Katharina Bartsch

Anschrift

Denickestr. 17, Gebäude L
D-21073 Hamburg

Büro

Raum 1.007

Telefon

+49 40 48 40 10 - 648

E-Mail

katharina.bartsch(at)tuhh.de

Sprechzeiten

Do. 09:00 bis 16:00 Uhr

ORCID

https://orcid.org/0000-0002-2572-4596

Veröffentlichungen

  • Bartsch, Katharina and Ewald, Ake and Herzog, Dirk (2020). Fachwissenschaft und Berufspraxis verbunden durch kollaboratives Peer Teaching im Studium des Lehramts an Beruflichen Schulen. Journal of Technical Education. 8 (2), 81--97. [BibTex]

  • Bartsch, Katharina and Ohrenberg, Joost and Emmelmann, Claus (2020). Benchmark parts for the evaluation of optimized support structures in Laser Powder Bed Fusion of metals. Procedia CIRP. 94 254--259. [doi] [BibTex]

  • Herzog, Dirk and Bartsch, Katharina and Bossen, Bastian (2020). Productivity optimization of laser powder bed fusion by hot isostatic pressing. Additive Manufacturing. 36 101494. [doi] [BibTex]

  • Bartsch, K. and Lange, F. and Herzog, D. and Emmelmann, C. (2019). A Novel Approach to Support Structures Optimized for Heat Dissipation in SLM by Combining Process Simulation with Topology Optimization. 272. [BibTex]

  • Bartsch, K.; Lange, F.; Herzog, D.; Emmelmann, C. (2019). A Novel Approach to Support Structures Optimized for Heat Dissipation in SLM by Combining Process Simulation with Topology Optimization. 272. [BibTex]

  • Daniel, C.; Bartsch, K.; Emmelmann, C. (2019). Selbstorganisiertes Lernen als Vorbereitung für das lebenslange Lernen im Lehrberuf. [BibTex]

  • Herzog, D.; Bartsch, K.; Bossen, B.; Schenk, K.-F.; Emmelmann, C. (2019). Laser Beam Melting of Large-Scale Ti-6Al-4V Parts - Increasing Productivity and Reducing Residual Stresses. [BibTex]

  • Lange, F. and Shinde, A. S. and Bartsch, K. and Emmelmann, C. (2019). A novel approach to avoid internal support structures in fluid flow optimization for additive manufacturing. 278. [BibTex]

  • Lange, F.; Shinde, A. S.; Bartsch, K.; Emmelmann, C. (2019). A novel approach to avoid internal support structures in fluid flow optimization for additive manufacturing. 278. [BibTex]

  • Bartsch, K. and Ahrens, K. and Herzog, D. and Emmelmann, C. (2018). Additive (R)Evolution in der Berufsschule - Chancen, Potenziale und Herausforderungen. lernen & lehren. 130 (2), 66--72. [BibTex]

  • Bartsch, K. and Lange, F. and Gralow, M. and Emmelmann, C. (2018). A Novel Approach to Optimized Support Structures in LBM by Combining Process Simulation with Topology Optimization. Journal of Laser Applications. 31 022302. [doi] [BibTex]

  • Bartsch, K.; Ahrens, K.; Herzog, D.; Emmelmann, C. (2018). Additive (R)Evolution in der Berufsschule - Chancen, Potenziale und Herausforderungen. lernen \& lehren. 130 (2), 66--72. [BibTex]

  • Bartsch, K.; Lange, F.; Gralow, M. ; Emmelmann, C. (2018). A Novel Approach to Optimized Support Structures in LBM by Combining Process Simulation with Topology Optimization. Journal of Laser Applications. 31 022302. [doi] [BibTex]

  • Emmelmann, C.; Herzog, D.; Bartsch, K.; Ahrens, K. (2018). Additive Technologien - Implikationen für die Gewerblich-Technischen Wissenschaften. [BibTex]

  • Emmelmann, C.; Herzog, D.; Bartsch, K.; Ahrens, K. (2018). Additive Technologien - Implikationen für die Gewerblich-Technischen Wissenschaften. 20. gtw-Konferenz, 04.-05.10., Magdeburg, Deutschland. [BibTex]

  • Oberlander, Max and Canisius, Marten and Hergoss, Philipp and Bartsch, Katharina and Herzog, Dirk and Emmelmann, Claus (2018). Optimization of laser-remote-cutting of CFRP by means of variable exposure delay times -- simulation and validation. Journal of Laser Applications. 30 (3), 032204. [doi] [BibTex]

  • Oberlander, Max; Canisius, Marten; Hergoss, Philipp; Bartsch, Katharina; Herzog, Dirk; Emmelmann, Claus (2018). Optimization of laser-remote-cutting of CFRP by means of variable exposure delay times – simulation and validation. Journal of Laser Applications. 30 (3), 032204. [doi] [www] [BibTex]

  • Oberlander, M. and Bartsch, K. and Schulte, C. and Canisius, M. and Hergoss, P. and Herzog, D. and Emmelmann, C. (2017). Process monitoring of laser remote cutting of carbon fiber reinforced plastics by means of reflecting laser radiation. Journal of Laser Applications. 29 (2), 022009. [doi] [BibTex]

  • Oberlander, M.; Bartsch, K.; Schulte, C.; Canisius, M.; Hergoss, P.; Herzog, D.; Emmelmann, C. (2017). Process monitoring of laser remote cutting of carbon fiber reinforced plastics by means of reflecting laser radiation. Journal of Laser Applications. 29 (2), 022009. [doi] [www] [BibTex]