@article{GebhardtBackeskrameretal.1995, author = {Gebhardt, Andreas and Backes, G. and kramer, T. and Kreutz, E.-W. (u.a.)}, title = {Beschichten von Kurbelzapfen mit CO2-Laserstrahlung. Energietechnik}, series = {Maschinenmarkt. 101 (1995), H. 12}, journal = {Maschinenmarkt. 101 (1995), H. 12}, isbn = {0341-5775}, pages = {42 -- 45}, year = {1995}, language = {de} } @inproceedings{LuftGebhardtBalc2019, author = {Luft, Angela and Gebhardt, Andreas and Balc, Nicolae}, title = {Challenges of additive manufacturing in production systems}, series = {Modern technologies in manufacturing (MTeM 2019)}, volume = {299}, booktitle = {Modern technologies in manufacturing (MTeM 2019)}, number = {Article 01003}, doi = {10.1051/matecconf/201929901003}, pages = {6 Seiten}, year = {2019}, language = {en} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Digitale Regelungstechnik}, year = {2005}, abstract = {Grundlagen (Prinzip, Komponenten, Abtastung, Aliasing) Algorithmus (Implementierung, Pseudo Code, Ermittlung der Faktoren) Beispiel}, language = {de} } @inproceedings{ThurnBalcGebhardtetal.2017, author = {Thurn, Laura and Balc, Nicolae and Gebhardt, Andreas and Kessler, Julia}, title = {Education packed in technology to promote innovations: Teaching Additive Manufacturing based on a rolling Lab}, series = {Modern Technologies in Manufacturing (MTeM 2017 - AMaTUC)}, booktitle = {Modern Technologies in Manufacturing (MTeM 2017 - AMaTUC)}, issn = {2261-236X}, doi = {10.1051/matecconf/201713702013}, pages = {6 Seiten}, year = {2017}, language = {en} } @incollection{Gebhardt2013, author = {Gebhardt, Andreas}, title = {Entwicklung der 3D-Drucktechnologie und Potenziale f{\"u}r die Anwendung im Mittelstand}, series = {Innovation durch Kooperation : wie der Mittelstand durch Zusammenarbeit mit den Hochschulen seine Wettbewerbsf{\"a}higkeit steigert : Festschrift f{\"u}r Prof. Dr. rer. nat. Johannes Gartzen / Thomas Gartzen, Ute Gartzen (Hrsg.)}, booktitle = {Innovation durch Kooperation : wie der Mittelstand durch Zusammenarbeit mit den Hochschulen seine Wettbewerbsf{\"a}higkeit steigert : Festschrift f{\"u}r Prof. Dr. rer. nat. Johannes Gartzen / Thomas Gartzen, Ute Gartzen (Hrsg.)}, publisher = {Apprimus Verlag}, address = {Aachen}, isbn = {978-3-86359-136-6}, pages = {55 -- 59}, year = {2013}, language = {de} } @article{Gebhardt2001, author = {Gebhardt, Andreas}, title = {Entwicklungstendenzen und neue Systeme im Rapid Prototyping}, series = {Industrie Management. 17 (2001), H. 3}, journal = {Industrie Management. 17 (2001), H. 3}, isbn = {1434-1980}, pages = {42 -- 46}, year = {2001}, language = {de} } @article{FateriHoetterGebhardt2012, author = {Fateri, Miranda and H{\"o}tter, Jan-Steffen and Gebhardt, Andreas}, title = {Experimental and Theoretical Investigation of Buckling Deformation of Fabricated Objects by Selective Laser Melting}, series = {Physics Procedia}, volume = {39}, journal = {Physics Procedia}, publisher = {Elsevier}, address = {Amsterdam}, issn = {1875-3892}, doi = {10.1016/j.phpro.2012.10.062}, pages = {464 -- 470}, year = {2012}, abstract = {Although Selective Laser Melting (SLM) process is an innovative manufacturing method, there are challenges such as inferior mechanical properties of fabricated objects. Regarding this, buckling deformation which is caused by thermal stress is one of the undesired mechanical properties which must be alleviated. As buckling deformation is more observable in hard to process materials, silver is selected to be studied theoretically and experimentally for this paper. Different scanning strategies are utilized and a Finite Element Method (FEM) is applied to calculate the temperature gradient in order to determine its effect on the buckling deformation of the objects from experiments.