Toolless Manufacturing of Complex Structures

Livrables

Prototypes of relevant geometries and data from systematic characterization trials

Provide prototypes of relevant geometries and data from systematic characterization trials. Prepare the results that they are suitable as a demonstrator for the public.

Provide demonstrator system with 120x75x100 mm³ build volume and 15 µm resolution

Provide report on public demonstrator system.

Provide first ceramic component for medical technology made from alumina

Provide first ceramic component for medical technology made from alumina - Ceramic item for medical technology, currently aiming at endoscopy instruments, first made from alumina (in the later stages of the project silicon nitride is planned)

Provide report on industrial interest group

Within WP8 an industrial interest group, mainly recruited from potential future clients of the involved SMEs will be established.

Provide characterization of sintered ceramic and cermet parts

Report on mechanical and microstructural properties.

Environmental screening of existing processes reports

Environmental screening of existing processes reports - Identification of each input and output of each current processes - identification of each elementary flows at each production step - ILCD format

LCA of ToMax process

Life cycle assessment of ToMax process - according to ISO 14040 - 44 - definition of scope and goals - life cycle inventory building - life cycle impact assessment - interpretation of the innovative processes

Stakeholder Community database

Database that documents and clusters the targeted stakeholders in the project to receive newsletters and exploitation oriented dissemination materials (month 12 and updated at each successive periodic report

Publications

Kalibrierung des Arbeitsfeldes für ein 3D-Drucksystem

Auteurs: B. Busetti; J. Stampfl
Publié dans: Photonikseminar 2017, 2017
Éditeur: Photonikseminar 2017

Nichtmetallische Hochleistungswerkstoffe für die lithographiebasierte additive Fertigung

Auteurs: J. Kollmer; P. Dorfinger; G. Mitteramskogler; J. Stampfl
Publié dans: FabCon 3D 2017, 2017, Page(s) 10, ISBN 978-3-446-45459-0
Éditeur: FabCon 3D 2017

Design strategies for functionally graded materials

Auteurs: Adrian de Blas; Andres Diaz Lantada
Publié dans: Materials Science and Engineering, 2016
Éditeur: Materials Science and Engineering

Laser versus DLP

Auteurs: B. Busetti; S. Baumgartner; W. Steiger; J. Stampfl
Publié dans: AM Ceramics, 2017
Éditeur: AM Ceramics

Thermoplasts as Toughening Agend for 3D-printable Photopolymers

Auteurs: B. Steyrer; R. Liska; J. Stampfl
Publié dans: 2nd Danube Vltava Sava Polymer Meeting, 2017, ISBN 978-3-9504017-6-9
Éditeur: 2nd Danube Vltava Sava Polymer Meeting
DOI: 10.13140/RG.2.2.20822.96322

Design for additive manufacturing: overview, trends and discussion

Auteurs: Adrian De Blas
Publié dans: AM Ceramics, 2017
Éditeur: AM Ceramics

Toughening of Photopolymers for lithography-based Additive Manufacturing

Auteurs: Bernhard Steyrer; Christian Gorsche; Peter Dorfinger; Robert Liska; Jürgen Stampfl
Publié dans: Materials Science and Engineering, 2016
Éditeur: Materials Science and Engineering
DOI: 10.13140/RG.2.2.12434.35527

Surface biofunctionalization of rapid prototyped microsystems for cell culture applications

Auteurs: Andres Diaz Lantada; Ely Dannier; Valbuena Niño; Ivan Fernández Martínez; Josefa Predestinación; García Ruíz
Publié dans: Materials Science and Engineering, 2016
Éditeur: Materials Science and Engineering

DLP + Laser: A throughput improved lithography based Additive Manufacturing Technologies (AMT) system with hybrid exposure concept

Auteurs: B. Busetti; J. Stampfl
Publié dans: 12th International Symposium on Emerging and Industrial Texas Instruments DLP® Technology Applications, 2017
Éditeur: 12th International Symposium on Emerging and Industrial Texas Instruments DLP® Technology Applications

Materials development for lithography-based 3D-printing

Auteurs: Jürgen Stampfl, Peter Dorfinger1, Robert Gmeiner, and Robert Liska
Publié dans: Macromolecular Colloquium Freiburg, 2016
Éditeur: Institute of Macromolecular Chemistry

Lithography based Additive Manufacturing – Materials and Processes

Auteurs: Jurgen Stampfl, Johannes Homa, Robert Liska
Publié dans: Chinanano, 2015
Éditeur: ChinaNational Center for Nanoscience and Technology

Modeling photopolymerization processes for enhanced part quality

Auteurs: De Blas Romero, A.; Díaz Lantada, A
Publié dans: Industriales Research Meeting, 2016
Éditeur: Unknown

Multi-scale design and manufacturing for interacting at a cellular level

Auteurs: Díaz Lantada, A
Publié dans: 5th KMM-VIN Industrial Workshop: Multi-Scale and Multi-Physics Materials Modeling for Advanced Industries, 2016
Éditeur: KMM-VIN

α-Sulfonoxy acrylate chain transfer agents for 3D printing of tough photopolymers

Auteurs: G. Harakaly, K. Seidler, M. Griesser, C. Gorsche, J. Stampfl, R. Liska
Publié dans: RadTech Europe 2015 Conference, 2015, Page(s) 85
Éditeur: Radtech Europe

