Quantitative inspection of complex composite aeronautic parts using advanced X-ray techniques
- NázevTitle
- Quantitative inspection of complex composite aeronautic parts using advanced X-ray techniquesQuantitative inspection of complex composite aeronautic parts using advanced X-ray techniques
- PoskytovatelProvider
- Evropská komiseEuropean Commission
- ProgramProgramme
- Podpora projektů sedmého rámcového programu Evropského společenství pro výzkum, technologický rozvoj a demonstrace (2007 až 2013) podle zákona č. 171/2007 Sb.Subvention of the projects of the Seventh Framework Programme of the European Community for research, technological development including demonstration activities (FP7) according to the Czech law 171/2007 Sb.
- Kód CEPCEP code
- 7E13054
- Datum zahájeníStart date
- 2013-01-01
- Datum ukončeníEnd date
- 2015-09-30
- Vztah ČVUTCTU relation
- ČVUT je v pozici další účastníkCTU has the role of "another participant"
- Řešitel ČVUTCTU investigator
- Ing. Daniel Vavřík, Ph.D.
AbstraktAbstract
Recent years have seen a rapidly growing demand from aeronautic industry regarding function-oriented, highly integrated, energy-efficient and lightweight structures. In advanced composites a promising material was found, which integrates these characteristics allowing for continuously elevating the complexity of new components concerning shape and internal structure. The consequences of this increasing complexity are tremendously raising efforts in quality control, as conventional nondestructive testing methods are reaching their limits and become either extremely time-consuming or unusable for a full inspection. QUICOM aims at taking the next big step in the development of aeronautic components by developing a new technology platform of highly detailed inspection methods in combination with advanced composite modelling and simulation.
Recent years have seen a rapidly growing demand from aeronautic industry regarding function-oriented, highly integrated, energy-efficient and lightweight structures. In advanced composites a promising material was found, which integrates these characteristics allowing for continuously elevating the complexity of new components concerning shape and internal structure. The consequences of this increasing complexity are tremendously raising efforts in quality control, as conventional nondestructive testing methods are reaching their limits and become either extremely time-consuming or unusable for a full inspection. QUICOM aims at taking the next big step in the development of aeronautic components by developing a new technology platform of highly detailed inspection methods in combination with advanced composite modelling and simulation.
VýsledkyResults
- Ultra-stable implanted Rb-83/Kr-83m electron sources for the energy scale monitoring in the KATRIN experimentUltra-stable implanted Rb-83/Kr-83m electron sources for the energy scale monitoring in the KATRIN experiment
- Evaluation of porosity effects on the mechanical properties of carbon fiber-reinforced plastic unidirectional laminates by X-ray computed tomography and mechanical testingEvaluation of porosity effects on the mechanical properties of carbon fiber-reinforced plastic unidirectional laminates by X-ray computed tomography and mechanical testing
- Visualization of delamination in composite materials utilizing advanced X-ray imaging techniquesVisualization of delamination in composite materials utilizing advanced X-ray imaging techniques
- X-ray inspection of composite materials for aircraft structures using detectors of Medipix typeX-ray inspection of composite materials for aircraft structures using detectors of Medipix type