}, language = {en} } @inproceedings{FateriGebhardtKhosravi2013, author = {Fateri, Miranda and Gebhardt, Andreas and Khosravi, Maziar}, title = {Experimental investigation of selective laser melting of lunar regolith for in-situ applications}, series = {ASME 2013 International Mechanical Engineering Congress and Exposition : San Diego, California, USA, November 15-21, 2013. Vol. 2A: Advanced manufacturing}, booktitle = {ASME 2013 International Mechanical Engineering Congress and Exposition : San Diego, California, USA, November 15-21, 2013. Vol. 2A: Advanced manufacturing}, publisher = {ASME}, organization = {American Society of Mechanical Engineers}, isbn = {978-0-7918-5618-5}, pages = {V02AT02A008}, year = {2013}, language = {en} } @article{FateriGebhardtThuemmleretal.2014, author = {Fateri, Miranda and Gebhardt, Andreas and Th{\"u}mmler, Stefan and Thurn, Laura}, title = {Experimental investigation on selective laser melting of glass}, series = {Physics procedia : 8th International Conference on Laser Assisted Net Shape Engineering LANE 2014}, volume = {56 (2014)}, journal = {Physics procedia : 8th International Conference on Laser Assisted Net Shape Engineering LANE 2014}, publisher = {Elsevier}, address = {Amsterdam}, issn = {1875-3892 (E-Journal); 1875-3884 (Print)}, doi = {10.1016/j.phpro.2014.08.118}, pages = {357 -- 364}, year = {2014}, language = {en} } @inproceedings{GebhardtSchmidt2005, author = {Gebhardt, Andreas and Schmidt, Frank-Michael}, title = {Farbige Prototypen als Werkzeug f{\"u}r den Konstrukteur}, year = {2005}, abstract = {Physische Prototypen, also Anschauungs- und Funktionsmodelle nach den generativen oder Rapid Prototyping (RP) Verfahren haben sich in diesem Zusammenhang vor allem als Hilfsmittel zur effektiven Kommunikation und zur Evaluierung von Produkteigenschaften einen festen Platz in der Produktentstehung erworben. Die positiven Effekte der etablierten RP Verfahren sind unumstritten. Einfachere, schnellere und wirtschaftlichere Maschinen (Prototyper, Fabrikator), vor allem auch f{\"u}r die B{\"u}roumgebung, geben neue Impulse im Sinne der Optimierung der heutigen Verfahren. Eine neue Dimension verspricht die Option „Farbe" der bisher fast ausschließlich monochromen Modelle. Ist Farbe nur „nice to have" oder welchen Effekt haben farbige Modelle als Werkzeug von Konstrukteuren und Produktenwicklern? Welche Perspektiven bietet „Farbe" dar{\"u}ber hinaus?}, subject = {Prototyping}, language = {de} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Fertigungsverfahren I : Umformen ; Skript zur Vorlesung}, year = {2005}, abstract = {Grundlagen, Druck-Umformen (Walzen, Schmieden, Gesenkschmieden), Zugdruckumformen (Durchziehen, Tiefziehen), Zugumformen, Biegeumformen}, language = {de} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Fertigungsverfahren I : Urformen ; Skript zur Vorlesung}, year = {2005}, abstract = {Urformen aus dem fl{\"u}ssigen oder teigigen Zustand Im Mittelpunkt stehen alle Gießverfahren. Großtechnische Bedeutung haben neben den Metallgießverfahren vor allem auch Verfahren zum Urformen von Kunststoffen und in steigendem Maße auch solche zur Herstellung von Keramiken und Kompositwerkstoffen}, language = {de} } @article{DuesGebhardtKallweitetal.1994, author = {Dues, M. and Gebhardt, Andreas and Kallweit, Stephan and Scheffler, T. and Siekmann, H. and Uchiyama, T.