3D-printing of ceramics: Translation to industrial processes

Auteurs: J. Stampfl
Publié dans: Advances in Material & Processing Technologies, 2015, Page(s) 202
Éditeur: AMPT

High performance materials for lithography based additive manufacturing

Auteurs: J. Stampfl
Publié dans: AddIT Linz, 2015
Éditeur: Kepler University Linz

Modeling the mechanical behavior of photo-polymerized epoxy resin during additive manufacture by laser stereolithography: Influence on part quality

Auteurs: De Blas Romero, A.; Díaz Lantada, A
Publié dans: 5th KMM-VIN Industrial Workshop: Multi-Scale and Multi-Physics Materials Modeling for Advanced Industries, 2016
Éditeur: KMM-VIN

Multi-scale design and manufacturing strategies towards biomimetic cell culture platforms and tissue engineering scaffolds

Auteurs: Díaz Lantada, A.; De Blas Romero, A.; Schwentenwein, M.; Jelinek, C.; Homa, J
Publié dans: Biobone Symposium, 2015
Éditeur: BioboneITN

Monolithic 3D labs- and organs-on-chips obtained by lithography-based ceramic manufacture

Auteurs: Andrés Díaz Lantada, Adrián de Blas Romero, Martin Schwentenwein, Christopher Jellinek, Johannes Homa, Josefa Predestinación García-Ruíz
Publié dans: The International Journal of Advanced Manufacturing Technology, Numéro 93/9-12, 2017, Page(s) 3371-3381, ISSN 0268-3768
Éditeur: Springer Verlag
DOI: 10.1007/s00170-017-0443-6

Visible Light Photoinitiator for 3D-Printing of Tough Methacrylate Resins

Auteurs: Bernhard Steyrer, Philipp Neubauer, Robert Liska, Jürgen Stampfl
Publié dans: Materials, Numéro 10/12, 2017, Page(s) 1445, ISSN 1996-1944
Éditeur: MDPI Open Access Publishing
DOI: 10.3390/ma10121445

Design and performance assessment of innovative eco-efficient support structures for additive manufacturing by photopolymerization

Auteurs: Díaz Lantada, A.; De Blas Romero, A.; Sánchez Isasi, A., Garrido Bellido, D
Publié dans: Journal of Industrial Ecology, 2016, ISSN 1530-9290
Éditeur: Wiley

Lithography-based additive manufacture of ceramic biodevices with design-controlled surface topographies

Auteurs: De Blas Romero, A.; Pfaffinger, M.; Mitteramskogler, G.; Schwentenwein, M.; Jellinek, C.; Homa, J.; Díaz Lantada, A.; Stampfl, J.
Publié dans: International Journal of Advanced Manufacturing Technologies, 2016, Page(s) 1-9, ISSN 0268-3768
Éditeur: Springer Verlag
DOI: 10.1007/s00170-016-8856-1

Micro-vascular shape-memory polymer actuators with complex geometries obtained by laser stereolithography

Auteurs: Andrés Díaz Lantada, Adrián de Blas Romero, Enrique Chacón Tanarro
Publié dans: Smart Materials and Structures, Numéro 25/6, 2016, Page(s) 065018, ISSN 0964-1726
Éditeur: Institute of Physics Publishing
DOI: 10.1088/0964-1726/25/6/065018

Lithography-based ceramic manufacture (LCM) of auxetic structures: present capabilities and challenges

Auteurs: Andrés Díaz Lantada, Adrián de Blas Romero, Martin Schwentenwein, Christopher Jellinek, Johannes Homa
Publié dans: Smart Materials and Structures, Numéro 25/5, 2016, Page(s) 054015, ISSN 0964-1726
Éditeur: Institute of Physics Publishing
DOI: 10.1088/0964-1726/25/5/054015

Tissue engineering scaffolds for bone repair: General aspects

Auteurs: Díaz Lantada, A.; De Blas Romero, A.; Valido Moreno, S.; Curras, D.; Téllez, M.; Schwentenwein, M.; Jelinek, C.; Homa, J.
Publié dans: Handbook on Microsystems for Enhanced Control of Cell Behavior, 2016, ISBN 978-3-319-29328-8
Éditeur: Springer

Droits de propriété intellectuelle

Lichthärtbare Zusammensetzung

Numéro de demande/publication: AT EP17168663
Date: 2017-04-28

DEVICE FOR PROCESSING PHOTOPOLYMERIZABLE MATERIAL IN ORDER TO CONSTRUCT A SHAPED BODY LAYER BY LAYER

Numéro de demande/publication: WO 2015074088
Date: 2015-05-28

DEVICE FOR PROCESSING PHOTOPOLYMERIZABLE MATERIAL IN ORDER TO CONSTRUCT A SHAPED BODY LAYER BY LAYER

Numéro de demande/publication: WO 2015074088
Date: 2015-05-28

Verfahren zum Verfestigen eines photopolymerisierbaren, diffus reflektierenden Materials

Numéro de demande/publication: PCT AT2017/000059
Date: 2017-08-30
Demandeur(s): LITHOZ GMBH

Livrables

Publications

Droits de propriété intellectuelle

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