FT Beamline Geometry ELEMENTS: Torus-to-FT pipe FT Inner tungsten pipe Moeller cone MATERIALS:...

download FT Beamline Geometry ELEMENTS: Torus-to-FT pipe FT Inner tungsten pipe Moeller cone MATERIALS: Tungsten 92W-NiFe Density: 17.5 g/cm3 Tensione di snervamento:

of 10

  • date post

    13-Dec-2015
  • Category

    Documents

  • view

    218
  • download

    4

Embed Size (px)

Transcript of FT Beamline Geometry ELEMENTS: Torus-to-FT pipe FT Inner tungsten pipe Moeller cone MATERIALS:...

  • Slide 1

FT Beamline Geometry ELEMENTS: Torus-to-FT pipe FT Inner tungsten pipe Moeller cone MATERIALS: Tungsten 92W-NiFe Density: 17.5 g/cm3 Tensione di snervamento: 630 MPa Tensione rottura: 850 MPa Modulo Elastico E: 350 Gpa Coefficiente di Poisson : 0.3 Steel: Densit: 7.83 kg/dm3 Modulo Elastico E: 200 GPa Coefficiente di Poisson : 0.27 Slide 2 Stresses MAX Von Mises stress= 91 Mpa m=6.9 MAX scale = 63 Mpa Slide 3 Error Estimtates MAX error = 3% Slide 4 Deformation Max deformation ~ 1.4 mm Slide 5 Crystal assembly support structure ELEMENTS: Shaped copper pipe (3 mm thick) 3 peek rings MATERIALS: Copper Densit: 8,9 kg/dm3 Modulo Elastico E: 131 Gpa Coefficiente di Poisson : 0.35 PEEK: Densit: 1.31 kg/dm3 Tensione di rottura: 110 MPa Modulo Elastico E: 4 Gpa Coefficiente di Poisson : 0.4 Slide 6 Stresses MAX Von Mises stress= 42.4 Mpa MAX scale = 10Mpa Slide 7 Stresses and errors Color scale = 0-5.5 Mpa MAX scale = 10Mpa Error color scale= 0-5% Slide 8 Slide 9 Slide 10