}, title = {Flow Visualization in a Cavitating Flow}, series = {Proceedings of the German-Japanese Symposium on Multi-Phase Flow : Karlsruhe, Germany, August 23 - 25, 1994 / comp. by U. M{\"u}ller ...}, journal = {Proceedings of the German-Japanese Symposium on Multi-Phase Flow : Karlsruhe, Germany, August 23 - 25, 1994 / comp. by U. M{\"u}ller ...}, publisher = {Kernforschungszentrum Karlsruhe}, address = {Karlsruhe}, pages = {391 -- 402}, year = {1994}, language = {en} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Fuzzy Regelung}, year = {2005}, abstract = {{\"U}berblick Fuzzy-Regler, Fuzzy Sets (Scharfe Mengen, Fuzzy Sets, Formen (st{\"u}ckweise linear, gaußf{\"o}rmig, glockenf{\"o}rmig), Eigenschaften (Gleichheit, Teilmenge)), Fuzzy Operatoren (NICHT, UND, ODER) Fuzzyfizierung Inferenzen (Verarbeitungsvorschrift, Ermittlung der aktiven Regeln, Ermittlung der Fuzzy Mengen, {\"U}berlagerung) Defuzzyfizierung (Mean-of-Maximum, Center-of-Gravity, Largest-of-Maximum, Smallest-of-Maximum, Center-of-Singletons) Entwurf, Beispiel, Fuzzy Tools, Internet, Literatur}, language = {de} } @book{Gebhardt2007, author = {Gebhardt, Andreas}, title = {Generative Fertigungsverfahren - Rapid Prototyping - Rapid Tooling - Rapid Manufacturing, 3. Aufl.}, edition = {3}, publisher = {Hanser}, address = {M{\"u}nchen}, isbn = {978-3-446-22666-1}, pages = {XVI, 499 S. : Ill., graph. Darst.}, year = {2007}, language = {de} } @book{Gebhardt2013, author = {Gebhardt, Andreas}, title = {Generative Fertigungsverfahren : Additive Manufacturing und 3D Drucken f{\"u}r Prototyping - Tooling - Produktion}, edition = {4., neu bearbeitete und erweiterte Auflage}, publisher = {Hanser}, address = {M{\"u}nchen}, isbn = {978-3-446-43651-0 ; 978-3-446-43652-7}, doi = {10.3139/9783446436527}, pages = {XXIV, 637 S. : zahlr. Ill. u. graph. Darst.}, year = {2013}, language = {de} } @inproceedings{Gebhardt2015, author = {Gebhardt, Andreas}, title = {Generative Fertigungsverfahren in der Produktentwicklung}, series = {Spritzgießen 2015}, booktitle = {Spritzgießen 2015}, publisher = {VDI-Verlag}, address = {D{\"u}sseldorf}, organization = {VDI-Gesellschaft Kunststofftechnik (VDI-K), Baden-Baden, DE, 10.-11.Feb, 2015}, isbn = {978-3-18-234336-3}, pages = {1 -- 19}, year = {2015}, language = {de} } @article{Gebhardt2006, author = {Gebhardt, Andreas}, title = {Generative Manufacturing of Ceramic Parts "Vision Rapid Prototyping"}, year = {2006}, abstract = {Table of Contents Introduction 1. Generative Manufacturing Processes 2. Classification of Generative Manufacturing Processes 3. Application of Generative Processes on the Fabrication of Ceramic Parts 3.1 Extrusion 3.2 3D-Printing 3.3 Sintering - Laser Sintering 3.4 Layer-Laminate Processes 3.5 Stereolithography (sometimes written: Stereo Lithography) 4. Layer Milling 5. Conclusion - Vision}, subject = {Rapid prototyping}, language = {en} } @article{Gebhardt2004, author = {Gebhardt, Andreas}, title = {Grundlagen des Rapid Prototyping: Eine Kurzdarstellung der Rapid Prototyping Verfahren}, year = {2004}, abstract = {Generative Verfahren sind seit etwa 1987 in den USA und seit etwa 1990 in Europa und Deutschland in Form von Rapid Prototyping Verfahren bekannt und haben sich in dieser Zeit von eher als exotisch anzusehenden Modellbauverfahren zu effizienten Werkzeugen f{\"u}r die Beschleunigung der Produktentstehung gewandelt. Mit der Weiterentwicklung der Verfahren und insbesondere der Materialien wird mehr und mehr das Feld der direkten Anwendung der Rapid Technologie zur Fertigung erschlossen. Rapid Technologien werden daher zum Schl{\"u}ssel f{\"u}r neue Konstruktionssystematiken und Fertigungsstrategien.