Finland

Institutes

  • HIP, Helsinki 
  • TUT, Tampere
    • Memorandum of Understanding signed on 25 June 2014
    • Addendum signed on 20 October 2014
      • The scope of this collaboration is to study reliability, availability, maintainability and safety design methods and tools to be applied to particle accelerators as well as study superconducting accelerator magnet technologies with special emphasis on the quench analysis of accelerator main dipoles (QUENCH).
    • Addendum signed on 23 January 2017
      • This project concerns the analysis of the experimental results from the quench production tests in R&D high field Nb3Sn magnets. The focus is on a systematic performance evaluation of different quench heater designs and comparison with simulation tools, including a further improvement of the simulation tools and a quantification of their accuracy.
    • Addendum signed on 20 November 2017
      • The scope of this collaboration is to gain a detailed understanding of the manufacturing process of the baseline FCC-hh Nb3Sn high-field superconducting dipole magnet as a pre-cursor to potential future industrialisation projects. The manufacturing process spans the workflow from the materials (superconducting wires, steel, supplies) to the validation of the final product (tested magnet). lt includes the function, performance and availability requirements on infrastructures, tooling, instrumentation as well as quality management needs. The aim of this research is to provide the basis for future R&D on the industrialisation of a manufacturing process, considering the involvement of different suppliers, integrators, distributed manufacturing sites and materials from different origins.
    • Addendum signed on 08 October 2018
      • This R&D project deals with the assessment of HTS material for FCC-hh magnets. The scope of this collaboration is the development of a model and simulation for Roebel type cables and validation of the model with laboratory measurements.

 

Find more about Finland's relationship with CERN here.