Prof. Dr.-Ing. C. Emmelmann
Anschrift
Denickestr. 17, Gebäude L
D-21073 Hamburg- Telefon
+49 40 42 878 - 3456
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Veröffentlichungen
2019
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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]
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Daniel, C.; Bartsch, K.; Emmelmann, C.
(2019).
Selbstorganisiertes Lernen als Vorbereitung für das lebenslange Lernen im Lehrberuf.
[BibTex]
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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]
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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]
2018
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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]
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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]
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Emmelmann, C.; Herzog, D.; Bartsch, K.; Ahrens, K.
(2018).
Additive Technologien - Implikationen für die Gewerblich-Technischen Wissenschaften.
[BibTex]
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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]
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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]
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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]
2017
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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]
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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]
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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]
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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]
2016
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Emmelmann, C.; Herzog, D.; Kranz, J.
(2016).
Design for laser additive manufacturing.
Laser Additive Manufacturing: Materials, Design, Technologies, and Applications.
259--279.
[BibTex]
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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]
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Herzog, D.; Seyda, V.; Wycisk, E.; Emmelmann, C.
(2016).
Additive manufacturing of metals.
Acta Materialia.
117
371--392.
[BibTex]
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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]
2015
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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]
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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]
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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]
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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]
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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]
2014
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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]
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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]
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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]
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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]