}, subject = {Rapid prototyping}, language = {de} } @article{Gebhardt2008, author = {Gebhardt, Andreas}, title = {Hype um Generative Verfahren. Generative Verfahren zur Herstellung von Kleinserien durchlaufen die Phase eines Booms}, series = {Economic Engineering (2008)}, journal = {Economic Engineering (2008)}, isbn = {1436-3348}, pages = {76 -- 79}, year = {2008}, language = {de} } @article{Gebhardt1989, author = {Gebhardt, Andreas}, title = {H{\"a}rten von Kurbelwellen}, pages = {1 -- 14}, year = {1989}, language = {de} } @article{GebhardtHoetterZiebura2014, author = {Gebhardt, Andreas and H{\"o}tter, Jan-Steffen and Ziebura, Dawid}, title = {Impact of SLM build parameters on the surface quality}, series = {RTejournal - Forum f{\"u}r Rapid Technologien}, volume = {11 (2014)}, journal = {RTejournal - Forum f{\"u}r Rapid Technologien}, number = {1}, issn = {1614-0923}, pages = {1 -- 14}, year = {2014}, language = {de} } @inproceedings{AlhwarinFerreinGebhardtetal.2015, author = {Alhwarin, Faraj and Ferrein, Alexander and Gebhardt, Andreas and Kallweit, Stephan and Scholl, Ingrid and Tedjasukmana, Osmond Sanjaya}, title = {Improving additive manufacturing by image processing and robotic milling}, series = {2015 IEEE International Conference on Automation Science and Engineering (CASE), Aug 24-28, 2015 Gothenburg, Sweden}, booktitle = {2015 IEEE International Conference on Automation Science and Engineering (CASE), Aug 24-28, 2015 Gothenburg, Sweden}, doi = {10.1109/CoASE.2015.7294217}, pages = {924 -- 929}, year = {2015}, language = {en} } @article{CosmaKesslerGebhardtetal.2020, author = {Cosma, Cosmin and Kessler, Julia and Gebhardt, Andreas and Campbell, Ian and Balc, Nicolae}, title = {Improving the Mechanical Strength of Dental Applications and Lattice Structures SLM Processed}, series = {Materials}, volume = {13}, journal = {Materials}, number = {4}, publisher = {MDPI}, address = {Basel}, issn = {1996-1944}, doi = {10.3390/ma13040905}, pages = {1 -- 18}, year = {2020}, abstract = {To manufacture custom medical parts or scaffolds with reduced defects and high mechanical characteristics, new research on optimizing the selective laser melting (SLM) parameters are needed. In this work, a biocompatible powder, 316L stainless steel, is characterized to understand the particle size, distribution, shape and flowability. Examination revealed that the 316L particles are smooth, nearly spherical, their mean diameter is 39.09 μm and just 10\% of them hold a diameter less than 21.18 μm. SLM parameters under consideration include laser power up to 200 W, 250-1500 mm/s scanning speed, 80 μm hatch spacing, 35 μm layer thickness and a preheated platform. The effect of these on processability is evaluated. More than 100 samples are SLM-manufactured with different process parameters. The tensile results show that is possible to raise the ultimate tensile strength up to 840 MPa, adapting the SLM parameters for a stable processability, avoiding the technological defects caused by residual stress. Correlating with other recent studies on SLM technology, the tensile strength is 20\% improved. To validate the SLM parameters and conditions established, complex bioengineering applications such as dental bridges and macro-porous grafts are SLM-processed, demonstrating the potential to manufacture medical products with increased mechanical resistance made of 316L.