Forschung http://www.industrielle-ct.at/cms2/index.php/de/forschung/92-proj 2016-12-04T21:19:16+01:00 www.3dct.at m.reiter@fh-wels.at Joomla! - Open Source Content Management Projekte 2012-07-20T13:43:29+02:00 2012-07-20T13:43:29+02:00 http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/15-projekte Elena Sell elena.sell@fh-wels.at <h1>Unsere Projekte</h1> <p>Die CT-Forschungsgruppe am Campus Wels arbeitet an verschiedenen Forschungsprojekten in Kooperation mit anderen Forschungeinrichtungen und Industriepartnern.</p> <h4>Laufende Forschungsprojekte &nbsp;</h4> <table border="1" style="border: 1px solid #c0c0c0;"> <tbody> <tr> <td style="width: 15%;" valign="top"><strong>Acronym</strong></td> <td valign="top"><strong>Projektname</strong></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/210-mici-de">MiCi</a></td> <td valign="top">Multimodale und in-situ Charakterisierungsverfahren f&uuml;r inhomogene Werkstoffe</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/209-adam-de">ADAM</a></td> <td valign="top">ADAM - Advanced Multimodal Data Analysis and Visualization of Composites based on Grating Interferometer Micro-CT Data -&nbsp;<a href="http://www.industrielle-ct.at/cms2/../adam">www.3dct.at/adam</a></td> </tr> <tr> <td valign="top"><a href="http://www.zerstoerungsfrei.at" target="_blank">K-Projekt ZPT+</a></td> <td valign="top">K-Projekt f&uuml;r Zerst&ouml;rungsfreie Pr&uuml;fung und Tomografie Plus - <a href="http://www.zerstoerungsfrei.at">www.zerstoerungsfrei.at</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php?option=com_content&amp;view=article&amp;id=165:interaqct&amp;catid=57:projects&amp;Itemid=195" target="_blank">INTERAQCT</a> <a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/78-nanoxct" target="_blank"></a> </td> <td valign="top">International Network for the Training of Early stage Researchers on Advanced Quality control by Computed Tomography -&nbsp;<a href="http://www.interaqct.eu">www.interaqct.eu</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/78-nanoxct" target="_blank">NanoXCT</a></td> <td valign="top">Compact X-ray computed tomography system for non destructive characterization of nano materials - <a href="http://www.nanoxct.eu">www.nanoxct.eu</a>&nbsp;</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/79-quicom" target="_blank">QUICOM</a></td> <td valign="top">Quantitative inspection of complex composite aeronautic parts using advanced X-ray techniques -&nbsp;<a href="http://www.quicom.eu">www.quicom.eu</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/48-3d-sfc" target="_blank">3D-SFC</a></td> <td valign="top">3D Simulation der Schadensakkumulation richtungsabh&auml;ngiger faserverst&auml;rkter Kunststoffe mittels Computertomografie</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/47-regstore">RegStore</a></td> <td valign="top">Speicherung von regenerativem Strom unter CO2-Bindung durch Elektro-Biotechnologie</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/46-recarbofit" target="_blank">ReCarboFit</a></td> <td valign="top">Entwicklung einer technischen Dienstleistung zur Reparatur von CFK-Bauteilen</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/17-k1-met" target="_blank">K1-Met</a></td> <td valign="top">Competence Center for Excellent Technologies in Advanced Metallurgical and Environmental Process Development</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/85-4emobility" target="_blank">4EMobility</a></td> <td valign="top">Energy-efficient Economic and Ecological Mobility</td> </tr> </tbody> </table> <p>&nbsp;</p> <p>&nbsp;</p> <p><span style="font-family: Verdana, Arial, Helvetica, sans-serif; font-size: 16px; line-height: normal;"></span></p> <h1>Unsere Projekte</h1> <p>Die CT-Forschungsgruppe am Campus Wels arbeitet an verschiedenen Forschungsprojekten in Kooperation mit anderen Forschungeinrichtungen und Industriepartnern.</p> <h4>Laufende Forschungsprojekte &nbsp;</h4> <table border="1" style="border: 1px solid #c0c0c0;"> <tbody> <tr> <td style="width: 15%;" valign="top"><strong>Acronym</strong></td> <td valign="top"><strong>Projektname</strong></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/210-mici-de">MiCi</a></td> <td valign="top">Multimodale und in-situ Charakterisierungsverfahren f&uuml;r inhomogene Werkstoffe</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/209-adam-de">ADAM</a></td> <td valign="top">ADAM - Advanced Multimodal Data Analysis and Visualization of Composites based on Grating Interferometer Micro-CT Data -&nbsp;<a href="http://www.industrielle-ct.at/cms2/../adam">www.3dct.at/adam</a></td> </tr> <tr> <td valign="top"><a href="http://www.zerstoerungsfrei.at" target="_blank">K-Projekt ZPT+</a></td> <td valign="top">K-Projekt f&uuml;r Zerst&ouml;rungsfreie Pr&uuml;fung und Tomografie Plus - <a href="http://www.zerstoerungsfrei.at">www.zerstoerungsfrei.at</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php?option=com_content&amp;view=article&amp;id=165:interaqct&amp;catid=57:projects&amp;Itemid=195" target="_blank">INTERAQCT</a> <a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/78-nanoxct" target="_blank"></a> </td> <td