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 MP • Tensione rottura: 850 MPa • Modulo Elastico E: 350 Gpa • Coefficiente di Poisson υ: 0.3 • Steel: • Densità: 7.83 kg/dm3 • Modulo Elastico E: 200 GPa • Coefficiente di Poisson υ: 0.27
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
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 υ: 0.3
• Steel:• Densità: 7.83 kg/dm3 • Modulo Elastico E: 200 GPa • Coefficiente di Poisson υ: 0.27
StressesMAX Von Mises stress= 91 Mpam=6.9
MAX scale = 63 Mpa
Error EstimtatesMAX error = 3%
Deformation
Max deformation ~ 1.4 mm
Crystal assembly support structure
ELEMENTS:• Shaped copper pipe (3 mm thick)• 3 peek rings
MATERIALS:• Copper
• Densità: 8,9 kg/dm3 • Modulo Elastico E: 131 Gpa • Coefficiente di Poisson υ: 0.35
• PEEK:• Densità: 1.31 kg/dm3 • Tensione di rottura: 110 MPa • Modulo Elastico E: 4 Gpa • Coefficiente di Poisson υ: 0.4
StressesMAX Von Mises stress= 42.4 Mpa
MAX scale = 10Mpa
Stresses and errorsColor scale = 0-5.5 Mpa
MAX scale = 10Mpa
Error color scale= 0-5%
Related Documents
