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Schoelz, F.

Paper Title Page
MOPEB072 Tracking of RRR Value and Microstructure in High Purity Niobium along the Production Chain from the Ingot to the Finished Cavity 435
 
  • S. Grawunder, F. Schoelz, B. Spaniol
    W.C. Heraeus GmbH, Materials Technology Dept., Hanau
  • R. Grill, W. Simader
    Plansee Metall GmbH, Reutte
  • M. Heilmaier, D. Janda
    TU Darmstadt, Darmstadt
  • W. Singer, X. Singer
    DESY, Hamburg
 
 

The RRR value of high pure Nb is showing strong relations to the individual production steps. Mainly the different kind of internal stresses caused by the several production steps are resulting in the variation of the RRR value. This work shows the RRR values along the complete production chain from the molten Ingot till to the finished cavity. The influence of the RRR value caused by stresses and the release of that stresses by vacuum annealing is shown.

 
WEPEC007 Surface Investigation on Prototype Cavities for the European XFEL 2902
 
  • X. Singer, S. Aderhold, A. Ermakov, W. Singer, K. Twarowski
    DESY, Hamburg
  • M. Hoss, F. Schoelz, B. Spaniol
    W.C. Heraeus GmbH, Materials Technology Dept., Hanau
 
 

Performance of XFEL prototype cavities fabricated at the industry and treated at DESY demonstrates big scattering from 15 to 41 MV/m. Most cavities satisfy the XFEL specification. Few cavities with low performance (15-17 MV/m) are limited by thermal break down without field emission. The T-map analysis detected the quench areas mainly close to the equator. Optical control by high resolution camera has been applied and allowed to monitor the defects in some cases with good correlation to T-map data. In order to understand the cause of reduced performance and get more detailed information of defects origin some samples have been extracted from two cavities and investigated by light microscope, 3D- microscope, SEM, EDX and Auger spectroscopy. Several surface flaws with sizes from few μm to hundreds of μm were detected by microscopy. The defects can be separated in two categories. The first category of defects indicates foreign elements (often increased content of carbon). Inclusions with increased content of carbon adhered on the surface and presumably have a hydrocarbon nature. Deviation from smooth surface profile characterizes the second type of defects (holes, bumps and pits).