Institut für Laser- und Anlagensystemtechnik (iLAS)

Menu

Prof. Dr.-Ing. C. Emmelmann

Anschrift

Harburger Schloßstr. 28, Channel 4
D-21079 Hamburg

Büro

Raum 0.04

Telefon

+49 40 42 878 - 3456

E-Mail

c.emmelmann(at)tuhh.de

Sprechzeiten

nach Vereinbarung

Veröffentlichungen

(2022).

  • Herzog, Dirk and Asami, Karim and Scholl, Christoph and Ohle, Christoph and Emmelmann, Claus and Sharma, Ashish and Markovic, Nick and Harris, Andy (2022). Design guidelines for laser powder bed fusion in Inconel 718. Journal of Laser Applications. 34. (1), 012015 [doi]

(2021).

  • {Jothi Prakash}, Vishnuu and Buhr, Malte and Emmelmann, Claus (2021). Digitalization of directed energy deposition process through a multidirectional height monitoring sensor system. Journal of Laser Applications. 33. (1), 012044 [doi]

  • Asami, Karim and Bartsch, Katharina and Emmelmann, Claus (2021). Design rule for efficient support connection point spacing in laser powder bed fusion of Ti6Al4V. 80--88

(2020).

  • 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]

  • Gralow, Melanie and Weigand, Felix and Herzog, Dirk and Wischeropp, Tim and Emmelmann, Claus (2020). Biomimetic design and laser additive manufacturing---A perfect symbiosis?. Journal of Laser Applications. 32. (2), 021201 [doi]

  • Matthes, S. and Kluge, M. and Jahn, S. and Emmelmann, C. (2020). Einflussfaktoren auf die Pulvereigenschaften von TiAl6V4 entlang der L-PBF-Prozesskette. Schweissen und Schneiden. 72. (5-6), 288--293

  • Spille, Claas and Lyberis, Anastasios and Maiwald, Maria Isabelle and Herzog, Dirk and Hoffmann, Marko and Emmelmann, Claus and Schlüter, Michael (2020). SMART--Reactors: Tailoring Gas Holdup Distribution by Additively Manufactured Lattice Structures. Chemical Engineering & Technology. 43. (10), 2053--2061 [doi]

  • Vogt, Maximilian and Rips, Adrian and Emmelmann, Claus (2020). Augmented Reality in der additiven Produktion. ZWF Zeitschrift für wirtschaftlichen Fabrikbetrieb. 115. (11), 800--804 [doi]

  • Waalkes, Lennart and Längerich, Jan and Holbe, Felix and Emmelmann, Claus (2020). Feasibility study on piston-based feedstock fabrication with Ti-6Al-4V metal injection molding feedstock. Additive Manufacturing. 35. 101207 [doi]

  • Wischeropp, Tim Marten and Tarhini, Hussein and Emmelmann, Claus (2020). Influence of laser beam profile on the selective laser melting process of AlSi10Mg. Journal of Laser Applications. 32. (2), 022059 [doi]

(2019).

  • Bartsch, K. and Ahrens, K. and Herzog, D. and Emmelmann, C. (2019). Additive Technologien - Implikationen für die Gewerblich-Technischen Wissenschaften. 93--104

  • 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

  • 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

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

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

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

  • 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.

  • 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

  • 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

(2018).

  • 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

  • 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]

  • 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

  • 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]

  • Cerwenka, Georg and Surrey, Philipp and Möller, Mauritz and Conrad, Christian and Prakash, Vishnuu and Heilemann, Markus and Emmelmann, Claus (2018). In-depth characterization of the scanner-based selective laser deburring process. Journal of Laser Applications. 30. (3), 032510 [doi]

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

  • 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.

  • Emmelmann, Claus and Rudolph, Jan-Peer and Güntzer, Felix and Zühlke, Sandra (2018). Automatisierte Arbeitsplanung und Fertigungssteuerung für die additive Produktion. ZWF Zeitschrift für wirtschaftlichen Fabrikbetrieb. 113. (6), 398--401 [doi]

  • 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]

  • 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]

  • Rudolph, Jan-Peer and Emmelmann, Claus (2018). Organisation von Nachbearbeitungsprozessen in additiven Produktionsstrukturen. ZWF Zeitschrift für wirtschaftlichen Fabrikbetrieb. 113. (11), 738--741 [doi]

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

  • 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

(2017).

  • Emmelmann, C. and Rudolph, J.-P. and 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

  • 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

  • Emmelmann, Claus and Rudolph, Jan-Peer and Herzog, Dirk (2017). Bauteilbewertung in der Cloud. ZWF Zeitschrift für wirtschaftlichen Fabrikbetrieb. 112. (11), 802--805 [doi]

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

  • 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),

  • 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]

  • 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]

  • Seyda, V. and Herzog, D. and 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),

  • 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),

(2016).

  • Emmelmann, C. and Herzog, D. and Kranz, J. (2016). Design for laser additive manufacturing. Laser Additive Manufacturing: Materials, Design, Technologies, and Applications.

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

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

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

  • 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

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

  • Möller, M. and Herzog, D. and Wischeropp, T. and Emmelmann, C. and Krywka, C. and Staron, P. and 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.

  • 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

(2015).

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

  • 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),

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

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

  • 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

  • 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),

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

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

  • Schmidt-Lehr, M. and Oberlander, M. and Herzog, D. and Canisius, M. and Radek, M. and 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.

  • 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.

(2014).

  • Emmelmann, C. and Herzog, D. and Kranz, J. and 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

  • 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

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

  • 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

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

  • 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

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

  • 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