}, language = {en} } @article{GebhardtPlug1995, author = {Gebhardt, Andreas and Plug, T-K.}, title = {Innovationsschub mittels Rapid-Prototyping, Teil II}, series = {CAD-CAM Report. 14 (1995), H. 9}, journal = {CAD-CAM Report. 14 (1995), H. 9}, isbn = {0930-7117}, pages = {78 -- 85}, year = {1995}, language = {de} } @article{GebhardtPflug1995, author = {Gebhardt, Andreas and Pflug, T-K.}, title = {Innovationsschub mittels Rapid-Prototyping. Teil I}, series = {CAD-CAM Report. 14 (1995), H. 7}, journal = {CAD-CAM Report. 14 (1995), H. 7}, isbn = {0930-7117}, pages = {56 -- 65}, year = {1995}, language = {de} } @inproceedings{GerhardsSchleserOttenetal.2019, author = {Gerhards, Benjamin and Schleser, Markus and Otten,, Christian and Schwarz, Alexander and Gebhardt, Andreas}, title = {Innovative Laser Beam Joining Technology for Additive Manufactured Parts}, series = {Conference Proceedings 72nd IIW Annual Assembly and International Conference, 7-12 July 2019, Bratislava}, booktitle = {Conference Proceedings 72nd IIW Annual Assembly and International Conference, 7-12 July 2019, Bratislava}, pages = {1 -- 8}, year = {2019}, language = {en} } @inproceedings{OttenGerhardsSchleseretal.2019, author = {Otten, Christian and Gerhards, Benjamin and Schleser, Markus and Schwarz, A. and Gebhardt, Andreas}, title = {Innovative Laserschweißtechnologie f{\"u}r additiv gefertigte Bauteile}, series = {Große Schweißtechnische Tagung}, booktitle = {Große Schweißtechnische Tagung}, publisher = {DVS-Media}, address = {D{\"u}sseldorf}, isbn = {978-3-96144-066-5}, pages = {150 -- 157}, year = {2019}, language = {de} } @inproceedings{WiezikHoetterGebhardt2015, author = {Wiezik, P. and H{\"o}tter, Jan-Steffen and Gebhardt, Andreas}, title = {Integration des Laserpolierens in den SLM-Prozess}, series = {DVS Congress 2015, Große Schweißtechnische Tagung, DVS-Studentenkongress, F{\"u}gen von faserverst{\"a}rkten Kunststoffen, Anwendungsnahe Schweißsimulation, Vortr{\"a}ge der Veranstaltungen, N{\"u}rnberg, DE, 15.-17. Sep, 2015}, volume = {315}, booktitle = {DVS Congress 2015, Große Schweißtechnische Tagung, DVS-Studentenkongress, F{\"u}gen von faserverst{\"a}rkten Kunststoffen, Anwendungsnahe Schweißsimulation, Vortr{\"a}ge der Veranstaltungen, N{\"u}rnberg, DE, 15.-17. Sep, 2015}, publisher = {Verl. f{\"u}r Schweißen und verwandte Verfahren, DVS-Verl.}, address = {D{\"u}sseldorf}, isbn = {978-3-945023-46-4}, pages = {117 -- 120}, year = {2015}, language = {de} } @incollection{FateriGebhardt2020, author = {Fateri, Miranda and Gebhardt, Andreas}, title = {Introduction to Additive Manufacturing}, series = {3D Printing of Optical Components}, booktitle = {3D Printing of Optical Components}, publisher = {Springer}, address = {Cham}, isbn = {978-3-030-58960-8}, doi = {10.1007/978-3-030-58960-8_1}, pages = {1 -- 22}, year = {2020}, abstract = {Additive manufacturing (AM) works by creating objects layer by layer in a manner similar to a 2D printer with the "printed" layers stacked on top of each other. The layer-wise manufacturing nature of AM enables fabrication of freeform geometries which cannot be fabricated using conventional manufacturing methods as a one part. Depending on how each layer is created and bonded to the adjacent layers, different AM methods have been developed. In this chapter, the basic terms, common materials, and different methods of AM are described, and their potential applications are discussed.