Difference between revisions of "Upgrade/RadiationTestBirmingham"

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   * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
 
   * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
 
   * assembly: titanium (1.8mm), adhesive, 0.2mm), silicon (0.5 mm)
 
   * assembly: titanium (1.8mm), adhesive, 0.2mm), silicon (0.5 mm)
   * size: 42mm x 14mm x 2.5mm
+
   * size: 50mm x 17mm x 2.5mm
   * desired radiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
+
   * desired irradiated surface: 42mm x 17mm
  * radiated surface: preferable entire surface (too large?)
+
  * desired irradiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
  
 
*  B: glue heat conductivity tests (see picture)
 
*  B: glue heat conductivity tests (see picture)
 
   * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
 
   * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
 
   * assembly: aluminium (2mm), adhesive (10mm), aluminium (2mm)
 
   * assembly: aluminium (2mm), adhesive (10mm), aluminium (2mm)
   * size: 12mm x 14mm x 2mm
+
   * size: 10mm x 14mm x 2mm
   * desired radiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
+
   * desired irradiated surface: over entire adhesive (~10mm x 10mm)
  * radiated surface: over the adhesive layer
+
  * desired irradiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
  
 
*  C: RF box coating tests (see picture)
 
*  C: RF box coating tests (see picture)
Line 19: Line 19:
 
   * assembly: aluminium (1mm) on both sides covered with very thin layer of coating
 
   * assembly: aluminium (1mm) on both sides covered with very thin layer of coating
 
   * size: minimally 1x1cm (size can b increased, if that makes it easier to handle samples)
 
   * size: minimally 1x1cm (size can b increased, if that makes it easier to handle samples)
   * desired radiation load: 1x10^16 1-MeV-neutron equivalent / cm^2
+
   * desired irradiated surface: single 'spot' profile is sufficient
  * radiated surface: ideally over entire surface, but probably a 'spot' profile is acceptable as well
+
  * desired irradiation load: 1x10^16 1-MeV-neutron equivalent / cm^2

Revision as of 11:53, 7 June 2017

Three types of samples:

  • A: glue mechanics tests (see picture)
  * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
  * assembly: titanium (1.8mm), adhesive, 0.2mm), silicon (0.5 mm)
  * size: 50mm x 17mm x 2.5mm
  * desired irradiated surface: 42mm x 17mm
  * desired irradiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
  • B: glue heat conductivity tests (see picture)
  * number of samples: three (different types of glue: StycastFT2850, EP37-3FLFAO, Polytec TC423)
  * assembly: aluminium (2mm), adhesive (10mm), aluminium (2mm)
  * size: 10mm x 14mm x 2mm
  * desired irradiated surface: over entire adhesive (~10mm x 10mm)
  * desired irradiation load: 2x10^15 1-MeV-neutron equivalent / cm^2
  • C: RF box coating tests (see picture)
  * number of samples: three (different types of coating: Torlon, Polyurethane, XXX)
  * assembly: aluminium (1mm) on both sides covered with very thin layer of coating
  * size: minimally 1x1cm (size can b increased, if that makes it easier to handle samples)
  * desired irradiated surface: single 'spot' profile is sufficient
  * desired irradiation load: 1x10^16 1-MeV-neutron equivalent / cm^2