Dr.-Ing. Dirk Herzog

Anschrift

Am Schleusengraben 14
D-21029 Hamburg

Büro

Raum 2.14

Telefon

+49 40 48 40 10 - 640

E-Mail

dirk.herzog(at)tuhh.de

Sprechzeiten

nach Vereinbarung

ORCID
Veröffentlichungen
  • 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]

  • 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; 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]

  • Seyda, V.; Herzog, D.; Emmelmann, C. (2018). How powder characteristics influence: The part properties of laser beam melted titanium. LIA Today. 26 (1), 10--12. [BibTex]

  • Emmelmann, C.; Rudolph, J.-P.; Herzog, D. (2017). Part screening in the cloud - web-based assessment of potentials for additive manufacturing,Bauteilbewertung in der Cloud: Webbasierte Potenzialbewertung für die additive Fertigung. ZWF Zeitschrift fuer Wirtschaftlichen Fabrikbetrieb. 112 (11), 802--805. [BibTex]

  • Möller, M.; Ewald, A.; Weber, J.; Heilemann, M.; Herzog, D.; Emmelmann, C. (2017). Characterization of the anisotropic properties for laser metal deposited Ti-6Al-4 V. Journal of Laser Applications. 29 (2), [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]

  • Seyda, V.; Herzog, D.; Emmelmann, C. (2017). Relationship between powder characteristics and part properties in laser beam melting of Ti-6Al-4V, and implications on quality. Journal of Laser Applications. 29 (2), [BibTex]

  • Emmelmann, C.; Herzog, D.; Kranz, J. (2016). Design for laser additive manufacturing. Laser Additive Manufacturing: Materials, Design, Technologies, and Applications. 259--279. [BibTex]

  • Herzog, D.; Schmidt-Lehr, M.; Oberlander, M.; Canisius, M.; Radek, M.; Emmelmann, C. (2016). Laser cutting of carbon fibre reinforced plastics of high thickness. Materials and Design. 92 742--749. [BibTex]

  • Herzog, D.; Seyda, V.; Wycisk, E.; Emmelmann, C. (2016). Additive manufacturing of metals. Acta Materialia. 117 371--392. [BibTex]

  • Möller, M.; Herzog, D.; Wischeropp, T.; Emmelmann, C.; Krywka, C.; Staron, P.; Munsch, M. (2016). Analysis of residual stress formation in additive manufacturing of Ti-6Al-4V. Materials Science and Technology Conference and Exhibition 2016, MS and T 2016. 1 43--50. [BibTex]

  • Canisius, M.; Herzog, D.; Schmidt-Lehr, M.; Oberlander, M.; Direnga, J.; Emmelmann, C. (2015). Laser cutting of carbon fiber-reinforced plastic with an absorber transparent for visible spectrum. Journal of Laser Applications. 27 (3), [BibTex]

  • Herzog, D.; Schmidt-Lehr, M.; Canisius, M.; Oberlander, M.; Tasche, J.-P.; Emmelmann, C. (2015). Laser cutting of CFRP: Using a 30 kW fiber of laser. LIA Today. 23 (4), 10--11. [BibTex]

  • Herzog, D.; Schmidt-Lehr, M.; Canisius, M.; Oberlander, M.; Tasche, J.-P.; Emmelmann, C. (2015). Laser cutting of carbon fiber reinforced plastic using a 30 kW fiber laser. Journal of Laser Applications. 27 (S2), [BibTex]

  • Kranz, J.; Herzog, D.; Emmelmann, C. (2015). Design guidelines for laser additive manufacturing of lightweight structures in TiAl6V4. Journal of Laser Applications. 27 (S1), [BibTex]

  • Schmidt-Lehr, M.; Oberlander, M.; Herzog, D.; Canisius, M.; Radek, M.; Emmelmann, C. (2015). Investigations on the process strategy of laser remote cutting of carbon fiber reinforced plastics with a thickness of more than 5 MM. ICCM International Conferences on Composite Materials. 2015-July [BibTex]

  • Emmelmann, C.; Herzog, D.; Kranz, J.; Bromberger, M. (2014). Topology optimization with laser additive manufacturing exploits potentials of lightweight construction,Topologieoptimierung mit laseradditiver Fertigung erschließt Leichtbaupotentiale. Konstruktion. 66 (6), 80--82. [BibTex]

  • Herzog, D.; Canisius, M.; Schmidt-Lehr, M.; Rörig, B.; Schlude, N.; Hammer, T.; Emmelmann, C. (2014). Cutting process suitable for high-volume production. Kunststoffe International. 2014 (6), 28--31. [BibTex]

  • Neef, A.; Seyda, V.; Herzog, D.; Emmelmann, C.; Schönleber, M.; Kogel-Hollacher, M. (2014). Low coherence interferometry in selective laser melting. Physics Procedia. 56 (C), 82--89. [BibTex]

  • Wycisk, E.; Solbach, A.; Siddique, S.; Herzog, D.; Walther, F.; Emmelmann, C. (2014). Effects of defects in laser additive manufactured Ti-6Al-4V on fatigue properties. Physics Procedia. 56 (C), 371--378. [BibTex]