ANSYS simulations for the Main Beam U-clamps 14 February 2011 1 Nick Gazis, CERN-BE/RF & NTU- Athens
Feb 06, 2016
Nick Gazis, CERN-BE/RF & NTU-Athens 1
ANSYS simulations for the Main Beam
U-clamps
14 February 2011
Nick Gazis, CERN-BE/RF & NTU-Athens 2
Boundary Conditions Case Study
Models Cases
Results
Summary & Future Steps
14 February 2011
Index
Nick Gazis, CERN-BE/RF & NTU-Athens 3
CLIC Two-Beam Module MB Girder Boundary Conditions
AMB
I II
S1 S2 S3 S4
MB type 0
BMB CMB DMB EMB
14 February 2011
Input from D. Gudkov
3D layout with colored clamp cases (explanatory slide
following) : i. Case 1 (blue): Slidingii. Case 2 (red): Slidingiii. Case 3 (green): Fixation
Model Boundary Conditions
Nick Gazis, CERN-BE/RF & NTU-Athens 4
CLIC Two-Beam Module MB Girder Boundary Conditions
14 February 2011
Input from D. Gudkov
Cases: I. Case 1 (blue) –Sliding –
1 DoF along the z-axis (longitudinal dilatation of ACS) 0 DoF along the y-axis 0 DoF along the x-axis
II. Case 2 (red) –Sliding– 1 DoF along the z-axis (longitudinal dilatation of ACS) 0 DoF along the y-axis 0 DoF along the x-axis
(only layout difference between cases 1 & 2, same principle of the boundary conditions)
III. Case 3 (green) –Fixation– 0 DoF along the z-axis 0 DoF along the y-axis 0 DoF along the x-axis
Nick Gazis, CERN-BE/RF & NTU-Athens 514 February 2011
Case Study – Subassemblies for analysis
Case Study: i. U-clamp baseline material: Aluminum Alloy;ii. Forces introduced in the model:
a. Gravity (component weight);b. Thermal loading for the ACS (20-40°C);c. Vacuum: Pressure Load (ΔP = 1 bar).
Case 3: Intermediate (fixed) U-clamp
Case 1: Extremity (sliding) U-clamp
Case 2: Middle (sliding) U-clamp
Input from A. Samoshkin
Nick Gazis, CERN-BE/RF & NTU-Athens 614 February 2011
Case Study – Meshed Models
Case 2: Middle (sliding) U-clamp
Case 3: Intermediate (fixed) U-clamp
Case 1: Extremity (sliding) U-clamp
Nick Gazis, CERN-BE/RF & NTU-Athens 7
Case 1: Extremity (Sliding) U-Clamp
14 February 2011
Aluminum 6082 Max Deformation < 45 μm
Aluminum 6082 Max Stress < 20 MPa
Frictional Contact of ACS-Strap
Material Deformation (μm) Stress (MPa)
Aluminum 6082 43.971 16.583
Stainless Steel (304) 21.088 8.2914
Nick Gazis, CERN-BE/RF & NTU-Athens 8
Case 2: Middle (Sliding) U-Clamp
14 February 2011
Aluminum 6082 Max Deformation < 45 μm
Aluminum 6082 Max Stress < 15 MPa
Frictional Contact of ACS-Strap
Material Deformation (μm) Stress (MPa)
Aluminum 6082 42.293 12.026
Stainless Steel (304) 23.404 20.120
Nick Gazis, CERN-BE/RF & NTU-Athens 9
Case 3: Intermediate (Fixed) U-Clamp
14 February 2011
Aluminum 6082 Max Deformation < 55 μm
Aluminum 6082 Max Stress < 11 MPa
Frictional Contact of ACS-Strap
Material Deformation (μm) Stress (MPa)
Aluminum 6082 50.042 10.086
Stainless Steel (304) 36.162 16.273
Nick Gazis, CERN-BE/RF & NTU-Athens 10
Summary of Accomplished Tasks:•MB U-clamps modelization;•Study of boundary conditions;•MB U-clamps and MB RF-components simplification;•MB U-clamps simulation.
Future Tasks & Testing:•MB U-clamps optimization (under consideration);•DB U-clamps modelization;•DB U-clamps simulation;•DB U-clamps (under consideration).
Summary & Future Steps
14 February 2011
Comments are always welcome!
Nick Gazis, CERN-BE/RF & NTU-Athens 11
Thank you!
11Nick Gazis, CERN-BE/RF & NTU-Athens14 February 2011