valign="top">International Network for the Training of Early stage Researchers on Advanced Quality control by Computed Tomography -&nbsp;<a href="http://www.interaqct.eu">www.interaqct.eu</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/78-nanoxct" target="_blank">NanoXCT</a></td> <td valign="top">Compact X-ray computed tomography system for non destructive characterization of nano materials - <a href="http://www.nanoxct.eu">www.nanoxct.eu</a>&nbsp;</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/79-quicom" target="_blank">QUICOM</a></td> <td valign="top">Quantitative inspection of complex composite aeronautic parts using advanced X-ray techniques -&nbsp;<a href="http://www.quicom.eu">www.quicom.eu</a></td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/48-3d-sfc" target="_blank">3D-SFC</a></td> <td valign="top">3D Simulation der Schadensakkumulation richtungsabh&auml;ngiger faserverst&auml;rkter Kunststoffe mittels Computertomografie</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/47-regstore">RegStore</a></td> <td valign="top">Speicherung von regenerativem Strom unter CO2-Bindung durch Elektro-Biotechnologie</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/46-recarbofit" target="_blank">ReCarboFit</a></td> <td valign="top">Entwicklung einer technischen Dienstleistung zur Reparatur von CFK-Bauteilen</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/17-k1-met" target="_blank">K1-Met</a></td> <td valign="top">Competence Center for Excellent Technologies in Advanced Metallurgical and Environmental Process Development</td> </tr> <tr> <td valign="top"><a href="http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/85-4emobility" target="_blank">4EMobility</a></td> <td valign="top">Energy-efficient Economic and Ecological Mobility</td> </tr> </tbody> </table> <p>&nbsp;</p> <p>&nbsp;</p> <p><span style="font-family: Verdana, Arial, Helvetica, sans-serif; font-size: 16px; line-height: normal;"></span></p> MiCi 2012-11-23T08:37:56+01:00 2012-11-23T08:37:56+01:00 http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/210-mici-de Super User m.reiter@fh-wels.at <h2>Multimodale und in-situ Charakterisierungsverfahren f&uuml;r inhomogene Werkstoffe</h2> <p>MiCi: 01.01.2016 - 31.12.2021</p> <p style="text-align: justify;">Multimodale und zerst&ouml;rungsfreie Pr&uuml;fverfahren (ZfP) sind essentielle Methoden, um Werkstoffe w&auml;hrend eines Bearbeitungsprozesses, beispielsweise w&auml;hrend oder nach einer thermomechanischen Behandlung, zu charakterisieren und um damit den Prozess auch in-situ &uuml;berwachen zu k&ouml;nnen. In diesem Projekt werden verschiedene ZfP-Verfahren in einem multimodalen Pr&uuml;fstand gleichzeitig realisiert. Dadurch ist die Vergleichbarkeit der verschiedenen ZfP-Verfahren gew&auml;hrleistet. Die Anschaffung eines neuen, hochaufl&ouml;senden R&ouml;ntgen-Computertomographens mit in-situ Stages dient unter Anderem zur zus&auml;tzlichen Charakterisierung und Validierung der ZfP-Verfahren. Neben dieser experimentellen Validierung der ZfP-Verfahren werden deren Aufl&ouml;sungsgrenzen auch mit theoretischen Grenzen verglichen. Dadurch kann sowohl theoretisch als auch experimentell bestimmt werden, welche ZfP-Verfahren zur Charakterisierung von bestimmten Prozessen und Defekten in Werkstoffen am besten geeignet sind.</p> <h2>Multimodale und in-situ Charakterisierungsverfahren f&uuml;r inhomogene Werkstoffe</h2> <p>MiCi: 01.01.2016 - 31.12.2021</p> <p style="text-align: justify;">Multimodale und zerst&ouml;rungsfreie Pr&uuml;fverfahren (ZfP) sind essentielle Methoden, um Werkstoffe w&auml;hrend eines Bearbeitungsprozesses, beispielsweise w&auml;hrend oder nach einer thermomechanischen Behandlung, zu charakterisieren und um damit den Prozess auch in-situ &uuml;berwachen zu k&ouml;nnen. In diesem Projekt werden verschiedene ZfP-Verfahren in einem multimodalen Pr&uuml;fstand gleichzeitig realisiert. Dadurch ist die Vergleichbarkeit der verschiedenen ZfP-Verfahren gew&auml;hrleistet. Die Anschaffung eines neuen, hochaufl&ouml;senden R&ouml;ntgen-Computertomographens mit in-situ Stages dient unter Anderem zur zus&auml;tzlichen Charakterisierung und Validierung der ZfP-Verfahren. Neben dieser experimentellen Validierung der ZfP-Verfahren werden deren Aufl&ouml;sungsgrenzen auch mit theoretischen Grenzen verglichen. Dadurch kann sowohl theoretisch als auch experimentell bestimmt werden, welche ZfP-Verfahren zur Charakterisierung von bestimmten Prozessen und Defekten in Werkstoffen am besten geeignet sind.