Forschungsgruppe Werkstoffe und Additive Fertigung

Organization Name (de) Name der Organisation (de)
E308-02-2 - Forschungsgruppe Werkstoffe und Additive Fertigung
Code Kennzahl
E308-02-2
 
Type of Organization Organisationstyp
Research Group
Parent OrgUnit Übergeordnete Organisation
 
Active Aktiv
 


Results 1-20 of 30 (Search time: 0.007 seconds).

PreviewAuthor(s)TitleTypeIssue Date
1Ecker, Jakob ; Liska, Robert ; Stampfl, Jürgen Design for Disassembly: Using a multi-material approach in 3D printing for easier recycling strategiesMultimedia and Design Multimedia und Design2-Feb-2024
2Pezzana-2024-Additive Manufacturing-vor.pdf.jpgPezzana, Lorenzo ; Wolff, Raffael ; Stampfl, Jürgen ; Liska, Robert ; Sangermano, Marco High temperature vat photopolymerization 3D printing of fully bio-based composites: Green vegetable oil epoxy matrix & bio-derived filler powderArticle Artikel 5-Jan-2024
3Kojic-2023-Polymer Chemistry-vor.pdf.jpgKojic, Danijela ; Ehrmann, Katharina ; Wolff, Raffael ; Mete, Yazgan ; Koch, Thomas ; Stampfl, Jürgen ; Baudis, Stefan ; Liska, Robert Stereolithographic 3D printing of pure poly(ether–ester) networks from spirocyclic monomers via cationic ring-opening photopolymerization at high temperaturesArticle Artikel 14-Nov-2023
4Stampfl-2023-MRS Communications-vor.pdf.jpgStampfl, Jürgen ; Schwentenwein, Martin ; Homa, Johannes ; Prinz, Fritz B. Lithography-based additive manufacturing of ceramics: Materials, applications and perspectivesArticle Artikel Oct-2023
5Kojic, Danijela ; Ehrmann, Katharina ; Wolff, Raffael ; Mete, Yazgan Diren ; Koch, Thomas ; Stampfl, Jürgen ; Baudis, Stefan ; Liska, Robert 3D-Printing of Degradable Polyether-esters via Cationic Ring-Opening Polymerization of Spirocyclic CompoundsInproceedings KonferenzbeitragOct-2023
6Stampfl, Jürgen Additive Manufacturing: Trends, Technologies and To DosPresentation Vortrag28-Sep-2023
7Ahmadi, Mojtaba ; Göschl, Michael ; Liska, Robert ; Stampfl, Jürgen Structure-property relationship in phase-separated (meth)acrylate photopolymersPresentation Vortrag6-Sep-2023
8Ecker, Jakob ; Liska, Robert ; Stampfl, Jürgen Design for Disassembly – Using Digital Materials in Additive Manufacturing for Easier Recycling StrategiesPresentation Vortrag5-Sep-2023
9Theuer, Timon ; Baumgartner, Sonja ; Koch, Bettina ; Liska, Robert ; Stampfl, Jürgen Digital Materials: hybrid printing process for large scale productionPresentation Vortrag5-Sep-2023
10Nistler, Sarah ; Hofstetter, Christoph ; Baudis, Stefan ; Schwentenwein, Martin ; Stampfl, Jürgen Hydroxyapatite and Tricalcium Phosphate in Combination with Zirconia Manufactured by Digital Light Processing-based Vat Polymerization to Treat Large Bone DefectsPresentation Vortrag4-Sep-2023
11Theuer, Timon ; Baumgartner, Sonja ; Koch, Bettina ; Liska, Robert ; Stampfl, Jürgen Digital Materials – Bioinspired 3D-printing concept for photopolymers with increased toughnessPresentation Vortrag4-Sep-2023
12Pieringer, Florian ; Ruppitsch, Larissa Alena ; Ehrmann, Katharina ; Peer, Gernot ; Kury, Markus ; Koch, Thomas ; Catel, Yohann ; Stampfl, Jürgen ; Moszner, Norbert ; Liska, Robert Cyclopolimerization as Versatile Tool in Photopolymerization Towards Low Shrinkage BehaviorInproceedings Konferenzbeitrag4-Sep-2023
13Mete, Yazgan Diren ; Wolff, Raffael ; Schandl, Stephan ; Kojic, Danijela ; Klikovits, Nicolas ; Koch, Thomas ; Ehrmann, Katharina ; Knaack, Patrick ; Stampfl, Jürgen ; Liska, Robert New Polymer Materials by Ionic and Catalytic Photopoly-Merization Using Hot LithographyInproceedings Konferenzbeitrag4-Sep-2023
14Nistler, Sarah ; Hofstetter, Christoph ; Baudis, Stefan ; Schwentenwein, Martin ; Stampfl, Jürgen Hydroxyapatite and Tricalcium Phosphate Sinter-Joined with Zirconia to Selectively Enhance Large Bone Implants Manufactured by Digital Light Processing-based Vat PolymerizationPresentation Vortrag31-Aug-2023
15Fantoni-2023-ACS SUSTAINABLE CHEMISTRY  ENGINEERING-vor.pdf.jpgFantoni, Antonella ; Ecker, Jakob ; Ahmadi, Mojtaba ; Koch, Thomas ; Stampfl, Jürgen ; Liska, Robert ; Baudis, Stefan Green monomers for 3D printing: epoxy-methacrylate interpenetrating polymer networks as a versatile alternative for toughness enhancement in additive manufacturingArticle Artikel 14-Aug-2023
16Ehrmann, Katharina ; Kojic, Danijela ; Schandl, Stephan ; Wolff, Raffael ; Koch, Thomas ; Stampfl, Jürgen ; Gauci, Steven ; Mert, Tugce ; Barner-Kowollik, Christopher ; Liska, Robert From Free Radical to Radical-Free Lithographic 3D PrintingPresentation VortragAug-2023
17Nistler, Sarah ; Hofstetter, Christoph ; Baudis, Stefan ; Schwentenwein, Martin ; Stampfl, Jürgen Hydroxyapatite and Tricalcium Phosphate in Combination with Zirconia Manufactured by Digital Light Processing-based Vat PolymerizationPresentation Vortrag5-Jul-2023
18Ruppitsch-2023-Journal of Polymer Science-vor.pdf.jpgRuppitsch, Larissa Alena ; Ecker, Jakob ; Koch, Thomas ; Ehrmann, Katharina ; Stampfl, Jürgen ; Liska, Robert Dynamic monomers for hot lithography: the UPy motif as a versatile tool towards stress relaxation, reprocessability, and 3D printingArticle Artikel 1-Jul-2023
19Wolff-2023-Journal of Materials Chemistry A-vor.pdf.jpgWolff, Raffael ; Knaack, Patrick ; Seidler, Konstanze ; Gorsche, Christian ; Koch, Thomas ; Stampfl, Jürgen ; Liska, Robert Additive manufacturing of high-performance polycyanurates via photo-induced catalytic poly-trimerizationArticle Artikel 28-May-2023
20Ruppitsch, Larissa Alena ; Egger, Jakob ; Ehrmann, Katharina ; Koch, Thomas ; Stampfl, Jürgen ; Liska, Robert Supramolecular Upy-Interactions in Photopolymer Networks for Additive ManufacturingInproceedings Konferenzbeitrag15-May-2023