}, language = {en} } @inproceedings{FateriGebhardt2014, author = {Fateri, Miranda and Gebhardt, Andreas}, title = {Jewelry fabrication via selective laser melting of glass}, series = {ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis Volume 1: Applied Mechanics; Automotive Systems; Biomedical Biotechnology Engineering; Computational Mechanics; Design; Digital Manufacturing; Education; Marine and Aerospace Applications}, booktitle = {ASME 2014 12th Biennial Conference on Engineering Systems Design and Analysis Volume 1: Applied Mechanics; Automotive Systems; Biomedical Biotechnology Engineering; Computational Mechanics; Design; Digital Manufacturing; Education; Marine and Aerospace Applications}, isbn = {978-0-7918-4583-7}, doi = {10.1115/ESDA2014-20380}, pages = {V001T06A005}, year = {2014}, abstract = {Selective Laser Melting (SLM) is one of the Additive Manufacturing (AM) technologies applicable for producing complex geometries which are typically expensive or difficult to fabricate using conventional methods. This process has been extensively investigated experimentally for various metals and the fabrication process parameters have been established for different applications; however, fabricating 3D glass objects using SLM technology has remained a challenge so far although it could have many applications. This paper presents a summery on various experimental evaluations of a material database incorporating the build parameters of glass powder using the SLM process for jewelry applications.}, language = {en} } @article{Gebhardt1997, author = {Gebhardt, Andreas}, title = {Lasereinsatz in der Fertigung der Fahrzeugindustrie. Grundlagen der Anwendung von Lasern zur Materialbearbeitung}, pages = {1 -- 154}, year = {1997}, language = {de} } @article{GartzenLingensSchoenbohmetal.1993, author = {Gartzen, Johannes and Lingens, Hans and Sch{\"o}nbohm, J. and Baumjohann, F. and Gebhardt, Andreas}, title = {Laserh{\"a}rten - im Verbund m{\"o}glich. Forschungsverbund Lasertechnik NRW auf der Suche nach neuen Laseranwendungen}, series = {Technica, Rupperswil. 42 (1993), H. 24}, journal = {Technica, Rupperswil. 42 (1993), H. 24}, isbn = {0040-866X}, pages = {14 -- 18}, year = {1993}, language = {de} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Lasermesstechnik 1}, year = {2005}, abstract = {Strahlquelle, Verfahren, Triangulation, Interferometrie, Laufzeit, Lidar, Holographie, Speckle, Applikationen, Laseroptische Str{\"o}mungsmessung, Laser Doppler Velocimetry, Particle Image Velocimetry}, language = {de} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Lasermesstechnik 2}, year = {2005}, abstract = {Laser-Doppler-Velozimetrie: Grundlagen, Referenzstrahlverfahren, Kreuzstrahlverfahren, Signalauswertung, Richtungserkennung, Mehrkomponentensysteme, Anwendungen}, language = {de} } @article{GartzenGebhardtAngeretal.1994, author = {Gartzen, Johannes and Gebhardt, Andreas and Anger, A. and Petschke, U. and Lingens, Hans}, title = {Laserstrahlschweißen mit Schweißdraht von W{\"a}rmetauschern mit hohem Wirkungsgrad}, series = {Proceedings : Aachen, Germany, 31st October - 4th November, 1994 / 27th ISATA}, journal = {Proceedings : Aachen, Germany, 31st October - 4th November, 1994 / 27th ISATA}, publisher = {Automotive Automation}, address = {Croydon}, isbn = {0-947719-64-4}, pages = {397 -- 403}, year = {1994}, language = {de} } @misc{Gebhardt2005, author = {Gebhardt, Andreas}, title = {Lasertechnologie : Laser - Materialbearbeitung ; Grundlagen - Verfahren - Anwendungen}, year = {2005}, abstract = {Theoretische Grundlagen, Grundlagen der Materialbearbeitung mit Laserstrahlung, Aufbau und Funktion von Laser-Bearbeitungsanlagen, Laserstrahl-Schneiden, Laserstrahl-Schweißen, Laserstrahl-Bohren, Beschriften und Markieren mit dem Laser, Oberfl{\"a}chenveredeln mit dem Laser, Lasersicherheit, Umweltschutz}, language = {de} } @article{Gebhardt2001, author = {Gebhardt, Andreas}, title = {Laserwelding with fillerwire}, series = {LIA handbook of laser material processing / Laser Institute of America}, journal = {LIA handbook of laser material processing / Laser Institute of America}, address = {Orlando, Florida}, isbn = {3-540-41770-2}, year = {2001}, language = {en} } @article{ZieburaBremenSchleifenbaumetal.2018, author = {Ziebura, Dawid and Bremen, Sebastian and Schleifenbaum, Johannes Henrich and Gebhardt, Andreas}, title = {Machbarkeitsstudie zur Verarbeitung von nicht rostendem Stahl 1.4404 unter Verwendung einer Diodenlaser-basierten LPBF-Maschine mit kartesischem Achssystem}, series = {RTejournal - Forum f{\"u}r Rapid Technologie}, volume = {15}, journal = {RTejournal - Forum f{\"u}r Rapid Technologie}, issn = {1614-0923}, year = {2018}, language = {de} } @article{Gebhardt1999, author = {Gebhardt, Andreas}, title = {Marktentwicklung im Rapid Prototyping}, series = {Kunststoffe, M{\"u}nchen. 89 (1999), H. 11}, journal = {Kunststoffe, M{\"u}nchen. 89 (1999), H. 11}, isbn = {0023-5563}, pages = {50 -- 55}, year = {1999}, language = {de} } @article{Gebhardt2000, author = {Gebhardt, Andreas}, title = {Materialfrage f{\"u}hrt h{\"a}ufig zu Trugschl{\"u}ssen. Wunsch und Wirklichkeit im Rapid Prototyping - Teil 2}, series = {Industrieanzeiger. 122 (2000), H. 4}, journal = {Industrieanzeiger. 122 (2000), H. 4}, isbn = {0019-9036}, pages = {41 -- 41}, year = {2000}, language = {de} } @article{GebhardtGuntermannSauretal.1996, author = {Gebhardt, Andreas and Guntermann, P. and Saur, G. and Gartzen, Johannes}, title = {Neue Impulse f{\"u}r den Leichtbau. Ein Konstruktionsprinzip f{\"u}r Verbauplatten mit Laserschweißen am verdeckten Stoß.}, series = {Laser-Praxis (1996)}, journal = {Laser-Praxis (1996)}, isbn = {0937-7069}, pages = {21 -- 24}, year = {1996}, language = {de} } @article{SchwarzGebhardtSchleseretal.2019, author = {Schwarz, Alexander and Gebhardt, Andreas and Schleser, Markus and Popoola, Patricia}, title = {New Welding Joint Geometries Manufactured by Powder Bed Fusion from 316L}, series = {Materials Performance and Characterization 8}, journal = {Materials Performance and Characterization 8}, number = {in press}, issn = {2379-1365}, doi = {10.1520/MPC20180096}, year = {2019}, language = {en} } @inproceedings{GrossmannGabrielliHerdrichetal.2015, author = {Großmann, Agnes and Gabrielli, Roland Antonius and Herdrich, Georg and Fasoulas, Stefanos and Schnauffer, Peter and Middendorf, Peter and Fateri, Miranda and Gebhardt, Andreas}, title = {Overview of the MultiRob 3D Lunar Industrial Development Project}, series = {Conference Contribution for the 30th ISTS, Kobe, Japan, 04.07.-10.07.2015}, booktitle = {Conference Contribution for the 30th ISTS, Kobe, Japan, 04.07.-10.07.2015}, pages = {8 S.