</p> ADAM 2012-11-23T08:37:56+01:00 2012-11-23T08:37:56+01:00 http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/209-adam-de open_iA Bernhard.Froehler@fh-wels.at <h2>ADAM - Advanced Multimodal Data Analysis and Visualization of Composites based on Grating Interferometer Micro-CT Data</h2> <p>ADAM project duration: 01.03.2016 - 28.02.2019</p> <p style="text-align: justify;">Within recent years, the need for new, cost-effective, function-oriented, highly integrated, and light-weight components has strongly grown in many high-tech industries such as aerospace, automotive, marine, and construction. The drivers behind this trend are mainly found in the rising application demands regarding efficiency, safety, environment, and comfort. Among desired functional and -mechanical properties, the requirements on new materials and components include high strength, elasticity, durability, energy efficiency, and light weight. Unlike conventional materials such as aluminum, steel, or alloys, fiber-reinforced polymers (FRPs) &ndash; composites made of a polymer matrix reinforced with carbon, glass, or other type of fibers &ndash; fulfill these requirements to a high extent. To design new materials and components, detailed investigations and characterizations of FRP materials are vital. In industrial settings, FRP components and materials are nondestructively tested, e.g., by visual inspection, tapping, or ultrasonic inspection. However, conventional methods are increasingly facing their limits regarding accuracy, level-of-detail, and inspection time. To overcome these limitations, industrial 3D X-ray computed tomography (XCT) has received much attention in quality control due to its high spatial resolution and ability to precisely capture external and internal structures in one scan. Compared to other non-destructive testing methods for FRPs, XCT is yet the only method capable of delivering full 3D information for detailed inspection and quality control.</p> <h2>ADAM - Advanced Multimodal Data Analysis and Visualization of Composites based on Grating Interferometer Micro-CT Data</h2> <p>ADAM project duration: 01.03.2016 - 28.02.2019</p> <p style="text-align: justify;">Within recent years, the need for new, cost-effective, function-oriented, highly integrated, and light-weight components has strongly grown in many high-tech industries such as aerospace, automotive, marine, and construction. The drivers behind this trend are mainly found in the rising application demands regarding efficiency, safety, environment, and comfort. Among desired functional and -mechanical properties, the requirements on new materials and components include high strength, elasticity, durability, energy efficiency, and light weight. Unlike conventional materials such as aluminum, steel, or alloys, fiber-reinforced polymers (FRPs) &ndash; composites made of a polymer matrix reinforced with carbon, glass, or other type of fibers &ndash; fulfill these requirements to a high extent. To design new materials and components, detailed investigations and characterizations of FRP materials are vital. In industrial settings, FRP components and materials are nondestructively tested, e.g., by visual inspection, tapping, or ultrasonic inspection. However, conventional methods are increasingly facing their limits regarding accuracy, level-of-detail, and inspection time. To overcome these limitations, industrial 3D X-ray computed tomography (XCT) has received much attention in quality control due to its high spatial resolution and ability to precisely capture external and internal structures in one scan. Compared to other non-destructive testing methods for FRPs, XCT is yet the only method capable of delivering full 3D information for detailed inspection and quality control.</p> INTERAQCT 2012-11-23T08:37:56+01:00 2012-11-23T08:37:56+01:00 http://www.industrielle-ct.at/cms2/index.php/de/forschung/projekte/166-interaqct-de Elena Sell elena.sell@fh-wels.at <h2>International Network for the Training of Early stage Researchers on Advanced Quality control by Computed Tomography</h2> <p><em>NanoXCT: October 2013 – September 2017</em></p> <p style="text-align: justify;">The non-destructive quality control of a wide variety of high-added value products, produced by innovative manufacturing techniques, remains a challenge. Examples include additive manufacturing parts, micro parts, and fibre reinforced composite parts. Common to these workpieces is the dependency of their performance on internal and inaccessible elements. Nevertheless, customers in multiple sectors are requesting certified quality and reliability.</p> <h2>International Network for the Training of Early stage Researchers on Advanced Quality control by Computed Tomography</h2> <p><em>NanoXCT: October 2013 – September 2017</em></p> <p style="text-align: justify;">The non-destructive quality control of a wide variety of high-added value products, produced by innovative manufacturing techniques, remains a challenge. Examples include additive manufacturing parts, micro parts, and fibre reinforced composite parts. Common to these workpieces is the dependency of their performance on internal and inaccessible elements. Nevertheless, customers in multiple sectors are requesting certified quality and reliability.</p>