppa","first_name":"Peter"},{"full_name":"Holzweissig, Martin Joachim","last_name":"Holzweissig","first_name":"Martin Joachim"},{"full_name":"Aydinöz, Mehmet Esat","last_name":"Aydinöz","first_name":"Mehmet Esat"},{"first_name":"Alexander","last_name":"Taube","full_name":"Taube, Alexander"},{"first_name":"Kay-Peter","last_name":"Hoyer","full_name":"Hoyer, Kay-Peter","id":"48411"},{"last_name":"Starykov","full_name":"Starykov, Oleksiy","first_name":"Oleksiy"},{"last_name":"Tonn","full_name":"Tonn, Babette","first_name":"Babette"},{"first_name":"Thomas","last_name":"Niendorf","full_name":"Niendorf, Thomas"},{"first_name":"Thomas","id":"553","full_name":"Tröster, Thomas","last_name":"Tröster"},{"first_name":"Mirko","full_name":"Schaper, Mirko","id":"43720","last_name":"Schaper"}],"volume":3,"doi":"10.1007/s40964-018-0044-4","type":"journal_article","status":"public","_id":"41525","user_id":"15952","department":[{"_id":"9"},{"_id":"158"},{"_id":"149"},{"_id":"321"}],"quality_controlled":"1","issue":"4","year":"2018","publisher":"Springer Science and Business Media LLC","date_created":"2023-02-02T14:45:19Z","title":"Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers","publication":"Progress in Additive Manufacturing","keyword":["Industrial and Manufacturing Engineering"],"language":[{"iso":"eng"}]},{"doi":"10.1007/s40964-018-0044-4","title":"Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers","date_created":"2021-09-10T07:13:26Z","author":[{"last_name":"Hengsbach","full_name":"Hengsbach, Florian","id":"14073","first_name":"Florian"},{"first_name":"Peter","full_name":"Koppa, Peter","last_name":"Koppa"},{"first_name":"Martin Joachim","last_name":"Holzweissig","full_name":"Holzweissig, Martin Joachim"},{"last_name":"Aydinöz","full_name":"Aydinöz, Mehmet Esat","first_name":"Mehmet Esat"},{"full_name":"Taube, Alexander","last_name":"Taube","first_name":"Alexander"},{"last_name":"Hoyer","id":"48411","full_name":"Hoyer, Kay-Peter","first_name":"Kay-Peter"},{"last_name":"Starykov","full_name":"Starykov, Oleksiy","first_name":"Oleksiy"},{"last_name":"Tonn","full_name":"Tonn, Babette","first_name":"Babette"},{"full_name":"Niendorf, Thomas","last_name":"Niendorf","first_name":"Thomas"},{"first_name":"Thomas","id":"553","full_name":"Tröster, Thomas","last_name":"Tröster"},{"first_name":"Mirko","full_name":"Schaper, Mirko","id":"43720","last_name":"Schaper"}],"date_updated":"2025-06-06T08:28:43Z","page":"221-231","citation":{"bibtex":"@article{Hengsbach_Koppa_Holzweissig_Aydinöz_Taube_Hoyer_Starykov_Tonn_Niendorf_Tröster_et al._2018, title={Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers}, DOI={10.1007/s40964-018-0044-4}, journal={Progress in Additive Manufacturing}, author={Hengsbach, Florian and Koppa, Peter and Holzweissig, Martin Joachim and Aydinöz, Mehmet Esat and Taube, Alexander and Hoyer, Kay-Peter and Starykov, Oleksiy and Tonn, Babette and Niendorf, Thomas and Tröster, Thomas and et al.}, year={2018}, pages={221–231} }","short":"F. Hengsbach, P. Koppa, M.J. Holzweissig, M.E. Aydinöz, A. Taube, K.-P. Hoyer, O. Starykov, B. Tonn, T. Niendorf, T. Tröster, M. Schaper, Progress in Additive Manufacturing (2018) 221–231.","mla":"Hengsbach, Florian, et al. “Inline Additively Manufactured Functionally Graded Multi-Materials: Microstructural and Mechanical Characterization of 316L Parts with H13 Layers.” Progress in Additive Manufacturing, 2018, pp. 221–31, doi:10.1007/s40964-018-0044-4.","apa":"Hengsbach, F., Koppa, P., Holzweissig, M. J., Aydinöz, M. E., Taube, A., Hoyer, K.-P., Starykov, O., Tonn, B., Niendorf, T., Tröster, T., & Schaper, M. (2018). Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers. Progress in Additive Manufacturing, 221–231. https://doi.org/10.1007/s40964-018-0044-4","ama":"Hengsbach F, Koppa P, Holzweissig MJ, et al. Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers. Progress in Additive Manufacturing. Published online 2018:221-231. doi:10.1007/s40964-018-0044-4","chicago":"Hengsbach, Florian, Peter Koppa, Martin Joachim Holzweissig, Mehmet Esat Aydinöz, Alexander Taube, Kay-Peter Hoyer, Oleksiy Starykov, et al. “Inline Additively Manufactured Functionally Graded Multi-Materials: Microstructural and Mechanical Characterization of 316L Parts with H13 Layers.” Progress in Additive Manufacturing, 2018, 221–31. https://doi.org/10.1007/s40964-018-0044-4.","ieee":"F. 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Hengsbach, P. Koppa, M.J. Holzweissig, M.E. Aydinöz, A. Taube, K.-P. Hoyer, O. Starykov, B. Tonn, T. Niendorf, T. Tröster, M. Schaper, Progress in Additive Manufacturing (2018) 221–231.","bibtex":"@article{Hengsbach_Koppa_Holzweissig_Aydinöz_Taube_Hoyer_Starykov_Tonn_Niendorf_Tröster_et al._2018, title={Inline additively manufactured functionally graded multi-materials: microstructural and mechanical characterization of 316L parts with H13 layers}, DOI={10.1007/s40964-018-0044-4}, journal={Progress in Additive Manufacturing}, author={Hengsbach, Florian and Koppa, Peter and Holzweissig, Martin Joachim and Aydinöz, Mehmet Esat and Taube, Alexander and Hoyer, Kay-Peter and Starykov, Oleksiy and Tonn, Babette and Niendorf, Thomas and Tröster, Thomas and et al.}, year={2018}, pages={221–231} }","apa":"Hengsbach, F., Koppa, P., Holzweissig, M. J., Aydinöz, M. E., Taube, A., Hoyer, K.-P., Starykov, O., Tonn, B., Niendorf, T., Tröster, T., & Schaper, M. (2018). 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