}, year = {2015}, language = {en} } @article{Gebhardt2002, author = {Gebhardt, Andreas}, title = {Potenziale und Grenzen virtueller Prototypen}, year = {2002}, language = {de} } @article{GebhardtSchmidt2002, author = {Gebhardt, Andreas and Schmidt, Frank-Michael}, title = {Practical experiences with making and finishing of coloured models using 3D printing}, year = {2002}, language = {en} } @article{FateriGebhardt2015, author = {Fateri, Miranda and Gebhardt, Andreas}, title = {Process Parameters Development of Selective Laser Melting of Lunar Regolith for On-Site Manufacturing Applications}, series = {International Journal of Applied Ceramic Technology}, volume = {12}, journal = {International Journal of Applied Ceramic Technology}, number = {1}, publisher = {Wiley-Blackwell}, address = {Oxford}, isbn = {1744-7402}, doi = {10.1111/ijac.12326}, pages = {46 -- 52}, year = {2015}, language = {en} } @inproceedings{RieperGebhardtStucker2016, author = {Rieper, Harald and Gebhardt, Andreas and Stucker, Brent}, title = {Process parameters for Selective Laser Melting of AgCu7}, series = {DDMC, Fraunhofer Direct Digital Manufacturing Conference, 3}, booktitle = {DDMC, Fraunhofer Direct Digital Manufacturing Conference, 3}, publisher = {Fraunhofer-Verlag}, address = {Stuttgart}, isbn = {978-3-8396-1001-5}, pages = {171 -- 176}, year = {2016}, language = {en} } @book{GebhardtKesslerSchwarz2019, author = {Gebhardt, Andreas and Kessler, Julia and Schwarz, Alexander}, title = {Produktgestaltung f{\"u}r die additive Fertigung}, publisher = {Hanser}, address = {M{\"u}nchen}, isbn = {978-3-446-45285-5}, pages = {XVI, 266 Seiten : Illustrationen, Diagramme}, year = {2019}, language = {de} } @article{HoetterFateriGebhardt2012, author = {H{\"o}tter, Jan-Steffen and Fateri, Miranda and Gebhardt, Andreas}, title = {Prozessoptimierung des SLM-Prozesses mit hoch-reflektiven und thermisch sehr gut leitenden Materialien durch systematische Parameterfindung und begleitende Simulationen am Beispiel von Silber}, series = {RTejournal - Forum f{\"u}r Rapid Technologie}, volume = {9}, journal = {RTejournal - Forum f{\"u}r Rapid Technologie}, number = {1}, publisher = {Fachhoschule Aachen}, address = {Aachen}, issn = {1614-0923}, url = {http://nbn-resolving.de/urn:nbn:de:0009-2-33639}, pages = {1 -- 14}, year = {2012}, abstract = {Additive Manufacturing durch Aufschmelzen von Metallpulvern hat sich auf breiter Front als Herstellverfahren, auch f{\"u}r Endprodukte, etabliert. Besonders f{\"u}r die Variante des Selective Laser Melting (SLM) sind Anwendungen in der Zahntechnik bereits weit verbreitet und der Einsatz in sensitiven Branchen wie der Luftfahrt ist in greifbare N{\"a}he ger{\"u}ckt. Deshalb werden auch vermehrt Anstrengungen unternommen, um bisher nicht verarbeitete Materialien zu qualifizieren. Dies sind vorzugsweise Nicht-Eisen- und Edelmetalle, die sowohl eine sehr hohe Reflektivit{\"a}t als auch eine sehr gute W{\"a}rmeleitf{\"a}higkeit aufweisen - beides Eigenschaften, die die Beherrschung des Laser-Schmelzprozesses erschweren und nur kleine Prozessfenster zulassen. Die Arbeitsgruppe SLM des Lehr- und Forschungsgebietes Hochleistungsverfahren der Fertigungstechnik hat sich unter der Randbedingung einer kleinen und mit geringer Laserleistung ausgestatteten SLM Maschine der Aufgabe gewidmet und am Beispiel von Silber die Parameterfelder f{\"u}r Einzelspuren und wenig komplexe Geometrien systematisch untersucht. Die Arbeiten wurden von FEM Simulationen begleitet und durch metallographische Untersuchungen verifiziert. Die Ergebnisse bilden die Grundlage zur schnellen Parameterfindung bei komplexen Geometrien und bei Ver{\"a}nderungen der Zusammensetzung, wie sie bei zuk{\"u}nftigen Legierungen zu erwarten sind. Die Ergebnisse werden exemplarisch auf unterschiedliche Geometrien angewandt und entsprechende Bauteile gezeigt.}, language = {de} }