TUHH Open Research
Help
  • Log In
    New user? Click here to register.Have you forgotten your password?
  • English
  • Deutsch
  • Communities & Collections
  • Publications
  • Research Data
  • People
  • Institutions
  • Projects
  • Statistics
  1. Home
  2. CRIS
  3. Funding
  4. SFB 986: Subproject Z02 - Multi-scale analysis of structures and processes via synchrotron radiation and neutrons
 
  • Project Details
  • Publications
Options
Projekt Titel
SFB 986: Subproject Z02 - Multi-scale analysis of structures and processes via synchrotron radiation and neutrons
Funding code
945.04-993
Gepris ID
221133217
Übergeordnetes Projekt
SFB 986: Tailor-Made Multi-Scale Materials Systems - M3  
Loading...
Thumbnail Image
Non-destructive examination of newly developed materials is of central importance for the SFB. On the one hand, only the latest maximun-resolution characterization methods allow sufficient knowledge of the hierarchical structure. On the other hand, it will be essential to correlate the mechanical, electrical, and photonic properties of the different projects in-situ with structural changes. It is crucial that appropriate investigation methods are available for our range of different length scales (a few nm up to mm) in the various hierarchical levels of the materials systems in the SFB.

Those experimental results are set to be important input parameters for theoretical models, which are used for the precise prediction of materials properties. Finally the experimental results of this project will be directly used to tailor structured multi-scale materials with respect to their applications

To this end, the central project Z2 combines appropriate skills in the use of synchrotron and neutron radiation facilities, for all projects of the SFB. All relevant length scales are covered by those experimental techniques. Of particular significance are procedures that use the excellent focus of high-brillance synchrotron radiation, thus achieving a spatial resolution of less than 10 nm. These procedures are specifically developed in Z2, further advancements being fostered by the novel materials systems of the SFB 986.
TUHH
Weiterführende Links
  • Contact
  • Send Feedback
  • Cookie settings
  • Privacy policy
  • Impress
DSpace Software

Built with DSpace-CRIS software - Extension maintained and optimized by 4Science
Design by effective webwork GmbH

  • Deutsche NationalbibliothekDeutsche Nationalbibliothek
  • ORCiD Member OrganizationORCiD Member Organization
  • DataCiteDataCite
  • Re3DataRe3Data
  • OpenDOAROpenDOAR
  • OpenAireOpenAire
  • BASE Bielefeld Academic Search EngineBASE Bielefeld Academic Search Engine
Feedback