Eintrag in der Universitätsbibliographie der TU Chemnitz
Wachner, Doreen ; Goedel, Werner A. ; Hammerschmidt, Jens ; Jahn, Stephan ; Baumann, Reinhard R. ; Morschhauser, Andreas ; Nestler, Jörg ; Gessner, Thomas
Verfahren zur Herstellung hierarchisch strukturierter Membranen durch Modifizierung von Mikrosieben mittels Inkjet-Technologie
Producing a microstructured film, comprises hardening a film-forming substance with pore inducer and/or pores partially embedded in the film-forming substance, and structurally applying a supporting substance on the film-forming substance
Kurzfassung
Die vorliegende Erfindung betrifft ein Verfahren zur Herstellung eines mikrostrukturierten Films mit den folgenden Verfahrensschritten: - Aushärten einer filmbildenden Substanz mit zumindest teilweise in der filmbildenden Substanz eingelagerten Porenbildnern und/oder Poren und - strukturiertes Auftragen einer Stützsubstanz auf die filmbildende Substanz, wobei eine lokale Verformung der filmbildenden Substanz bewirkt wird und/oder auf der filmbildenden Substanz aushärtbare Ablagerungen ausgebildet werden. Ebenso betrifft die vorliegende Erfindung einen mikrostrukturierten Film mit einer filmbildenden Substanz, in die zumindest teilweise Porenbildner und/oder Poren eingelagert sind, wobei die filmbildende Substanz mit stützenden Eigenschaften versehen ist.
Kurzfassung in englisch
The process for producing a microstructured film (9), comprises hardening a film-forming substance (4) with pore inducer (2) and/or pores (8) partially embedded in the film-forming substance, and structurally applying a supporting substance (7) on the film-forming substance, where a local deformation of the film-forming substance is caused and/or are formed on the film-forming substance of the hardenable deposits. The supporting substance is hardened under the formation of the microstructured film, which contains hardened film-forming substance and hardened supporting substance. The process for producing a microstructured film (9), comprises hardening a film-forming substance (4) with pore inducer (2) and/or pores (8) partially embedded in the film-forming substance, and structurally applying a supporting substance (7) on the film-forming substance, where a local deformation of the film-forming substance is caused and/or are formed on the film-forming substance of the hardenable deposits. The supporting substance is hardened under the formation of the microstructured film, which contains hardened film-forming substance and hardened supporting substance. The film-forming substance is provided with supporting characteristics, in which a hardenable supporting substance and/or a pore-closing substance as supporting substance are applied on the film-forming substance, which partially contains the pores. The pore-closing substance contains a solvent, which partially swells the film-forming substance, is partially evaporated, after which the pores partially closes by the deformation of the film-forming substance, and is partially introduced into the pores and remains in the pores. The pore-closing substance is introduced into the pores and then hardened in it, so that a surface of the hardened pore-closing substance concisely closes with a surface of the hardened film-forming substance. The hardenable supporting substance is applied as pore-closing substance on the surface of the film-forming substance. The hardening of the film-forming substance and the application of the pore-closing substance and/or the hardenable supporting substance on the film-forming substance take place separately from each other in a temporal manner. The pore-closing substance and/or the hardenable supporting substance are discretely or continuously applied on the film-forming substance using an inkjet technology in a drop-shaped manner. The pore-closing substance and/or the hardenable supporting substance are applied on the film-forming substance by a printing process. The film-forming substance is moved in the longitudinal- and/or transverse direction using a pressure head during the application of the pore-closing substance and/or the hardenable supporting substance, where the pressure head is filled with the pore-closing substance and/or the hardenable supporting substance. The pore-closing substance and/or the hardenable supporting substance do not completely cover the film-forming substance, and are applied on the film-forming substance in a honeycomb-shaped- and a cross-shaped manner. For the formation of the pores, the embedded pore inducers are removed from the film-forming substance before applying the pore-closing substance and/or the hardenable supporting substance and from the microstructured film after hardening the supporting substance. The hardenable supporting substance is applied on the film-forming substance in multi-layer coating steps that are temporally separated from each other, and is applied on several layers of the film-forming substance. The application of the film-forming substance and the supporting substance is successively repeated. A first layer of the hardenable supporting substance is applied on the film-forming substance and is partially hardened and a second layer of the hardenable supporting substance is applied on the first layer. The hardenable supporting substance is hardenable oil and monomer and/or polymer, which are provided with solvent and/or photoinitiator, and is applied, so that it forms a lateral structured layer and a continuous structure, which releases the openings, which pass through up to the film-forming substance. The successive applied layers of the hardenable supporting substance are not congruently applied to each other and have a structure divergent from each other. A hierarchical total structure is produced with the non-congruent structure on the film-forming substance by the successive application of the layers of the hardenable supporting substance. The film-forming substance is formed on a water surface. The film-forming substance is removed from the water surface after hardening and then the pore-closing substance and/or the hardenable supporting substance is applied on the film-forming substance. The pore inducer is silica gel particle and a mixture of monomer or polymer, solvent and photoinitiator is applied as film-forming substance on the water surface. For hardening the film-forming substance, the solvent is evaporated and the monomer or polymer is hardened. The silica gel particle is removed from the microstructured film, decomposes by a chemical process and is converted to volatile components in a gas phase reaction. An INDEPENDENT CLAIM is included for a microstructured film.
| Universität: | Technische Universität Chemnitz | |
| Institut 1: | Professur Physikalische Chemie | |
| Institut 2: | Forschung Prof. Baumann | |
| Institut 3: | Professur Mikrofertigungstechnik | |
| Institut 4: | Zentrum für Mikrotechnologien (ZfM) | |
| Dokumentart: | Patent (Offenlegungsschrift, Patentschrift, Gebrauchsmusterschrift) | |
| Veröffentlichungsnummer: | DE102009006064A1 | |
| Veröffentlichungsdatum | 26.08.2010 | |
| Internationale Patentklassifikation | B81C 1/00 |
